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1.
Exp Physiol ; 109(10): 1710-1727, 2024 Oct.
Article in English | MEDLINE | ID: mdl-39207362

ABSTRACT

High-intensity interval training (HIIT) has shown significant results in addressing adiposity and risk factors associated with obesity. However, there are no studies that investigate the effects of HIIT on contractility and intracellular Ca2+ handling. The purpose of this study was to explore the impact of HIIT on cardiomyocyte contractile function and intracellular Ca2+ handling in rats in which obesity was induced by a saturated high-fat diet (HFD). Male Wistar rats were initially randomized into a standard diet and a HFD group. The experimental protocol spanned 23 weeks, comprising the induction and maintenance of obesity (15 weeks) followed by HIIT treatment (8 weeks). Performance was assessed using the maximum oxygen consumption test ( V ̇ O 2 max ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{\mathrm{max}}}}$ ). Evaluation encompassed cardiac, adipose and skeletal muscle histology, as well as contractility and intracellular Ca2+ handling. HIIT resulted in a reduction in visceral area, an increase in V ̇ O 2 max ${{\dot{V}}_{{{{\mathrm{O}}}_{\mathrm{2}}}{\mathrm{max}}}}$ , and an augmentation of gastrocnemius fibre diameter in obese subjects. Additionally, HIIT led to a decrease in collagen fraction, an increase in percentage shortening, and a reduction in systolic Ca2+/percentage shortening and systolic Ca2+/maximum shortening rates. HIIT induces physiological cardiac remodelling, enhancing the contractile function of cardiomyocytes and improving myofilament sensitivity to Ca2+ in the context of obesity. This approach not only enhances cardiorespiratory and physical performance but also reduces visceral area and prevents interstitial fibrosis.


Subject(s)
Calcium , High-Intensity Interval Training , Myocardial Contraction , Myocytes, Cardiac , Myofibrils , Obesity , Physical Conditioning, Animal , Rats, Wistar , Animals , Male , Obesity/physiopathology , Obesity/metabolism , Obesity/therapy , Myocytes, Cardiac/metabolism , Myocytes, Cardiac/physiology , Calcium/metabolism , Physical Conditioning, Animal/physiology , Rats , High-Intensity Interval Training/methods , Myocardial Contraction/physiology , Myofibrils/metabolism , Diet, High-Fat , Muscle, Skeletal/metabolism , Muscle, Skeletal/physiology , Oxygen Consumption/physiology
2.
Curr Med Res Opin ; 40(sup1): 43-54, 2024.
Article in English | MEDLINE | ID: mdl-38597068

ABSTRACT

Heart failure (HF) is associated with disabling symptoms, poor quality of life, and a poor prognosis with substantial excess mortality in the years following diagnosis. Overactivation of the sympathetic nervous system is a key feature of the pathophysiology of HF and is an important driver of the process of adverse remodelling of the left ventricular wall that contributes to cardiac failure. Drugs which suppress the activity of the renin-angiotensin-aldosterone system, including ß-blockers, are foundation therapies for the management of heart failure with reduced ejection fraction (HFrEF) and despite a lack of specific outcomes trials, are also widely used by cardiologist in patients with HF with preserved ejection fraction (HFpEF). Today, expert opinion has moved away from recommending that treatment for HF should be guided solely by the LVEF and interventions should rather address signs and symptoms of HF (e.g. oedema and tachycardia), the severity of HF, and concomitant conditions. ß-blockers improve HF symptoms and functional status in HF and these agents have demonstrated improved survival, as well as a reduced risk of other important clinical outcomes such as hospitalisation for heart failure, in randomised, placebo-controlled outcomes trials. In HFpEF, ß-blockers are anti-ischemic and lower blood pressure and heart rate. Moreover, ß-blockers also reduce mortality in the setting of HF occurring alongside common comorbid conditions, such as diabetes, CKD (of any severity), and COPD. Higher doses of ß-blockers are associated with better clinical outcomes in populations with HF, so that ensuring adequate titration of therapy to their maximal (or maximally tolerated) doses is important for ensuring optimal outcomes for people with HF. In principle, a patient with HF could have combined treatment with a ß-blocker, renin-angiotensin-aldosterone system inhibitor/neprilysin inhibitor, mineralocorticoid receptor antagonist, and a SGLT2 inhibitor, according to tolerability.


Subject(s)
Heart Failure , Humans , Quality of Life , Stroke Volume , Adrenergic beta-Antagonists/therapeutic use , Adrenergic beta-Antagonists/pharmacology , Renin-Angiotensin System , Antihypertensive Agents/therapeutic use , Angiotensin Receptor Antagonists/therapeutic use
3.
Peptides ; 171: 171094, 2024 Jan.
Article in English | MEDLINE | ID: mdl-37696437

ABSTRACT

OBJECTIVE: Pressure overload can result in significant changes to the structure of blood vessels, a process known as vascular remodeling. High levels of tension can cause vascular inflammation, fibrosis, and structural alterations to the vascular wall. Prior research from our team has demonstrated that the oral administration of alamandine can promote vasculoprotective effects in mice aorta that have undergone transverse aortic constriction (TAC). Furthermore, changes in local hemodynamics can affect the right and left carotid arteries differently after TAC. Thus, in this study, we aimed to assess the effects of alamandine treatment on right carotid remodeling and the expression of oxidative stress-related substances induced by TAC. METHODS AND RESULTS: Male C57BL/6 mice were categorized into three groups: Sham, TAC, and TAC treated with alamandine (TAC+ALA). Alamandine treatment was administered orally by gavage (30 µg/kg/day), starting three days before the surgery, and continuing for a period of fourteen days. Morphometric analysis of hematoxylin and eosin-stained sections revealed that TAC induced hypertrophic and positive remodeling in the right carotid artery. Picrosirius Red staining also demonstrated an increase in total collagen deposition in the right carotid artery due to TAC-induced vascular changes. Alamandine treatment effectively prevented the increase in reactive oxygen species production and depletion of nitric oxide levels, which were induced by TAC. Finally, alamandine treatment was also shown to prevent the increased expression of nuclear factor erythroid 2-related factor 2 and 3-nitrotyrosine that were induced by TAC. CONCLUSION: Our results suggest that alamandine can effectively attenuate pathophysiological stress in the right carotid artery of animals subjected to TAC.


Subject(s)
Carotid Arteries , Oxidative Stress , Male , Mice , Animals , Constriction , Mice, Inbred C57BL , Carotid Arteries/surgery , Ventricular Remodeling , Disease Models, Animal
4.
Int J Exp Pathol ; 104(4): 177-187, 2023 Aug.
Article in English | MEDLINE | ID: mdl-36918483

ABSTRACT

Epidemiological and toxicological studies have shown that inhalation of particulate matter (PM) is associated with development of cardiovascular diseases. Long-term exposure to PM may increase the risk of cardiovascular events and reduce life expectancy. Systemic lupus erythematosus (SLE) is a chronic inflammatory disease, autoimmune in nature, that is characterized by the production of autoantibodies that affects several organs, including the heart. Air pollution - which can be caused by several different factors - may be one of the most important points both at the onset and the natural history of SLE. Therefore this study aims to investigate whether exposure to air pollution promotes increased inflammation and cardiac remodelling in animals predisposed to SLE. Female NZBWF1 mice were exposed to an environmental particle concentrator. Aspects related to cardiac remodelling, inflammation and apoptosis were analysed in the myocardium. Body weight gain, cardiac trophism by heart/body weight ratio, relative area of cardiomyocytes and the fibrotic area of cardiac tissue were evaluated during the exposure period. Animals exposed to PM2.5 showed increased area of cardiomyocytes, and area of fibrosis; in addition, we observed an increase in IL-1 and C3 in the cardiac tissue, demonstrating increased inflammation. We suggest that air pollution is capable of promoting cardiac remodelling and increased inflammation in animals predisposed to SLE.


Subject(s)
Lupus Erythematosus, Systemic , Particulate Matter , Female , Mice , Animals , Particulate Matter/toxicity , Particulate Matter/analysis , Ventricular Remodeling , Inflammation , Lupus Erythematosus, Systemic/chemically induced , Body Weight
5.
Acta bioquím. clín. latinoam ; Acta bioquím. clín. latinoam;57(1): 25-33, mar. 2023. tab, graf
Article in Spanish | LILACS-Express | LILACS | ID: biblio-1513534

ABSTRACT

Resumen El remodelamiento óseo es ejercido por la actividad de osteoblastos y osteoclastos y puede evaluarse por marcadores bioquímicos de formación y resorción ósea. Sin embargo, el nivel de los marcadores óseos está sometido a una enorme cantidad de variables y, además, carece o presenta escaso valor pronóstico. Los microARN (miARN) fueron recientemente estudiados como una alternativa potencial para ser utilizados como nuevos marcadores óseos. Los miARN son pequeñas moléculas de ARN no codificantes (15-25 nucleótidos) que, a través de la inhibición o degradación de ARN mensajeros, modifican una serie de funciones biológicas. Los miARN específicos de hueso ejercen funciones reguladoras sobre factores transcripcionales involucrados en la osteoblastogénesis y osteoclastogénesis, modificando el remodelamiento óseo. La mayoría de los miARN permanecen dentro de la célula, pero algunos son liberados a la circulación donde pueden ser dosados. Los miARN circulantes presentan gran estabilidad en fluidos biológicos, lo que los hace potenciales candidatos a ser utilizados como nuevos biomarcadores óseos. Cambios en el patrón normal de miARN circulantes específicos de hueso reflejarán modificaciones en el metabolismo óseo y señalan el posible inicio o progresión de enfermedades óseas, como la osteoporosis. Si bien es promisorio, el uso en la práctica clínica de los miARN específicos circulantes como nuevos biomarcadores óseos, ello implica primeramente cumplir con una serie de requisitos que permitan estandarizar las condiciones preanalíticas, analíticas y posanalíticas de estas moléculas. La presente revisión brinda información reciente sobre los estudios clínicos tendientes a determinar el posible uso de los miARN circulantes como nuevos biomarcadores óseos, ya que cuentan con elevada sensibilidad y especificidad diagnósticas, valor predictivo positivo y valor predictivo negativo.


Abstract Osteoblasts and osteoclasts activity determines the level of the bone remodelling process which can be assessed by biochemical markers of bone formation and resorption. However, bone marker levels are subject to a series of variables resand, furthermore, they lack or have little prognostic values. MicroRNAs (miRNAs) were recently studied as a potential alternative to be used as new bone biomarkers. The miRNAs are endogenous small noncoding RNA molecules (15-25 nucleotides) that regulate many biological functions by inhibiting or degrading specific messenger RNAs. Bone-specific miRNAs exert regulatory functions on key transcriptional factors involved in osteoblastogenesis and osteoclastogenesis, modifying the bone remodelling process. Most miRNAs remain within the cell, but some of them are released into circulation. Circulating miRNAs show great stability in biological fluids, which makes them excellent candidates to be used as new bone biomarkers. Modifications in the normal pattern of bone-specific circulating miRNA might reflect changes in bone metabolism, signalling the possible onset or progression of bone diseases, such as osteoporosis. Although promising, the use of specific circulating miRNAs as new bone biomarkers in clinical practice implies fulfilling a series of requirements that lead to standardising the pre-analytical, analytical and post-analytical conditions of these molecules. The present review gives an overview on the clinical studies related to the possible use of specific circulating miRNAs as new bone biomarkers.


Resumo A remodelação óssea é exercida pela atividade dos osteoblastos e osteoclastos e pode ser avaliada para a medição dos marcadores bioquímicos de formação e reabsorção óssea. No entanto, o nível dos marcadores ósseos está sujeito a grande quantidade de variáveis e, além disso, carece ou tem pouco valor prognóstico. Os microARN (miARN) foram estudados recentemente como uma alternativa potencial para serem utilizados como novos marcadores ósseos. Os MicroRNAs (miRNAs) são pequenas moléculas de RNA não codificantes (15-25 nucleotídeos) que, através da inibição ou degradação de RNA mensageiros modificam uma série de funções biológicas. Os miRNAs específicos de osso exercem funções reguladoras sobre fatores transcricionais envolvidos na osteoblastogênese e na osteoclastogênese, modificando o processo de remodelação óssea. A maioria dos miRNAs permanece dentro da célula, mas de RNA mensageiros alguns são liberados na circulação, onde podem ser determinados bioquimicamente. Os miRNAs circulantes apresentam grande estabilidade em fluidos biológicos, o que os torna excelentes candidatos para serem usados como novos biomarcadores ósseos. Mudanças no padrão normal de miRNA circulantes específicos do osso mostrarão mudanças no metabolismo ósseo, sinalizando o possível início ou progressão de doenças ósseas, como osteoporose. Embora promissor, o uso de miRNAs específicas circulantes na prática clínica como novos biomarcadores ósseos, implica primeiramente, atender uma série de requisitos que permitem padronizar as condições pré-analíticas, analíticas e pós-analíticas dessas moléculas. A presente revisão fornece informações recentes sobre estudos clínicos destinados a determinar o possível uso dos miRNAs circulantes como novos biomarcadores ósseos, visto que contam com elevada sensibilidade e especificidade diagnósticas, valor preditivo positivo e valor preditivo negativo.

6.
Animals (Basel) ; 13(4)2023 Feb 15.
Article in English | MEDLINE | ID: mdl-36830471

ABSTRACT

Diabetes mellitus and pancreatitis are common pancreatic diseases in dogs, affecting the endocrine and exocrine portions of the organ. Dogs have a significant role in the history of research related to genetic diseases, being considered potential models for the study of human diseases. This review discusses the importance of using the extracellular matrix of the canine pancreas as a model for the study of diabetes mellitus and pancreatitis, in addition to focusing on the importance of using extracellular matrix in new regenerative techniques, such as decellularization and recellularization. Unlike humans, rabbits, mice, and pigs, there are no reports in the literature characterizing the healthy pancreatic extracellular matrix in dogs, in addition to the absence of studies related to matrix components that are involved in triggering diabetes melittus and pancreatitis. The extracellular matrix plays the role of physical support for the cells and allows the regulation of various cellular processes. In this context, it has already been demonstrated that physiologic and pathologic pancreatic changes lead to ECM remodeling, highlighting the importance of an in-depth study of the changes associated with pancreatic diseases.

7.
Exp Physiol ; 108(1): 146-157, 2023 01.
Article in English | MEDLINE | ID: mdl-36459573

ABSTRACT

NEW FINDINGS: What is the central question of this study? Peritoneal injury can result in a persistent fibroproliferative process in the abdominal cavity, causing pain and loss of function of internal organs. This study aimed to demonstrate the use of sodium butyrate (NaBu) as a potential agent to attenuate peritoneal fibrosis induced by a synthetic matrix. What is the main finding and its importance? Our findings provide the first evidence that NaBu attenuates the inflammatory, angiogenesis and fibrogenesis axes involved in the formation of peritoneal fibrovascular tissue, indicating the potential of this compound to ameliorate peritoneal fibrosis. ABSTRACT: The aim of this study was to identify the bio-efficacy of sodium butyrate (NaBu) on preventing the development of peritoneal fibrovascular tissue induced by implantation of a synthetic matrix in the abdominal cavity. Polyether-polyurethane sponge discs were implanted in the peritoneal cavity of mice, which were treated daily with oral administration of NaBu (100 mg/kg). Control animals received water (100 µl). After 7 days, the implants were removed for assessment of inflammatory, angiogenic and fibrogenic markers. Compared with control values, NaBu treatment decreased mast cell recruitment/activation, inflammatory enzyme activities, levels of pro-inflammatory cytokines, and the proteins p65 and p50 of the nuclear factor-κB pathway. Angiogenesis, as determined by haemoglobin content, vascular endothelial growth factor levels and the number of blood vessels in the implant, was reduced by the treatment. In NaBu-treated animals, the predominant collagen present in the abdominal fibrovascular tissue was thin collagen, whereas in control implants it was thick collagen. Transforming growth factor-ß1 levels were also lower in implants of treated animals. Sodium butyrate downregulated the inflammatory, angiogenesis and fibrogenesis axes of the fibroproliferative tissue induced by the intraperitoneal synthetic matrix. This compound has potential to control/regulate chronic inflammation and adverse healing processes in the abdominal cavity.


Subject(s)
Peritoneal Fibrosis , Mice , Animals , Butyric Acid/pharmacology , Vascular Endothelial Growth Factor A/metabolism , Neovascularization, Pathologic/drug therapy , Neovascularization, Pathologic/metabolism , Collagen/metabolism
8.
Aust Endod J ; 49 Suppl 1: 79-88, 2023 Sep.
Article in English | MEDLINE | ID: mdl-36226979

ABSTRACT

The aim was to characterise the endocannabinoid system (ECS) in the dental pulp of teeth at different stages of eruption. Pulp of: erupted premolars (EPM), third molars in pre-eruptive (PThM), intraosseous (IThM) and eruptive stages (EThM) (n = 12 each group) were used. Messenger RNA expression of components of the ECS as cannabinoid receptors (CBr1 and CBr2), and anandamide synthetizing (NAPE-PLD) and degradation (FAAH) enzymes were measured by RT-PCR. Data were analysed using Student's t-test for comparisons between two groups and one-way analysis of variance and Tukey's post-test for multiple comparisons (statistical significance: p < 0.05). mRNA expression of CBr2, NAPE-PLD and FAAH was similar in the studied stages, was lower in IThM than in PThM and EThM, and the lowest in EThM (p < 0.01); of note, CBr2 mRNA expression was not detected in EThM. CBr1 mRNA did not differ significantly between IThM and PThM but was lower in EThM (p < 0.01). The absence of CBr2 and presence of CBr1 in EThM suggest the involvement of the ECS via CBr1 as a mediator of tooth and bone tissue homeostasis during tooth eruption.


Subject(s)
Endocannabinoids , Tooth Abnormalities , Humans , Endocannabinoids/metabolism , Tooth Eruption , Bone and Bones/metabolism , Receptors, Cannabinoid , RNA, Messenger/metabolism
9.
Eur J Prev Cardiol ; 29(17): 2154-2162, 2022 12 07.
Article in English | MEDLINE | ID: mdl-35929776

ABSTRACT

AIMS: A unique Andean population lives in the highest city of the world (La Rinconada, 5100 m, Peru) and frequently develops a maladaptive syndrome, termed chronic mountain sickness (CMS). Both extreme altitude and CMS are a challenge for the cardiovascular system. This study aims to evaluate cardiac remodelling and pulmonary circulation at rest and during exercise in healthy and CMS highlanders. METHODS AND RESULTS: Highlanders living permanently at 3800 m (n = 23) and 5100 m (n = 55) with (n = 38) or without CMS (n = 17) were compared with 18 healthy lowlanders. Rest and exercise echocardiography were performed to describe cardiac remodelling, pulmonary artery pressure (PAP), and pulmonary vascular resistance (PVR). Total blood volume (BV) and haemoglobin mass were determined in all people. With the increase in the altitude of residency, the right heart dilated with an impairment in right ventricle systolic function, while the left heart exhibited a progressive concentric remodelling with Grade I diastolic dysfunction but without systolic dysfunction. Those modifications were greater in moderate-severe CMS patients. The mean PAP was higher both at rest and during exercise in healthy highlanders at 5100 m. The moderate-severe CMS subjects had a higher PVR at rest and a larger increase in PAP during exercise. The right heart remodelling was correlated with PAP, total BV, and SpO2. CONCLUSION: Healthy dwellers at 5100 m exhibit both right heart dilatation and left ventricle concentric remodelling with diastolic dysfunction. Those modifications are even more pronounced in moderate-severe CMS subjects and could represent the limit of the heart's adaptability before progression to heart failure.


Subject(s)
Ventricular Remodeling , Humans , Peru/epidemiology
10.
Front Cell Infect Microbiol ; 12: 816574, 2022.
Article in English | MEDLINE | ID: mdl-35433504

ABSTRACT

Plasmodium falciparum is the most lethal human malaria parasite, partly due to its genetic variability and ability to use multiple invasion routes via its binding to host cell surface receptors. The parasite extensively modifies infected red blood cell architecture to promote its survival which leads to increased cell membrane rigidity, adhesiveness and permeability. Merozoites are initially released from infected hepatocytes and efficiently enter red blood cells in a well-orchestrated process that involves specific interactions between parasite ligands and erythrocyte receptors; symptoms of the disease occur during the life-cycle's blood stage due to capillary blockage and massive erythrocyte lysis. Several studies have focused on elucidating molecular merozoite/erythrocyte interactions and host cell modifications; however, further in-depth analysis is required for understanding the parasite's biology and thus provide the fundamental tools for developing prophylactic or therapeutic alternatives to mitigate or eliminate Plasmodium falciparum-related malaria. This review focuses on the cellular and molecular events during Plasmodium falciparum merozoite invasion of red blood cells and the alterations that occur in an erythrocyte once it has become infected.


Subject(s)
Malaria, Falciparum , Malaria , Animals , Erythrocytes/parasitology , Humans , Malaria/metabolism , Malaria, Falciparum/metabolism , Merozoites , Plasmodium falciparum/genetics , Protozoan Proteins/genetics , Protozoan Proteins/metabolism
11.
Cells ; 11(5)2022 02 22.
Article in English | MEDLINE | ID: mdl-35269381

ABSTRACT

Annexin-A1 (AnxA1) and its N-terminal derived peptide Ac2-26 regulate the inflammatory response in several experimental models of disorders. This study evaluated the effect of endogenous AnxA1 and its N-terminal peptide Acetyl 2-26 (Ac2-26) on allergic asthma triggered by house dust mite (HDM) extract in mice. ANXA1-/- and wildtype (WT) mice were exposed to intranasal instillation of HDM every other day for 3 weeks, with analyses performed 24 h following the last exposure. Intranasal administration of peptide Ac2-26 was performed 1 h before HDM, beginning 1 week after the initial antigen application. ANXA1-/- mice stimulated with HDM showed marked exacerbations of airway hyperreactivity (AHR), eosinophil accumulation, subepithelial fibrosis, and mucus hypersecretion, all parameters correlating with overexpression of cytokines (IL-4, IL-13, TNF-α, and TGF-ß) and chemokines (CCL11/eotaxin-1 and CCL2/MCP-1). Intranasal treatment with peptide Ac2-26 decreased eosinophil infiltration, peribronchiolar fibrosis, and mucus exacerbation caused by the allergen challenge. Ac2-26 also inhibited AHR and mediator production. Collectively, our findings show that the AnxA1-derived peptide Ac2-26 protects against several pathological changes associated with HDM allergic reaction, suggesting that this peptide or related AnxA1-mimetic Ac2-26 may represent promising therapeutic candidates for the treatment of allergic asthma.


Subject(s)
Asthma , Inflammation , Allergens , Animals , Asthma/drug therapy , Cytokines , Fibrosis , Inflammation/drug therapy , Inflammation/pathology , Mice , Peptides/pharmacology , Peptides/therapeutic use
12.
Heart Lung Circ ; 31(6): 894-902, 2022 Jun.
Article in English | MEDLINE | ID: mdl-35034845

ABSTRACT

BACKGROUND: Mechanisms involved in cardiac remodelling by aortic regurgitation (AR) and the moment when cardiac dysfunction begins are largely unknown. This study aimed to investigate cardiac morphology and function after 1, 4, 8, and 12 weeks of experimental AR in Wistar rats. Extracellular matrix was also investigated as the potential mechanism that underlies the AR remodelling process. METHODS: Male Wistar rats underwent surgical acute AR (AR group, n=51) or a sham surgery (sham group, n=32). After the procedure, serial transthoracic echocardiograms were performed at 1, 4, 8, and 12 weeks. Morphometry of cardiac tissue and the activities of metalloproteinase 2 (MMP-2) and tissue metalloproteinase inhibitor-1 (TIMP-1) were analysed. Statistical analysis was performed by two-way ANOVA. Significance level was 5%. RESULTS: The AR group presented an increase in the sphericity index (week 1); an increase in the left atrium, left ventricular mass index, TIMP-1 and MMP-2 activities, and collagen fraction (week 4); an increase in myocyte area (week 8); and a reduction in fraction shortening (week 12). First, the chamber became more spherical; second, MMP-2 and TIMP-1 were activated and this may have contributed to hypertrophy and atrial enlargement, until systolic dysfunction occurred. CONCLUSIONS: This study showed a sequence of abnormalities that preceded myocardial dysfunction in an experimental model of AR. First, haemodynamic volume overload led to a more spherical left ventricle chamber. Second, MMP-2 and TIMP-1 transitorily increased and may have contributed to atrial enlargement, eccentric hypertrophy, and systolic dysfunction.


Subject(s)
Aortic Valve Insufficiency , Tissue Inhibitor of Metalloproteinase-1 , Animals , Extracellular Matrix , Humans , Hypertrophy , Male , Matrix Metalloproteinase 2 , Models, Theoretical , Rats , Rats, Wistar , Ventricular Remodeling
13.
Acta Physiol (Oxf) ; 234(3): e13782, 2022 03.
Article in English | MEDLINE | ID: mdl-34990078

ABSTRACT

The mechanisms underlying the immunometabolic disturbances during skeletal muscle atrophy caused by a plethora of circumstances ranging from hospitalization to spaceflight missions remain unknown. Here, we outline the possible pathways that might be dysregulated in such conditions and assess the potential of physical exercise to mitigate and promote the recovery of muscle morphology, metabolism and function after intervals of disuse. Studies applying exercise to attenuate disuse-induced muscle atrophy have shown a pivotal role of circulating myokines in the activation of anabolic signalling pathways. These muscle-derived factors induce accretion of contractile proteins in the myofibers, and at the same time decrease protein breakdown and loss. Regular exercise plays a crucial role in re-establishing adequate immunometabolism and increasing the migration and presence in the muscle of macrophages with an anti-inflammatory phenotype (M2) and T regulatory cells (Tregs) after disease-induced muscle loss. Additionally, the switch in metabolic pathways (glycolysis to oxidative phosphorylation [OXPHOS]) is important for achieving rapid metabolic homeostasis during muscle regeneration. In this review, we discuss the molecular aspects of the immunometabolic response elicited by exercise during skeletal muscle regeneration. There is not, nevertheless, consensus on a single optimal intensity of exercise required to improve muscle strength, mass and functional capacity owing to the wide range of exercise protocols studied so far. Despite the absence of agreement on the specific strategy, physical exercise appears as a powerful complementary strategy to attenuate the harmful effects of muscle disuse in different scenarios.


Subject(s)
Muscle, Skeletal , Space Flight , Exercise , Humans , Muscle Strength , Muscle, Skeletal/metabolism , Muscular Atrophy/metabolism
14.
Eur J Cardiothorac Surg ; 61(6): 1337-1345, 2022 05 27.
Article in English | MEDLINE | ID: mdl-34957507

ABSTRACT

OBJECTIVES: Pulmonary arterial hypertension (PAH) is a cardiopulmonary disease that affects the pulmonary vasculature, leading to increased afterload and eventually right ventricular (RV) remodelling and failure. Bilateral sympathectomy (BS) has shown promising results in dampening cardiac remodelling and dysfunction in several heart failure models. In the present study, we investigated whether BS reduces pulmonary arterial remodelling and mitigates RV remodelling and failure. METHODS: PAH was induced in male Wistar rats by intraperitoneal injection of monocrotaline. Rats were divided into 3 groups, involving untreated PAH (n = 15), BS-treated PAH (n = 13) and non-manipulated control rats (n = 13). Three weeks after PAH induction, the rats were anaesthetized and RV function was assessed via the pressure-volume loop catheter approach. Upon completion of the experiment, the lungs and heart were harvested for further analyses. RESULTS: BS was found to prevent pulmonary artery remodelling, with a clear reduction in α-smooth muscle actin and endothelin-1 expression. RV end-systolic pressure was reduced in the BS group, and preload recruitable stroke work was preserved. BS, therefore, mitigated RV remodelling and cardiomyocyte hypertrophy and diminished oxidative stress. CONCLUSIONS: We showed that thoracic BS may be an important treatment option for PAH patients. Blockade of the sympathetic pathway can prevent pulmonary remodelling and protect the RV from oxidative stress, myocardial remodelling and function decay.


Subject(s)
Hypertension, Pulmonary , Pulmonary Arterial Hypertension , Ventricular Dysfunction, Right , Animals , Disease Models, Animal , Familial Primary Pulmonary Hypertension , Humans , Male , Oxidative Stress , Pulmonary Artery , Rats , Rats, Wistar , Sympathectomy , Vascular Remodeling , Ventricular Function, Right , Ventricular Remodeling
15.
Br J Oral Maxillofac Surg ; 60(2): 145-151, 2022 02.
Article in English | MEDLINE | ID: mdl-34953568

ABSTRACT

This study aimed to compare socket repair with Nylon 5-0 suture and closure using cyanoacrylate biological glue after tooth extraction. Twenty male Wistar rats, each weighing approximately 200 g were submitted to the extraction of the right and left first molar teeth. On the right side, the alveolus was closed with 2 ethyl-cyanoacrylate glue, whereas on the left side closure was with a single interrupted Nylon 5-0 suture (Ethilon). The animals were sacrificed after 3, 7, 15, and 30 postoperative days, and images of histological sections of the alveolus were captured for analysis. Histomorphometry was performed using Image J software to quantify bone neoformation in the alveolus. The results showed that on the seventh postoperative day the side treated with 2-ethyl-cyanoacrylate presented a delay in relation to the sutured side. However, on days 15 and 30, the difference in bone neoformation between gradually decreased until the thirtieth postoperative day, with no significant difference in bone neoformation in the last period of analysis. There was no difference between neoformation in the two sides (p = 0.902) after statistical analysis of the histomorphometric results. In conclusion, socket repair after alveolus closure with 2-ethyl-cyanoacrylate allows complete bone neoformation after tooth extraction, and there is no significant difference when compared with closure with Nylon 5-0.


Subject(s)
Cyanoacrylates , Nylons , Animals , Cyanoacrylates/therapeutic use , Humans , Male , Rats , Rats, Wistar , Sutures , Tooth Socket/surgery
16.
J Clin Periodontol ; 49(1): 39-47, 2022 01.
Article in English | MEDLINE | ID: mdl-34708422

ABSTRACT

AIM: To compare tissue changes at implant sites previously treated with two biomaterials for alveolar ridge preservation (ARP) in the aesthetic zone, 1 year after restoration. MATERIALS AND METHODS: Sixty-six participants were treated with ARP using demineralized bovine bone mineral (DBBM) or DBBM +10% of collagen (DBBM-C), both covered with a collagen matrix (CM). Dental implants were placed, and definitive crowns were installed. Silicon impressions were taken before tooth extraction (T0), 2 weeks after crown insertion (T1) and 1 year after restoration (T2). Mid-facial mucosal level change (MLC), soft tissue thickness changes (TT), and marginal bone loss (MBL) were analysed using inter-group comparisons. RESULTS: Fifty-four participants were included in the analysis. The mid-facial level change between T0-T1 and T1-T2 showed no statistical difference between DBBM and DBBM-C. Between T0 and T1 for soft tissue thickness, DBBM performed significantly better at 3 and 5 mm below the mucosal margin. From T1 to T2, no significant differences between groups were found at any level for soft tissue thickness and MBL. CONCLUSION: At the aesthetic zone, advanced recession from tooth extraction to crown placement can be expected at sites treated with ARP regardless of biomaterial used. However, after crown insertion, tissue stability can be predicted.


Subject(s)
Alveolar Bone Loss , Alveolar Ridge Augmentation , Alveolar Bone Loss/prevention & control , Alveolar Process/surgery , Animals , Cattle , Esthetics, Dental , Follow-Up Studies , Humans , Tooth Extraction , Tooth Socket/surgery
17.
Mem. Inst. Oswaldo Cruz ; 117: e220005, 2022. graf
Article in English | LILACS-Express | LILACS | ID: biblio-1406002

ABSTRACT

BACKGROUND Angiogenesis has been implicated in tissue injury in several noninfectious diseases, but its role in Chagas disease (CD) physiopathology is unclear. OBJECTIVES The present study aimed to investigate the effect of Trypanosoma cruzi infection on cardiac angiogenesis during the acute phase of experimental CD. METHODS The signalling pathway involved in blood vessel formation and cardiac remodelling was evaluated in Swiss Webster mice infected with the Y strain of T. cruzi. The levels of molecules involved in the regulation of angiogenesis, such as vascular endothelial growth factor-A (VEGF-A), Flk-1, phosphorylated extracellular-signal-regulated protein kinase (pERK), hypoxia-inducible factor-1α (HIF-1α), CD31, α-smooth muscle actin (α-SMA) and also the blood vessel growth were analysed during T. cruzi infection. Hearts were analysed using conventional histopathology, immunohistochemistry and western blotting. FINDINGS In this study, our data demonstrate that T. cruzi acute infection in mice induces exacerbated angiogenesis in the heart and parallels cardiac remodelling. In comparison with noninfected controls, the cardiac tissue of T. cruzi-infected mice presented higher levels of (i) HIF-1α, VEGF-A, Flk-1 and pERK; (ii) angiogenesis; (iii) α-SMA+ cells in the tissue; and (iv) collagen -1 deposition around blood vessels and infiltrating throughout the myocardium. MAIN CONCLUSIONS We observed cardiac angiogenesis during acute experimental T. cruzi infection parallels cardiac inflammation and remodelling.

18.
Plant Physiol Biochem ; 167: 862-873, 2021 10.
Article in English | MEDLINE | ID: mdl-34536899

ABSTRACT

In plants, lipid metabolism and remodelling are key mechanisms for survival under temperature stress. The present study attempted to compare the lipid profile in barley roots both under chilling stress treatment and in the subsequent recovery to stress. Lipids were obtained through a single-extraction method with a polar solvent mixture, followed by mass spectrometry analysis. The results indicate that lipid metabolism was significantly affected by chilling. Most of the glycerolipids analysed returned to control values during short- and long-term recovery, whereas several representative phosphatidic acid (PA) molecular species were edited during long-term recovery. Most of the PA molecular species that increased in the long-term had the same acyl chains as the phosphatidylcholine (PC) species that decreased. C34:2 and C36:4 underwent the most remarkable changes. Given that the mechanisms underlying the acyl-editing of PC in barley roots remain elusive, we also evaluated the contribution of lysophosphatidylcholine acyltransferases (HvLPCAT) and phospholipase A (HvPLA). In line with the aforementioned results, the expression of the HvLPCAT and HvPLA genes was up-regulated during recovery from chilling. The differential acyl-editing of PA during recovery, which involves the remodelling of PC, might therefore be a regulatory mechanism of cold tolerance in barley.


Subject(s)
Hordeum , Cold Temperature , Hordeum/genetics , Lipid Metabolism , Phosphatidic Acids , Plant Roots/genetics
19.
West Indian med. j ; West Indian med. j;69(9): 638-644, 2021. graf
Article in English | LILACS-Express | LILACS | ID: biblio-1515726

ABSTRACT

ABSTRACT Background: Pulmonary arterial hypertension (PAH) is a serious disease characterized by the progressive elevation of the pulmonary arterial resistance, leading to the right ventricular failure and death. Objective: To evaluate the effect of rapamycin (RAPA), a potent cell-cycle inhibitor, on exercise capacity, right ventricular hypertrophy and pulmonary vascular remodelling on rats. Methods: A total of 39 nine-week-old male Wistar rats (160-240 g) were divided into three groups: the control (n = 10), PAH control (n = 15) and PAH-RAPA (n = 14) groups. On the 1st day, 60 mg/kg monocrotaline was injected intraperitoneally to induce PAH in the PAH control group and PAH-RAPA groups. On the 21st day, 3 mg/kg/day RAPA was started orally, and the animals were followed for 35 days. On the 35th day, the exercise capacity of the rats was analysed through a modified forced swimming test. After measuring their right ventricular systolic pressure using an open-chest method, their hearts and lungs were excised and analysed histopathologically for right ventricular hypertrophy and pulmonary vascular remodelling. Results: Rapamycin treatment provided limited and insignificant improvements in exercise capacity, right ventricular systolic pressure and right ventricular hypertrophy of the rats. However, there was significant recovery in the rats' pulmonary artery muscular layer thickness with the RAPA treatment (p < 0.049). On the 35th day, the mortality rate was 0% in the control group, 53.1% in the PAH control group and 42.9% in the PAH-RAPA group. No statistically significant decrease was observed in their mortality rates with the RAPA treatment (p > 0.16); however, a significant recovery was noted in terms of the rats' median life span (p < 0.006). Conclusion: Pulmonary artificial hypertension is a progressive disease that is not curable with current therapies. Rapamycin may have the potential to reverse vascular remodelling and prolong life expectancy in cases of pulmonary hypertension.

20.
Front Physiol ; 12: 687121, 2021.
Article in English | MEDLINE | ID: mdl-34248675

ABSTRACT

Glutamatergic transmission through NMDA receptors (NMDARs) is important for the function of peripheral tissues. In the bone, NMDARs and its co-agonist, D-serine participate in all the phases of the remodeling. In the vasculature, NMDARs exerts a tonic vasodilation decreasing blood perfusion in the corpus cavernosum and the filtration rate in the renal glomerulus. NMDARs are relevant for the skin turnover regulating the proliferation and differentiation of keratinocytes and the formation of the cornified envelope (CE). The interference with NMDAR function in the skin leads to a slow turnover and repair. As occurs with the brain and cognitive functions, the manifestations of a hypofunction of NMDARs resembles those observed during aging. This raises the question if the deterioration of the glomerular vasculature, the bone remodeling and the skin turnover associated with age could be related with a hypofunction of NMDARs. Furthermore, the interference of D-serine and the effects of its supplementation on these tissues, suggest that a decrease of D-serine could account for this hypofunction pointing out D-serine as a potential therapeutic target to reduce or even prevent the detriment of the peripheral tissue associated with aging.

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