Effect of reperfusion injury following different ischemic duration on skeletal muscle in rats / 中华创伤杂志

Objective:To investigate effect of reperfusion injury following different ischemic duration on skeletal muscle in rats.Methods:A model of ischemia/reperfusion injury (IRI) was established by unilateral clamping femoral artery and additional application of tourniquet in skeletal muscle of hind limbs in 35 male Wsitar rats. According to different ischemia time, the animals were assigned to 2-hour ischemia and 24-hour reperfusion (I2R24 group), 2.5-hour ischemia and 24-hour reperfusion (I2.5R24 group), 3-hour ischemia and 24-hour reperfusion (I3R24 group), 4-hour ischemia and 24-hour reperfusion (I4R24 group) and sham group, with 7 rats per group. At the end of reperfusion, gastrocnemious tissues and plasma samples were collected and analyzed. The ratio of wet ∶ dry weight (W/D) was used to measure muscle edema. The assay of 3-(4, 5-Dimethylthiazol-2-yl)-2, 5-diphenyltetrazolium bromide (MTT) was conducted to evaluate muscle viability. HE staining was executed to observe histopathological changes. Immunofluorescence staining was performed to assess the levels of C1q, C3b/c, tissue factor (TF), fibrinogen (FN), bradykinin receptor 1 (BR1), BR2, vascular cell adhesion molecule-1 (VCAM-1), E-selectin, fibrinogen-like protein-2 (FGL-2) and myeloperoxidase (MPO) in muscle tissues. ELISA method was used to determine the concentrations of interferonγ (IFN-γ), interleukin7 (IL-7), IL-18, macrophage inflammatory1α (MIP-1α) and monocyte chemotactic protein 1 (MCP-1) in plasma.Results:With prolongation of ischemia time and subsequent reperfusion, tissue edema became severe gradually. The ratio of W/D was 5.3±0.2, 6.1±0.3, 6.9±0.2, 7.6±0.3 in I2R24, I2.5R24, I3R24 and I4R24 groups, higher than that in sham group (4.5±0.1) (all P<0.01). Muscle viability got decreased gradually. Muscle viability was (62.4±3.5)%, (45.3±3.3)%, (35.4±3.4)%, (27.1±5.9)% in I2R24, I2.5R24, I3R24 and I4R24 groups, lower than that in sham group［(93.8±7.2)%］(all P<0.01). Histopathological changes became aggravated gradually. The most severe group was I4R24 group, with the most severe myocyte injury, interstitial edema and extensive inflammatory infiltration, followed by I3R24, I2.5R24 and I2R24 groups in order. There was normal structure integrity and neatly arranged myocyte in sham group. Meanwhile, levels of C1q, C3b, FN, BR1, VCAM-1, E-selectin and FGL-2 got increased gradually. The highest levels for these factors were seen in I4R24 group, followed by I3R24 group, I2.5R24 group, I2R24 group and sham group in order. The rough ratio of the number of positive MPO cells/total cell number under high lens (×200) were increased gradually, with the highest level in I4R24 group, followed by I3R24 group, I2.5R24 group, I2R24 group and sham group in order. However, expression of TF and BR2 were not altered significantly among the groups. Plasma levels of INF-γ, IL-7, IL-18, MIP-1α and MCP-1 elevated gradually with prolongation of ischemia time (all P<0.01). The sequence was the sham group, I2R24 group, I2.5R24 group, I3R24 group and I4R24 groups for levels of these factors from low to high (all P<0.01). Conclusion:Reperfusion after prolongation of ischemia duration can increase the activation of complement, coagulation, kinin and endothelial cells as well as the release of inflammatory factors, and thus aggravate the degree of skeletal muscle tissue injury.

Interactions amongst inflammation, renin-angiotensin-aldosterone and kallikrein-kinin systems: suggestive approaches for COVID-19 therapy

Coronavirus disease 2019 (COVID-19) is a rapid-spread infectious disease caused by the SARS-CoV-2 virus, which can culminate in the renin-angiotensin-aldosterone (RAAS) and kallikrein-kinin (KKS) systems imbalance, and in serious consequences for infected patients. This scoping review of published research exploring the RAAS and KKS was undertaken in order to trace the history of the discovery of both systems and their multiple interactions, discuss some aspects of the viral-cell interaction, including inflammation and the system imbalance triggered by SARS-CoV-2 infection, and their consequent disorders. Furthermore, we correlate the effects of continued use of the RAAS blockers in chronic diseases therapies with the virulence and physiopathology of COVID-19. We also approach the RAAS and KKS-related proposed potential therapies for treatment of COVID-19. In this way, we reinforce the importance of exploring both systems and the application of their components or their blockers in the treatment of coronavirus disease.(AU)

Interactions amongst inflammation, renin-angiotensin-aldosterone and kallikrein-kinin systems: suggestive approaches for COVID-19 therapy

Abstract Coronavirus disease 2019 (COVID-19) is a rapid-spread infectious disease caused by the SARS-CoV-2 virus, which can culminate in the renin-angiotensin-aldosterone (RAAS) and kallikrein-kinin (KKS) systems imbalance, and in serious consequences for infected patients. This scoping review of published research exploring the RAAS and KKS was undertaken in order to trace the history of the discovery of both systems and their multiple interactions, discuss some aspects of the viral-cell interaction, including inflammation and the system imbalance triggered by SARS-CoV-2 infection, and their consequent disorders. Furthermore, we correlate the effects of continued use of the RAAS blockers in chronic diseases therapies with the virulence and physiopathology of COVID-19. We also approach the RAAS and KKS-related proposed potential therapies for treatment of COVID-19. In this way, we reinforce the importance of exploring both systems and the application of their components or their blockers in the treatment of coronavirus disease.

Renal fibrosis due to multiple cisplatin treatment is exacerbated by kinin B1 receptor antagonism

Cisplatin is a widely used chemotherapeutic drug, but its side effects are a major limiting factor. Nephrotoxicity occurs in one third of patients undergoing cisplatin treatment. The acute tubular injury caused by cisplatin often leads to a defective repair process, which translates into chronic renal disorders. In this way, cisplatin affects tubular cells, and maladaptive tubules regeneration will ultimately result in tubulointerstitial fibrosis. Kinins are well known for being important peptides in the regulation of inflammatory stimuli, and kinin B1 receptor deficiency and antagonism have been shown to be beneficial against acute cisplatin nephrotoxicity. This study aimed to analyze the effects of kinin B1 receptor deletion and antagonism against repeated cisplatin-induced chronic renal dysfunction and fibrosis. Both the deletion and the antagonism of B1 receptor exacerbated cisplatin-induced chronic renal dysfunction. Moreover, the inhibition of B1 receptor increased tubular injury and tubulointerstitial fibrosis after repeated treatment with cisplatin. The balance between M1/M2 macrophage polarization plays an important role in renal fibrosis. Kinin B1 receptor antagonism had no impact on M1 markers when compared to cisplatin. However, YM1, an M2 marker and an important molecule for the wound healing process, was decreased in mice treated with kinin B1 receptor antagonist, compared to cisplatin alone. Endothelin-1 levels were also increased in mice with B1 receptor inhibition. This study showed that kinin B1 receptor inhibition exacerbated cisplatin-induced chronic renal dysfunction and fibrosis, associated with reduced YM1 M2 marker expression, thus possibly affecting the wound healing process.

Kn-Ba: a novel serine protease isolated from Bitis arietans snake venom with fibrinogenolytic and kinin-releasing activities

Bitis arietans is a venomous snake found in sub-Saharan Africa and in parts of Morocco and Saudi Arabia. The envenomation is characterized by local and systemic reactions including pain, blistering, edema and tissue damage, besides hemostatic and cardiovascular disturbances, which can cause death or permanent disabilities in its victims. However, the action mechanisms that provoke these effects remain poorly understood, especially the activities of purified venom components. Therefore, in order to elucidate the molecular mechanisms that make the Bitis arietans venom so potent and harmful to human beings, this study reports the isolation and biochemical characterization of a snake venom serine protease (SVSP). Methods: Solubilized venom was fractionated by molecular exclusion chromatography and the proteolytic activity was determined using fluorescent substrates. The peaks that showed serine protease activity were determined by blocking the proteolytic activity with site-directed inhibitors. In sequence, the fraction of interest was submitted to another cycle of molecular exclusion chromatography. The purified serine protease was identified by mass spectrometry and characterized biochemically and immunochemically. Results: A serine protease of 33 kDa with fibrinogen-degrading and kinin-releasing activities was isolated, described, and designated herein as Kn-Ba. The experimental Butantan Institute antivenom produced against Bitis arietans venom inhibited the Kn-Ba activity. Conclusions: The in vitro activities of Kn-Ba can be correlated with the capacity of the venom to provoke bleeding and clotting disorders as well as hypotension, which are common symptoms presented by envenomed victims. Obtaining satisfactory Kn-Ba inhibition through the experimental antivenom is important, given the WHO's recommendation of immunotherapy in cases of human accidents with venomous snakes.(AU)

Papel do receptor B2 de cininas na terapia da neurodegeneração dopaminérgica em modelo animal / Targeting Kinin-B2 receptors for the treatment of dopaminergic neurodegeneration in an animal mode

A Doença de Parkinson (DP) é um distúrbio neurodegenerativo, caracterizada em parte pela perda de neurônios dopaminérgicos da via nigroestriatal, originada na substância negra com projeções para o estriado, causando vários déficits motores. Atualmente, o tratamento mais utilizado é a administração de L-DOPA, um análogo da dopamina. Porém, essa droga apresenta eficácia limitada e induz diversos efeitos colaterais. A exploração dos efeitos neuroprotetores, proliferativos e neuroregenerativos da bradicinina (BK) em modelo animal de DP pode conduzir à substituição celular do tecido lesionado pela 6-hidroxidopamina (6-OHDA). De fato, a BK e seus receptores possuem um grande espectro de ações fisiológicas, estando classicamente envolvida no controle da homeostase cardiovascular e inflamação, além de exercer efeitos protetores em fisiopatologias do sistema nervoso, como em modelos de acidente vascular cerebral. Vários tipos celulares têm suas vias de sinalização associadas à ativação do receptor B2 de cininas (B2BKR). Trabalhos anteriores de nosso grupo mostraram que a BK está envolvida na diferenciação neural de células progenitoras neurais por um loop autócrino que resulta em ativação do B2BKR. Os resultados apresentados neste trabalho mostram a eficácia do tratamento com BK, um agonista de B2BKR, em animais submetidos à lesão da via nigro-estriatal induzida por 6-OHDA. Além disso, há uma recuperação comportamental e histológica desses animais quando tratados com Captopril®, um potencializador dos efeitos farmacológicos da BK, e com [Phe8Ψ(CH-NH)Arg9]-Bradicinina, agonista estável do receptor B2BKR. Assim, concluímos que a ativação de B2BKR pela BK desencadeiaum processo de neuroregeneração dopaminérgica de animais submetidos à lesão por 6-OHDA. Trabalhos recentes mostram que o receptor B2BKR desempenha um importante papel neuroprotetor em modelo animal da Doença de Alzheimer, o que corrobora nossos achados. Juntos, esses resultados contribuem para o estabelecimento da ação neuroprotetora e neurorregenerativa da BK no modelo de animal de neurodegeneração dopaminérgica, tornando-a uma excelente candidata para aplicação em terapias de reparo neuronal

Parkinson's disease (PD) is a neurodegenerative disorder partially characterized by the loss of dopaminergic neurons from the nigrostriatal pathway, originated in the substantia nigra with projections to the striatum, which causes several motor deficits. Currently, the most commonly used drug for PD treatment is levodopa. However, it has limited efficacy and induces several side effects. Elucidation of the neuroprotective, proliferative and neuroregenerative effects of bradykinin (BK) in animal models of PD can culminate in cellular replacement of the tissue damaged by 6-hydroxydopamine (6-OHDA). In fact, BK and its receptor have several physiological effects, being classically involved in the control of cardiovascular homeostasis and inflammation. Besides, BK exerts protective effects on nervous system pathophysiology, as observed in stroke models. Several cell types have their signaling pathways associated with the B2 kinin receptor (B2BKR) activation. Previous work from our group showed that BK is involved in differentiation of neural progenitor cells by an autocrine loop that results in activation of B2BKR. The results presented in this thesis show the efficacy of treatment with BK, through B2BKR activation, in animals submitted to nigrostriatal pathway injury induced by 6-OH dopamine. Furthermore, behavioral and histological recoveries of these animals were observed when treated with Captopril®, a potentiator of BK pharmacological effects, and with [Phe8Ψ (CH-NH) Arg9] -BK, a stable agonist of the B2BKR receptor. Thus, we conclude that BK activation of B2BKR triggers neuroregenerative processes in animals submitted to 6- OHDA injury. Recent studies showed that the B2BKR receptor plays an important neuroprotective role in an animal model of Alzheimer's disease, which corroboratesour findings. Together, these results contribute to the establishment of the neuroprotective and neuroregenerative actions of BK - an excellent candidate for neural repair therapies

Expression and distribution of kinin B2 receptor in medulla and spinal cord tissues of Rats treated with capsaicin / Expresión y distribución del receptor B2 de cininas en la médula y tejido medular espinal de ratones tratados con capsaicina

Kinins are vasoactive peptides that promote pain and inflammation, yet centrally believed to participate to cardiovascular defensive reflexes produced by noxious stimuli. These peptides signal through the activation of two transmembrane G-protein-coupled receptors named B1 and B2 receptors (B1R and B2R). The B2R is constitutive in healthy tissues and animals. The aim of the study was to measure the gene and protein expression of B2R kinin receptors in central and peripheral tissues isolated from control rats and rats were pre-treated with capsaicin on the second day of life (50 mg/kg, s.c.) or two weeks prior to sacrifice (125 mg/kg over three days, s.c.). The same treatment with saline was made in control animals. Levels of mRNA for B2R were measured by quantitative RT-PCR and Qualitative while receptor binding sites were measured on tissue sections with the radioligands 125I-HPP-Hoe 140 (B2R). B2R was expressed in all studied tissues (hypothalamus, paratrigeminal nucleus, nucleus of solitary tract, spinal cord, aorta and liver) and treatment capsaicin neonates when compared to controls, did not affect its level of expression. Capsaicin had no significant effect on the expression of B2R in some tissues on binding sites. The synthesis of B2R kinin receptor is not associated with sensory C-fibre and tissues showed no significant difference indicating that B2R was regulated by distinct mechanisms.

Las cininas son péptidos vaso activos que participan de mecanismos de dolor e inflamación, con la promoción de reflejos cardiovasculares defensivos producidos por estímulos nocivos. Estos péptidos señalizan por medio de la activación de dos receptores transmembrana acoplados a proteína G llamados receptores B1 y B2 (B1R y B2R). El B2R es constitutivo en tejidos saludables y en animales. El objetivo de este estudio consistió en tomar las medidas de la expresión del gen y la proteína del receptor B2R de cinina en tejidos centrales y periféricos aislados de ratones control y ratones pre tratados con capsaicina en el segundo día de vida (50 mg/kg, s.c.) o con dos semanas antes del sacrificio (125 mg/kg por tres días, s.c.). El mismo tratamiento fue hecho con solución salina en los animales control. Fueron medidos niveles de mRNA para B2R por RT-PCR en forma cuantitativa y cualitativa, en cuanto los sitios de unión del receptor fueron medidos en secciones de tejido con radioligante 125I-HPP-Hoe 140 (B2R). B2R fue expresado en todos los tejidos estudiados (hipotálamo, núcleo paratrigeminal, núcleo del tracto solitario, médula espinal, aorta e hígado). El tratamiento con capsaicina en ratones neonatos comparados con controles no presentaron afectación del nivel de expresión. Por otro lado, la capsaicina no tuvo efecto significante en la expresión de los sitios de unión de B2R en los tejidos. La síntesis del receptor B2R de cininas no está asociado con fibras C sensoriales así como los tejidos no mostraron diferencias significativas indicando que B2R es regulado por mecanismos distintos.

Captopril augments acetylcholine-induced bronchial smooth muscle contractions in vitro via kinin-dependent mechanisms.

Angiotensin converting enzyme (ACE) inhibitors therapy is aassociated with bothersome dry cough as an adverse effect. The mechanisms underlying this adverse effect are not clear. Therefore, influence of captopril (an ACE inhibitor) on acetylcholine (ACh)-induced bronchial smooth muscle contractions was investigated. Further, the mechanisms underlying the captopril-induced changes were also explored. In vitro contractions of rat bronchial smooth muscle to cumulative concentrations of ACh were recorded before and after exposure to captopril. Further, the involvement of kinin and inositol triphosphate (IP3) pathways for captopril-induced alterations were explored. ACh produced concentration-dependent (5-500 μM) increase in bronchial smooth muscle contractions. Pre-treatment with captopril augmented the ACh-induced contractions at each concentration significantly. Pre-treatment with aprotinin (kinin synthesis inhibitor) or heparin (inositol triphosphate, IP3-inhibitor), blocked the captopril-induced augmentation of bronchial smooth muscle contractions evoked by ACh. Further, captopril-induced augmentation was absent in calcium-free medium. These results suggest that captopril sensitizes bronchial smooth muscles to ACh-induced contractions. This sensitization may be responsible for dry cough associated with captopril therapy.

Human Tissue Kallikrein Activity in Angiographically Documented Chronic Stable Coronary Artery Disease / Atividade da Calicreína Tecidual Humana na Doença Coronariana Crônica Estável Angiograficamente Documentada

AbstractBackground:Human tissue kallikrein (hK1) is a key enzyme in the kallikrein–kinin system (KKS). hK1-specific amidase activity is reduced in urine samples from hypertensive and heart failure (HF) patients. The pathophysiologic role of hK1 in coronary artery disease (CAD) remains unclear.Objective:To evaluate hK1-specific amidase activity in the urine of CAD patientsMethods:Sixty-five individuals (18–75 years) who underwent cardiac catheterism (CATH) were included. Random midstream urine samples were collected immediately before CATH. Patients were classified in two groups according to the presence of coronary lesions: CAD (43 patients) and non-CAD (22 patients). hK1 amidase activity was estimated using the chromogenic substrate D-Val-Leu-Arg-Nan. Creatinine was determined using Jaffé’s method. Urinary hK1-specific amidase activity was expressed as µM/(min · mg creatinine) to correct for differences in urine flow rates.Results:Urinary hK1-specific amidase activity levels were similar between CAD [0.146 µM/(min ·mg creatinine)] and non-CAD [0.189 µM/(min . mg creatinine)] patients (p = 0.803) and remained similar to values previously reported for hypertensive patients [0.210 µM/(min . mg creatinine)] and HF patients [0.104 µM/(min . mg creatinine)]. CAD severity and hypertension were not observed to significantly affect urinary hK1-specific amidase activity.Conclusion:CAD patients had low levels of urinary hK1-specific amidase activity, suggesting that renal KKS activity may be reduced in patients with this disease.

ResumoFundamento:A calicreína tecidual humana (hK1) é enzima-chave do sistema calicreína-cinina (SCC). A atividade amidásica da hK1 está reduzida na urina de pacientes com hipertensão e insuficiência cardíaca (IC); seu papel na doença arterial (DAC) coronariana ainda não está esclarecido.Objetivo:Avaliar a atividade amidásica da hK1 na urina de pacientes com DAC.Métodos:Sessenta e cinco indivíduos (18 a 75 anos) que se submeteram ao cateterismo cardíaco (CAT) coletaram amostra do jato médio de urina imediatamente antes do CAT. Baseando-se na presença de lesões coronarianas, os pacientes eram classificados em dois grupos: DAC (43 pacientes) e sem DAC (22 indivíduos). A atividade amidásica da hK1 foi estimada com o substrato cromogênico D-Val-Leu-Arg-Nan. Creatinina foi determinada pelo método de Jaffé. A atividade amidásica específica da hK1 urinária foi expressa em µM/(min . mg de creatinina) para corrigir diferenças no fluxo urinário.Resultados:A atividade amidásica da hK1 urinária foi semelhante entre os pacientes com DAC [0,146 µM/(min . mg de creatinina)] e aqueles sem DAC [0,189 µM/(min . mg de creatinina)] (p = 0,803), e permaneceu entre os baixos valores previamente publicados para pacientes com hipertensão primária [0,210 µM/(min . mg de creatinina)] e para aqueles com IC [0,104 µM/(min . mg de creatinina)], respectivamente. Nenhum efeito estatisticamente significativo da gravidade da DAC e da hipertensão sobre a atividade amidásica da hK1 urinária foi observado.Conclusão:A atividade amidásica da hK1 na urina estava reduzida nos pacientes com DAC, o que pode sugerir que a atividade do SCC renal esteja reduzida nessa doença.

Sexual hormones modulate compensatory renal growth and function / Las hormonas sexuales modulan el crecimiento renal compensador (CRC) y la función renal en la uninefrectomía (uNx)

The role played by sexual hormones and vasoactive substances in the compensatory renal growth (CRG) that follows uninephrectomy (uNx) is still controversial. Intact and gonadectomized adult Wistar rats of both sexes, with and without uNx, performed at 90 days age, were studied at age 150 days. Daily urine volume, electrolyte excretion and kallikrein activity (UKa) were determined. Afterwards, glomerular filtration rate and blood pressure were measured, the kidneys weighed and DNA, protein and RNA studied to determine nuclei content and cell size. When the remnant kidney weight at age 150 days was compared with the weight of the kidney removed at the time of uNx, male uNx rats showed the greatest CRG (50%) while growth in the other uNx groups was 25%, 15% and 19% in orchidectomized, female and ovariectomized rats, respectively. The small CRG observed in the uNx female rats was accompanied by the lowest glomerular filtration value, 0.56 ± 0.02 ml/min/g kwt compared, with the other uNx groups, p < 0.05. Cell size (protein or RNA/DNA) was similar for all the groups except for uNx orchidectomized rats. In this group the cytoplasmatic protein or RNA content was lower than in the other groups while DNA (nuclei content) was similar. Some degree of hyperplasia was determined by DNA content in the uNx groups. Male sexual hormones positively influenced CRG and its absence modulated cell size. Female sexual hormones, instead, did not appear to stimulate CRG. The kallikrein kinin system may not be involved in CRG.

La importancia que pueden tener las hormonas sexuales y sustancias vasoactivas sobre el crecimiento renal compensador (CRC) que sigue a la uninefrectomía es aún materia de debate. Se estudiaron ratas Wistar de ambos sexos, a los 150 días de vida, intactas y gonadectomizadas con y sin uNx, realizada a los 90 días de vida. Se midió volumen urinario diario y excreción de electrolitos y actividad de kalikreína urinaria. Se midió filtrado glomerular y presión arterial media extrayéndose luego los riñones que fueron pesados y preparados para estudios histológicos y determinación de ADN, ARN y proteínas para estimar contenido nuclear y tamaño celular. El CRC fue calculado comparando el peso del riñón al momento de las uNx (90 dias de vida) con aquel obtenido a los 150 días de vida. En las ratas macho uNx se observó el mayor CRC (50%) mientras que, en los otros grupos uNx solo alcanzó un 25%, 15% y 19%. El filtrado glomerular acompañó los cambios morfológicos observándose el menor filtrado en las ratas hembras uNx respecto al resto de los grupos 0.56 ± 0.02, p < 0.05. El tamaño celular (proteína o ARN/ ADN) fue similar para todos los grupos excepto para los orquidectomizados uNx, cuyo contenido citoplasmático fue menor. El contenido nuclear (ADN) fue semejante en todos los grupos. Se observó que el CRC está influenciado positivamente por las hormonas sexuales masculinas y su ausencia modula el tamaño celular. La falta de hormonas sexuales femeninas, en cambio, afecta negativamente el CRC. El sistema kalikreína kinina no parecería estar involucrado en el CRC.

The effects of magnesium valproate on expression of the kinin B1 and B2 receptors in the hippocampus of the juvenile rats submitted to pilocarpine model of epilepsy / 中华行为医学与脑科学杂志

ObjectiveTo investigate the mechanisms and the effects of magnesium Valproate on the expressions of the kinin B1 and B2 receptors in the hippocampus of the juvenile rats submitted to pilocarpine model of epilepsy.Methods 35 healthy Wistar juvenile rats were randomly divided into six groups,that is the model groups:Ⅰ group,Ⅱ group,Ⅲ group,and intraperitoneal injection of saline water control groups:Ⅰ a group,Ⅱ a group,Ⅲ a group,after succession of 15 rats to kindle to establish the model of epilepsy by pilocarpine.To collect hippocampus tissue after the rats were to put to death,and to compared the expression levels of kinin B1 and B2 receptor mRNA by RT-PCR and western blot in the hippocampus of rats.ResultsBy treated with magnesium valproate,kinin B1 receptor mRNA (0.38 ± 0.051 ) and protein expressions(0.58 ± 0.057 ) decreased and kinin B2 receptor mRNA (0.48 ±0.056 ) and protein expressions(0.48 ± 0.044 ) increased in Ⅰ group,compared with that (0.76 ±0.068,0.89 ± 0.034;0.28 ± 0.034,0.32 ± 0.039 ) of Ⅰ a group(P ＜ 0.05 ).Compared with control group,there were more significant upregulation of kinin B1 receptor mRNA and protein expressions (P＜0.05) in the Ⅰ and the Ⅱ groups and there were no alteration in Ⅲ group.The expressional levels of B2 receptor mRNA and protein were upregulated in the Ⅰ,Ⅱ and Ⅲ groups.ConclusionThe kinin B1 and B2 receptor may play a role in the onset and maintenance of epilepsy.The magnesium valproate increased the expressional levels of kinin B2 receptor,and decreased the expressional levels of kinin B1 receptor.

Roles of kallikrein-kinin system in vascular smooth muscle cell proliferation and migration / 国际脑血管病杂志

Vascular smooth muscle cell (VSMC) proliferation and migation play important roles in the occurrence and development of atherosclerosis and restenosis after intravascular stenting.The studies in recent years have shown that kallikrein-kinin system (KKS) is closely correlated with VSMC proliferation and migration in cytokines and transduction pathways.Therefore,investigating the roles of KKS in the VSMC proliferation and migation process has great significance in clinical prevention and treatment of atherosclerosis and restenosis after intravascular stenting.

Association between the kinin-forming system and cardiovascular pathophysiology

All the components of the kallikrein-kinin system are located in the cardiac muscle, and its deficiency may lead to cardiac dysfunction. In recent years, numerous observations obtained from clinical and experimental models of diabetes, hypertension, cardiac failure, ischaemia, myocardial infarction and left ventricular hypertrophy, have suggested that the reduced activity of the local kallikrein-kinin system may be instrumental for the induction of cardiovascular -related diseases. The cardioprotective property of the angiotensin converting enzyme inhibitors is primarily mediated via kinin releasing pathway, which may cause regression of the left ventricular hypertrophy in hypertensive situations. The ability of kallikrein gene delivery to produce a wide spectrum of beneficial effects makes it an excellent candidate in treating hypertension, cardiovascular and renal diseases. In addition, stable kinin agonists may also be available in the future as therapeutic agents for cardiovascular and renal disorders.

Rol del sistema kallicreína kinina y su interrelación con sistemas vasoactivos durante la preñez / Role of the kallikrein kinin system and its interrelationship with vasoactive systems in pregnancy

La hiperfiltración glomerular y el aumento de la reabsorción de sodio son factores fundamentales para el desarrollo de la unidad feto placentaria. Dichos factores resultan de adaptaciones hemodinámicas y renales en las que participan sistemas vasoactivos. Se pudo demostrar en ratas que la activación del sistema kallicreína kinina (SKK) precede a la instalación de la hiperfiltración glomerular, dado que su inhibición por aprotinina previene el aumento del filtrado glomerular. Además, la inhibición individual o asociada de los efectores específicos del SKK, las prostaglandinas (PGs) y el óxido nítrico (ON), confirman la dependencia del filtrado glomerular del SKK durante la preñez. Encontramos también que el sistema renina angiotensina (SRA) participa en la generación de la hiperfiltración glomerular dado que ésta es afectada por la administración de bloqueantes del SRA. La inhibición máxima sobre el pico de hiperfiltración se obtuvo con el bloqueo de ambos sistemas (SKK y SRA). Además, estrategias para alterar la hiperfiltración glomerular y la reabsorción de sodio de la preñez evidenciaron alteraciones en el desarrollo de la unidad feto placentaria, menor número de crías, mayor cantidad de reabsorciones intrauterinas y retardo en el crecimiento. El tratamiento combinado de inhibidores del SKK asociados a bloqueantes del SRA o de óxido nítrico mostraron los mayores efectos. En consecuencia, demostramos que el SKK juega un rol central en los fenómenos de adaptación que acompañan la preñez normal. La interrelación del SKK con varios sistemas vasoactivos parecería formar una red que participa en las adaptaciones hemodinámicas para un adecuado desarrollo de la gestación y de la unidad feto-placentaria.

Glomerular hyperfiltration and increased sodium reabsorption are key factors for the development of the fetus and placenta in pregnancy. These adjustments result from hemodynamic and renal factors involving vasoactive systems. It was demonstrated in rats that activation of KKS precedes the installation of glomerular hyperfiltration as aprotinin prevents the increase in glomerular filtration. In addition, individual or associated inhibition of specific kallikrein kinin system effectors, prostaglandins (PGs) and nitric oxide (NO), confirm the glomerular filtration rate dependence of KKS during pregnancy. It was also found that the renin-angiotensin system (RAS) contributes to glomerular hyperfiltration as this is affected by the administration of RAS blockers. The peak of hyperfiltration maximum inhibition was obtained by the blockade of both systems (KKS and RAS). In addition, strategies used to alter the glomerular hyperfiltration and increased sodium reabsorption during pregnancy, showed abnormalities in the development of the fetus and placenta, fewer offspring, more fetus resorptions and intrauterine growth retardation. KKS inhibitors associated with RAS or nitric oxide blockers showed the greatest impact. As a consequence, it was demonstrated that KKS plays a central role in the adaptation phenomenom that accompanies normal pregnancy. The interplay of KKS with several vasoactive systems, seem to arrange a network involved in the hemodynamic adaptations to allow the proper development of pregnancy and the fetus and placenta.

Experimental study of kallikrein-kinin system participating in proliferative vitreoretinopathy procedure / 中华实验眼科杂志

Background Our previous study demonstrated that kallikrein-kinin is a special protein in vitreous of the eye with proliferative vitreoretinopathy(PVR),and the expression intensity of kallikrein-kinin showed the positive correlation with the grade of PVR.Objective This study was to further explore whether kallikrein-kinin participate in the formation of PVR.Methods Rat retinal pigment epithelial cell line(RPE-J cells) was cultured in DMEM containing 4% fetal bovine serum and then prepared into suspension by PBS with the cells density of 2.5×108 cells/ml.Platelet-rich plasma was prepared by PBS with the platelet 2.5×108 /ml.RPE cell suspension(4μl) and platelet-rich plasma(6μl) was intravitreally injected in the left eyes of 30 clean Wistar rats to establish the PVR models,and 10μl sterile pyrogen-free normal saline solution was used in the same way in other matched rats as controls.The PVR was graded on Francine's criteria in 1 day,3,7,14,21,28 days after injection under the slit lamp.The serum,vitreous and retina were obtained in 28 days after injection to assess the expression of bradykinin using Western blot.The histopathology examination of rat retina was performed in the 28th day after injection.This experimental procedure followed the Regulations for the Administration of Affair Concerning Experimental Animals by State Science and Technology Commission.Results Typical PVR was seen in 25 models with the successful rate 89.3% at 28 days after injection.PVR 1,2,3 grades were respectively exhibited in 7,14,28 days under the slit lamp.Infiltration of inflammatory cells and migration of RPE cells were found in the 7th day.In the 14th day after injection,RPE cells transformed into fibroblasts and retinal detachment occurred after that.Western blot analysis revealed that bradykinin was detected in vitreous,serum and retinal samples of rats in experimental and control rats,but the expression intensity was higher in the rats of model groups.Conclusion Intravitreal co-injection of RPE cells and platelet-rich plasma can effectively induce a model of PVR in Wistar rat.The kallikrein-kinin system probably takes part in the onset of PVR.

Kallikrein-kinin system and angiogenesis after cerebral ischemia / 国际脑血管病杂志

In recent years, the studies of the treatment of cerebral infarction have turned to the areas of neuroprotective agents. The promotion of angiogenesis after stroke will become one of the novel approaches after cerebral infarction. Studies have shown that the activation of the kallikrein-kinin system (KKS) after cerebral infarction may promote angiogenesis after cerebral infarction, improve the neurological deficits, and reduce the mortality and disability. This article reviews the regulatory mechanisms of KKS in the angiogenesis after cerebral infarction.

Cardioprotective effect of ornitho-kinin in an anesthetized, open-chest chicken model of acute coronary occlusion

The generation of bradykinin (BK; Arg-Pro-Pro-Gly-Phe-Ser-Pro-Phe-Arg) in blood and kallidin (Lys-BK) in tissues by the action of the kallikrein-kinin system has received little attention in non-mammalian vertebrates. In mammals, kallidin can be generated by the coronary endothelium and myocytes in response to ischemia, mediating cardioprotective events. The plasma of birds lacks two key components of the kallikrein-kinin system: the low molecular weight kininogen and a prekallikrein activator analogous to mammalian factor XII, but treatment with bovine plasma kallikrein generates ornitho-kinin [Thr6,Leu8]-BK. The possible cardioprotective effect of ornitho-kinin infusion was investigated in an anesthetized, open-chest chicken model of acute coronary occlusion. A branch of the left main coronary artery was reversibly ligated to produce ischemia followed by reperfusion, after which the degree of myocardial necrosis (infarct size as a percent of area at risk) was assessed by tetrazolium staining. The iv injection of a low dose of ornitho-kinin (4 µg/kg) reduced mean arterial pressure from 88 ± 12 to 42 ± 7 mmHg and increased heart rate from 335 ± 38 to 402 ± 45 bpm (N = 5). The size of the infarct was reduced by pretreatment with ornitho-kinin (500 µg/kg infused over a period of 5 min) from 35 ± 3 to 10 ± 2 percent of the area at risk. These results suggest that the physiological role of the kallikrein-kinin system is preserved in this animal model in spite of the absence of two key components, i.e., low molecular weight kininogen and factor XII.

Opinion: Pathophysiological approach to the management of scorpion envenomation.

Indian red scorpion (Mesobuthus tamulus; MBT) produces lethal stings and is a matter of concern in certain parts of India. MBT envenomation produces multi-systemic involvement, thus presents difficulty in the management. Symptomatic treatment has been practiced earlier that failed to relieve the toxic effects of the venom. Therefore, present manuscript deals with pathophysiologically based approach in the management of toxicity considering the merits and the demerits of treatment protocols so as to evolve a consensus in the treatment strategies of scorpion envenomation.

El sistema formador de quinina y su relación con los trastornos cardiovasculares / The kinin-forming system and cardiovascular disorders

Cardiovascular diseases are the most common cause of death worldwide. In Kuwait, death related to cardio vascular diseases may account for about 40%. Thus, it will be the greatest health care burden of the twenty-first century. Hypertension and diabetes are the two major risk factors in the development of cardiac hypertrophy, ischemic heart disease, cardiac failure, cardiac arrhythmias and myocardial infarction. The kallikrein-kinin components (plasma and urinary kininogens, kallikreins, kininases and kinins) are able to regulate BP and blood glucose levels via promoting; vasodilator, natriuretic effects and glucose metabolism. These components are located in the cardiac tissue, kidney and vascular smooth muscle. The kinin system is found to be abnormally depressed in various experimental animal models of hypertension and diabetes which might be responsible for inducing cardiac complications. It has been pointed out that the development of a compound having renal kallikrein-like activity may serve the purpose of excreting excessive sodium from the kidney in the treatment of hypertension. Also it has been demonstrated that transgenic mice over-expressing renal tissue kallikrein were hypotensive and that administration of aprotinin, a tissue kallikrein inhibitor, restored the BP of the transgenic mice. These findings highlight a role of tissue kallikrein in the regulation of BP. It has been proposed that tissue kallikrein gene delivery into various hypertensive models exhibits protection, such as reduction in high BP, attenuation of cardiac hypertrophy, inhibition of renal damage and stenosis. This may indicate the prospect of this kallikrein gene therapy for cardiovascular pathology. Several reports indicate that urinary kallikrein excretion is decreased in essential hypertension in humans and in models of experimental hypertension. Thus, reduced urinary kallikrein may reflect a deficiency in the endogenous kallikrein/kinin vasodilatory system that contributes to the pathogenesis of hypertension. Previous studies conducted in white and black population in the USA demonstrated that urinary kallikrein excretion is diminished in family members at risk for hereditary (essential) hypertension and that urinary kallikrein is one of the major genetic markers associated with family history of hypertension. Also evidence for genetic linkage between the kallikrein locus and blood pressure has been reported in the rat. Previous studies have suggested that diminished urinary kallikrein excretion is associated with salt sensitivity of blood pressure. Kallikrein excretion is also diminished in African-Americans and deficiency of the kallikreinkinin renal vasodilatory system may explain many of the unique features of essential hypertension and heart diseases in some black subjects.

Las enfermedades cardiovasculares son la causa más frecuente de muerte en todo el mundo. En Kuwait, la muerte relacionada a enfermedades cardiovasculares puede llegar al 40%. De este modo, será la mayor carga para el sistema de salud del siglo XXI. La hipertensión y la diabetes son los dos factores de riesgo mayores en la producción de hipertrofia cardíaca, cardiopatía isquémica, insuficiencia cardíaca, arritmias cardíacas e infarto de miocardio. Los componentes del sistema calicreína-quinina (quininógenos plasmáticos y urinarios, calicreínas, quininasas y quininas) regulan la PA y los niveles de glucosa sanguínea mediante estimulación de la vasodilatación, efectos natriuréticos y metabolismo de la glucosa. Esos componentes se localizan en el tejido cardíaco, riñón y células musculares lisas. El sistema quinina se encuentra deprimido anormalmente en varios modelos animales experimentales de hipertensión y diabetes que podrían ser responsables de la aparición de complicaciones cardíacas. Se ha señalado que el hallar un compuesto con actividad renal similar a la calicreína puede ser útil al propósito de excretar el exceso de sodio por el riñón en el tratamiento de la hipertensión. También se demostró que los ratones transgénicos que sobreexpresan calicreína por el tejido renal eran hipotensos y que la administración de aprotinina, un inhibidor de la calicreína tisular, restaura la PA de los ratones transgénicos. Esos hallazgos realzaron el papel de la calicreína tisular en la regulación de la PA. Se ha propuesto que el gen de la calicreína tisular entregado en varios modelos de hipertensión ejerce protección, como reducción de la PA aumentada, atenuación de la hipertrofia cardíaca, inhibición de la estenosis y del daño renal. Esto puede indicar la posibilidad de este tratamiento con gen de calicreína para trastronos cardiovasculares. Varios informes indican que la excreción urinaria de calicreína está disminuida en la hipertensión esencial en humanos y en modelos de hipertensión experimental. De este modo, la reducción de la calicreína urinaria puede reflejar una deficiencia en el sistema vasodilatador endógeno calicreína/quinina que contribuye a la patogénesis de la hipertensión. Algunos estudios previos realizados en la población blanca y negra en los EE.UU. demostraron que la excreción urinaria de calicreína está disminuida en miembros familiares con riesgo de hipertensión hereditaria (esencial) y que la calicreína urinaria es uno de los mayores marcadores genéticos asociado con historia familiar de hipertensión. También se informó la existencia de unión genética entre el locus de la calicreína y la presión sanguínea, en ratas. Algunos estudios sugirieron que la excreción urinaria disminuida de calicreína se asocia con sensibilidad de la presión sanguínea a la sal. La excreción de calicreína también está disminuida en afroamericanos y la deficiencia del sistema renal vasodilatador de calicreína-quinina puede explicar muchas de las características singulares de la hipertensión y de las enfermedades cardíacas en algunos sujetos de raza negra.

Blood Pressure Regulation by Vasoactive Peptide Genes: Transgenic And Knockout Animal Models

Hypertension is a polygenic and multifactorial disease and is intimately related to salt homeostasis. Four important vasoactive peptide systems participate in regulating blood pressure and salt homeostasis. Their interplay is indispensible in many physiologic and pathologic conditions. While the renin-angiotensin and the endothelin systems raise blood pressure by inducing vasoconstriction and sodium retention (or excretion), the kallikrein-kinin and the natriuretic peptide systems reduce blood pressure by eliciting vasodilatation and natriuresis. Gene targeting as well as transgenesis have provided us a lot of information on the biological functions of the genes of these systems. Animal models from these technologies are discussed in relation to blood pressure regulation.