Canales de calcio como blanco de interés farmacológico / Calcium channels as a pharmacological target

Resumen Los canales de calcio son proteínas de membrana que constituyen la vía más importante para el ingreso del ion calcio (Ca2+) a la célula. Al abrirse, permiten el ingreso selectivo del ion, iniciando una variedad de procesos como contracción muscular, secreción endocrina y liberación de neurotransmisores, entre otros. Estas proteínas se agrupan en tres categorías de acuerdo con sus propiedades estructurales y funcionales: (i) Canales de Ca2+ operados por interacción receptor-ligando (ROCC), (ii) Canales activados por parámetros físicos (Transient Receptor Potencial, TRP) y (iii) Canales de Calcio dependientes de voltaje (VDCCs), siendo estos últimos los más estudiados debido a su presencia en células excitables. Dada la importancia de Ca2+ en la fisiología celular, los canales de Ca2+ constituyen un punto de acción farmacológica importante para múltiples tratamientos y, por tanto, son objeto de estudio para el desarrollo de nuevos fármacos. El objetivo de esta revisión es explicar la importancia de los canales de Ca2+ desde una proyección farmacológica, a partir de la exploración documental de artículos publicados hasta la fecha teniendo en cuenta temas relacionados con la estructura de los canales Ca2+, sus propiedades biofísicas, localización celular, funcionamiento y su interacción farmacológica.

Abstract Calcium channels are membrane proteins that constitute the most important route for the entry of the calcium ion (Ca2+) into the cell. When opened, they allow selective ion entrance, starting a variety of processes such as muscular contraction, endocrine secretion and neurotransmitters release, among others. These proteins are classified in three categories according to their structural and functional properties: (i) Receptor-operated calcium channels (ROCC), (ii) Channels activated by physical parameters (Transient Receptor Potential or TRP-channels) and (iii) Voltage-dependent calcium channels (VDCCs), the latter being the most studied due to its presence in excitable cells. Given the importance of Ca2+ in the cellular physiology, the calcium channels constitute targets for pharmacological action for multiple treatments, and therefore, they are object of study for the development of new medicaments. The objective of this review is to explain the importance of the channels of Ca2+ from a pharmacological projection, by exploring the articles published, bearing in mind topics related to the structure of the channels Ca2+, properties of their biophysics, cellular location, functioning and their pharmacological interaction.

Novel insights into cell cycle regulation of cell fate determination / 浙江大学学报（英文版）（B辑：生物医学和生物技术）

The stem/progenitor cell has long been regarded as a central cell type in development, homeostasis, and regeneration, largely owing to its robust self-renewal and multilineage differentiation abilities. The balance between self-renewal and stem/progenitor cell differentiation requires the coordinated regulation of cell cycle progression and cell fate determination. Extensive studies have demonstrated that cell cycle states determine cell fates, because cells in different cell cycle states are characterized by distinct molecular features and functional outputs. Recent advances in high-resolution epigenome profiling, single-cell transcriptomics, and cell cycle reporter systems have provided novel insights into the cell cycle regulation of cell fate determination. Here, we review recent advances in cell cycle-dependent cell fate determination and functional heterogeneity, and the application of cell cycle manipulation for cell fate conversion. These findings will provide insight into our understanding of cell cycle regulation of cell fate determination in this field, and may facilitate its potential application in translational medicine.

Cambios morfofisiológicos celulares durante la reanimación cardiopulmocerebral / Morph-physiological cellular changes during cardiac-pulmonary-cerebral resuscitation

Las células realizan transformaciones estructurales y metabólicas ante situaciones de estrés, lo que les permite mantener una adecuada homeostasis y evitar la muerte. La presente revisión bibliográfica tuvo como objetivo describir los principales cambios morfofisiológicos celulares que acontecen en la parada cardiaca y reanimación cardiopulmocerebral. El método incluyó una revisión documental (bases de datos SciELO Regional, PubMed, Cochrane e Infomed), realizada durante el primer semestre del 2018. Fueron seleccionadas 28 referencias. Se concluye que existen cambios celulares durante el cese circulatorio, las maniobras de resucitación y en la reperfusión. En la parada cardiaca, los cambios celulares se expresan en todos los organelos y puede llevar a muerte por necrosis. Durante la reperfusión se producen nuevos cambios estructurales, por entrada de calcio, alteraciones en sodio, producción de radicales libres e inflamación. Los cambios morfofisiológicos dependerán del estado metabólico previo, el tiempo de parada cardiaca y la instauración eficaz de medidas de resucitación.

Cell suffer structural and metabolic changes in stress situations,which allow them to maintain an adequate homeostasis and avoid death . This bibliographic review had the objective of describing the main morph-physiological changes which occur in cardiac failure and cardiac-pulmonary-cerebral resuscitation. The method was documentary reviewing (database Regional SciELO, PubMed, Cochrane and Infomed), developed during the first semester of 2018. Twenty eight references were selected. It was concluded that there are cellular changes during circulatory stop, the procedures of resuscitation and re-perfusion. In cardiac failure, cellular changes are expressed in all the organelles. And may cause death due to necroses. During re-perfusion new structural changes occur, for calcium entrance, sodium disturbances, production of free radicals and swelling. Morph.physiological changes depend on previous metabolic condition, time of cardiac failure and the successful establishment of resuscitation measures.

Paradoxical role of Id proteins in regulating tumorigenic potential of lymphoid cells / 医学前沿

A family of transcription factors known as Id proteins, or inhibitor of DNA binding and differentiation, is capable of regulating cell proliferation, survival and differentiation, and is often upregulated in multiple types of tumors. Due to their ability to promote self-renewal, Id proteins have been considered as oncogenes, and potential therapeutic targets in cancer models. On the contrary, certain Id proteins are reported to act as tumor suppressors in the development of Burkitt's lymphoma in humans, and hepatosplenic and innate-like T cell lymphomas in mice. The contexts and mechanisms by which Id proteins can serve in such contradictory roles to determine tumor outcomes are still not well understood. In this review, we explore the roles of Id proteins in lymphocyte development and tumorigenesis, particularly with respect to inhibition of their canonical DNA binding partners known as E proteins. Transcriptional regulation by E proteins, and their antagonism by Id proteins, act as gatekeepers to ensure appropriate lymphocyte development at key checkpoints. We re-examine the derailment of these regulatory mechanisms in lymphocytes that facilitate tumor development. These mechanistic insights can allow better appreciation of the context-dependent roles of Id proteins in cancers and improve considerations for therapy.

Regulation of T cell immunity by cellular metabolism / 医学前沿

T cells are an important adaptive immune response arm that mediates cell-mediated immunity. T cell metabolism plays a central role in T cell activation, proliferation, differentiation, and effector function. Specific metabolic programs are tightly controlled to mediate T cell immune responses, and alterations in T cell metabolism may result in many immunological disorders. In this review, we will summarize the main T cell metabolic pathways and the important factors participating in T cell metabolic programming during T cell homeostasis, differentiation, and function.

The role of under-investigated connexins in musculoskeletal tissue: a brief review with emphasis on bone tissue / El papel de las escasamente investigadas conexinas en el tejido músculo-esquelético: una breve revisión con énfasis en el tejido óseo

Connexins (Cxs) are a family of transmembrane proteins that form gap junctions and hemi-channels, which mediate cell-cell communication between neighboring cells and the respective extracellular milieu in different tissues. Most tissues and cell types throughout the body express one or more Cx proteins, highlighting its importance in regulating cell growth, differentiation, adhesion, migration, cell death and others. Moreover, Cx can propagate intracellular signals through its C-terminus domain, and thus function beyond a mere channel. Cx43 is the most highly expressed and most well studied Cx in bone and musculoskeletal tissues, although Cx40, Cx45, Cx46 and more recently, the Cx37 have been described in bone tissue, along with Cx26, Cx32 and Cx39 in other musculoskeletal tissues. Here, we discuss the basic structure of gap junctions and the role of the Cxs in musculoskeletal tissue, with special focus on Cx37. (AU)

Las conexinas (Cxs) son una familia de proteínas transmembrana que forman uniones en hendidura y hemicanales encargados de mediar la comunicación entre células vecinas y el respectivo medio extracelular en diferentes tejidos. La mayoría de los tejidos y células expresan una o más proteínas conexina, jugando un papel importante en la regulación de la proliferación celular, diferenciación, adhesión, migración y muerte celular, entre otras funciones. Además de actuar como un canal, las conexinas pueden propagar señales intracelulares a través del dominio C-terminal. La Cx43 es la conexina mas expresada y mejor estudiada en el tejido óseo y el músculo, aunque las Cx40, Cx45, Cx46, y mas recientemente Cx37, son también detectadas en el hueso. A su vez la expresión de la Cx26, Cx32 y Cx39 ha sido observada en otros tejidos músculoesqueléticos. En este manuscrito describimos la estructura básica de las uniones tipo gap y el papel que las Cxs, y en especial la Cx37, tienen en tejidos músculo-esqueléticos. (AU)

The molecular mechanism for nuclear transport and its application / 대한해부학회지

Transportation between the cytoplasm and the nucleoplasm is critical for many physiological and pathophysiological processes including gene expression, signal transduction, and oncogenesis. So, the molecular mechanism for the transportation needs to be studied not only to understand cell physiological processes but also to develop new diagnostic and therapeutic targets. Recent progress in the research of the nuclear transportation (import and export) via nuclear pore complex and four important factors affecting nuclear transport (nucleoporins, Ran, karyopherins, and nuclear localization signals/nuclear export signals) will be discussed. Moreover, the clinical significance of nuclear transport and its application will be reviewed. This review will provide some critical insight for the molecular design of therapeutics which need to be targeted inside the nucleus.

Investigation of self-renewal mechanism about CD133+ cancer stem cells in human laryngeal carcinoma Hep-2 cell line / 临床耳鼻咽喉头颈外科杂志

OBJECTIVE@#To investigate the self-renewal mechanism of CD133+ cancer stem cells from Hep-2 cell line.@*METHOD@#The CD133+ cells were sorted by flow cytometry from Hep-2 cell line. Then the sorted CD133+ cells were cultured in RPMI1640. The ability of self-renewal of CD133+ cells were tested by MTT assay. mRNA and protein expression of self-renewal related genes were detected by western blot and RT- PCR.@*RESULT@#(3.10 ± 0.21)% of Hep-2 cells expressed the membrane antigen CD133. CD133+ fraction was raised to (90.20 ± 5.51)% by flow cytometry. In vitro culture and growth curve showed CD133+ cells had more active proliferation ability than CD133- cells, which showed statistically significant difference between these two group (P < 0.01). RT- PCR and western blot results showed upregulated mRNA and protein expression of Fas, c-myc, survivin in CD133+ group (P < 0.01). In the same time, the ratio of Bcl-2/Bax gene expression was obviously increased in CD133+ group. Self-renewal related gene such as β-catenin, SHH, SMOH and Bmi-1,Gli-1 were all up-regulated in CD133+ group both in mRNA and protein. On the contrary, PTCH gene was down-regulated.@*CONCLUSION@#CD133 positive cells are a small proportion of a Hep-2 cell line. The results of this experiment verified that CD133 positive cells owned the properties of cancer stem cells. Upregulated anti-apoptotic gene is the foundatiom of self-renewal mechanism of CD133+ cells. Cancer stem cells related signal pathways such as Hedgehog, Wnt and Bmi-1 pathway are in state of activation. The identification of self-renewal mechanism about cancer stem cell provides a powerful tool to investigate the tumorigenic process in the larynx and to develop therapies targeting to these signal pathways.

Simultaneously expressed miR-424 and miR-381 synergistically suppress the proliferation and survival of renal cancer cells---Cdc2 activity is up-regulated by targeting WEE1

OBJECTIVES: MiRNAs are intrinsic RNAs that interfere with protein translation. Few studies on the synergistic effects of miRNAs have been reported. Both miR-424 and miR-381 have been individually reported to be involved in carcinogenesis. They share a common putative target, WEE1, which is described as an inhibitor of G2/M progression. Here, we studied the synergistic effects of miR-424 and miR-381 on renal cancer cells. METHODS: The viability of 786-O cells was analyzed after transfection with either a combination of miR-424 and miR-381 or each miRNA alone. We investigated cell cycle progression and apoptosis with flow cytometry. To confirm apoptosis and the abrogation of G2/M arrest, we determined the level of pHH3, which is an indicator of mitosis, and caspase-3/7 activity. The expression levels of WEE1, Cdc25, γH2AX, and Cdc2 were manipulated to investigate the roles of these proteins in the miRNA-induced anti-tumor effects. To verify that WEE1 was a direct target of both miR-424 and miR-381, we performed a dual luciferase reporter assay. RESULTS: We showed that the combination of these miRNAs synergistically inhibited proliferation, abrogated G2/M arrest, and induced apoptosis. This combination led to Cdc2 activation through WEE1 inhibition. This regulation was more effective when cells were treated with both miRNAs than with either miRNA alone, indicating synergy between these miRNAs. WEE1 was verified to be a direct target of each miRNA according to the luciferase reporter assay. CONCLUSIONS: These data clearly demonstrate that these two miRNAs might synergistically act as novel modulators of tumorigenesis by down-regulating WEE1 expression in renal cell cancer cells. .

Pseudobrânquia do guaru Poecilia reticulata (Peter, 1859): análise estrutural, morfométrica e histoquímica para detecção de glicoconjugados / Pseudo-gill of guppy, Poecilia reticulata (Peter, 1859): structural, morphometric, and histochemical analyses for the detection of glycoconjugates

A morfologia, os parâmetros citomorfométricos e os glicoconjugados presentes na pseudobrânquia de guaru, Poecilia reticulata Peter, 1859 (Cyprinodontiformes: Poeciliidae), foram investigados por microscopia de luz acoplada ao sistema de captura e análise de imagens, juntamente por histoquímica com lectinas. A anatomia microscópica indicou que P. reticulata possui pseudobrânquia glandular formada por dois lóbulos, a qual se localiza abaixo do epitélio faringiano. O órgão é constituído por parênquima vascularizado e rico em células pseudobranquiais. Esse tipo celular exibe estado citofisiológico ativo, com abundante sistema de biomembranas e ausência de óstio na superfície apical,que por sua vez é encontrado nas células ricas em mitocôndrias das holobrânquias. Assim, indica-se que as células da pseudobrânquia se distinguem das células das holobrânquias em relação à morfologia, histoquímica e fisiologia. Em decorrência dessas características intrínsecas, a pseudobrânquia de alevinos do guaru pode desempenhar funções não respiratórias nas fases iniciais do desenvolvimento. Além disso, a caracterização da pseudobrânquia do guaru possibilitará estudos futuros sobre o efeito de poluentes aquáticos em espécies biomonitoras, como P. reticulata.

The morphology, cytomorphometric parameters, and glycoconjugates present in the pseudo-gill of guppy, Poecilia reticulata Peter, 1859 (Cyprinodontiformes: Poeciliidae), were investigated by light microscopy coupled to image capture and analysis system, and also by lectin histochemistry. The microscopic anatomy indicates that P. reticulata has a glandular pseudo-gill formed by two lobes, located underneath the pharynx epithelium. The organ is formed by vascularized parenchyma rich in pseudo-gill cells. This cell type exhibits active cytophysiological state with an abundant system of biomembranes and lacking of ostium in apical surface, which in turn is found in the mitochondria-rich cells of the holobranch. This indicates that the pseudo-gill cells distinguishe from the holobranch cells in their morphology, histochemistry and physiology. Due to these intrinsic characteristics, the pseudo-gill of guppy fingerlings may have non-respiratory function in the initial phase of their development. The characterization of guppy's pseudo-gill could facilitate further studies about the effect of water pollutants on biomonitor species, such as P. reticulata.

Mecanismos moleculares da ação tóxica pró-oxidante de 1,4-diamino-2-butanona, um análogo de putrescina, sobre células de mamíferos e Trypanosoma cruzi / The Molecular mechanisms of pro-oxidant activity of 1,4-diamino-2-butanone, a putrescine analogue, to mammalian cells and Trypanosoma cruzi

Compostos α-aminocarbonilícos como ácido 5-aminolevulínico (ALA) e aminoacetona (AA) apresentam um grande potencial pró-oxidante, pois sofrem reações de enolização e subseqüente oxidação aeróbica, com a formação de espécies radicalares de oxigênio, íons NH4+ e α-oxoaldeídos potencialmente citotóxicos. A α-aminocetona 1,4-diamino-2-butanona (DAB), um análogo da putrescina, é um agente microbicida de vários parasitas incluindo Trypanosoma cruzi. Acredita-se que o mecanismo de morte desencadeado por DAB nos parasitas seja por meio da inibição competitiva da ornitina descarboxilase (ODC), importante enzima do metabolismo de poliaminas, muito embora tenha sido observado de igual forma danos oxidativos nestes parasitas quando tratados com DAB. O objetivo deste trabalho é esclarecer o mecanismo de oxidação química de DAB e sua ação pró-oxidante à cultura de células de mamíferos (LLC-MK2 e RKO), assim como sua atividade microbicida contra tripomastigotas de Trypanosoma cruzi. Demonstramos aqui que DAB, quimicamente similar ao ALA e AA, sofre reação de oxidação catalisada por íons fosfato, e por íons de metais de transição como Fe(II) e Cu(II), resultando na formação de radicais de oxigênio, H2O2, NH4+, 2-oxo-4-aminobutanal como produto principal da oxidação de DAB e de compostos ciclicos de caracter pirrólico. Danos oxidativos observados em ferritina, apotransferrina e liposomos de cardiolipina e fosfatidilcolina (20:80) contribuem para a nossa hipótese de ação pró-oxidante de DAB. O tratamento de células de mamíferos das linhagens LLC-MK2 (IC50 1,5 mM, tratamento de 24 h) e RKO (IC50 0,3 mM, tratamento de 24 h) com DAB levou à alteração do balanço redox celular, à ativação de resposta antioxidante e ao desencadeamento de morte celular via apoptose e parada de ciclo celular. Em culturas de tripomastigotas de T. cruzi o tratamento com DAB culminou na redução da motilitidade e viabilidade destes parasitas (IC50 0,2 mM, tratamento de 4 h), assim como depleção do...

α-Aminocarbonyl componds such as 5-aminolevunilic acid (ALA) and aminoacetone (AA) have been shown to exhibit pro-oxidant properties. These compounds undergo phosphate-catalyzed enolization in physiological pH and subsequent aerobic oxidation, yielding reactive oxygen species, NH4+ ions and an α-oxoaldehyde highly cytotoxic. The α-aminoketone 1,4-diamino-2-butanone (DAB) is a putrescine analogue and a microbicidal agent to various parasites including Trypanosoma cruzi. The mechanism of DAB toxicity to these parasites is attributed to DAB competitive inhibition of ornithine decarboxylase (ODC), a key enzyme on polyamine biosynthesis, although it has also been shown DAB isto implicated in oxidative damage to these parasites. Our aim is to clarify the mechanism of DAB aerobic oxidation and of its putative pro-oxidant activity to mammalian cell cultures (LLC-MK2 and RKO cell linages) and to Trypanosoma cruzi trypomastigotes. Here we show that, similar to ALA and AA, DAB undergoes aerobic oxidation in presence of phosphate ions and of transition metal ions such as Fe(II) and Cu(II), yielding oxygen radicals, H2O2, NH4+ and 2-oxo-4-aminobutanal accompanied by its condensation cyclic products displaying pyrrolic characteristics. Oxidative alterations to ferritin, apotransferrin and liposomes of cardiolipin and phosphatidylcholine (20:80) were observed under DAB treatment strongly supporting our hypothesis of DAB pro-oxidative activity. DAB treatment of mammalian cultured cells LLC-MK2 (IC50 1.5 mM, 24 h incubation) and RKO (IC50 0.3 mM, 24 h incubation) resulted in redox imbalance, induction of antioxidant response, activation of apoptosis pathway and cell cycle arrest. DAB is shown here to trigger Trypanosoma cruzi trypomastigotes decreased parasite motility and viability (IC50 0.2 mM, 4 h incubation), as well as redox thiol imbalance parallel to increase TcSOD activity. In addition, DAB efficiently hampered host cell (LLC-MK2) invasion by trypomastigotes...

Aspectos comparativos da resposta inflamatória em lesões de leishmaniose cutânea localizada e disseminada / Comparative aspects of the inflammatory response in lesions of cutaneous leishmaniasis and disseminated

A forma clínica mais frequente das leishmanioses é a leishmaniose cutânea, que acomete somente a pele e constitui um importante problema de saúde no Brasil. A leishmaniose cutânea caracteriza-se por lesão cutânea ulcerada única: leishmaniose cutânea localizada, que pode regredir espontaneamente ou se disseminar com múltiplas úlceras e pápulas e que aparecem em diferentes locais. A presença de disseminação caracteriza a leishmaniose cutânea disseminada. Investigar, no tecido, células que compõem o infiltrado inflamatório em lesões de pele na leishmaniose e caracterizar a resposta imune e sua correlação com a extensão total da inflamação in situ pode contribuir para aprofundar o entendimento da leishmaniose cutânea. Neste estudo, através da imunomarcação e quantificação de células por imunoistoquímica e HE, e análise da extensão da inflamação, foi comparado a histopatologia e presença de células inflamatórias CD4+, CD8+, CD68+, CD20+, plasmócitos e neutrófilos, e células granzima B+ em biópsias de pacientes com leishmaniose cutânea tardia (úlcera tardia e úlcera recente) e leishmaniose disseminada (úlcera e pápula). A análise dos padrões histomorfológicos mostrou semelhança entre os quatro grupos de biópsias analisados. Avaliando o número e tipo de células presentes, o predomínio foi de macrófagos e infócitos. As úlceras da leishmaniose cutânea clássica e disseminada apresentaram média maior de inflamação, maior frequência de linfócitos T CD4+, T CD8+, macrófagos, linfócitos B CD20+ e plasmócitos que úlceras recentes e pápulas. Estas, por sua vez, ao contrário das úlceras tardias de ambas formas clínicas, tiveram correlação positiva entre o aumento do infiltrado inflamatório e T CD4+ e T CD8+, e não correlação com granzima B e neutrófilos. Os plasmócitos se mostraram elementos quase constantes no infiltrado das lesões em todos os grupos, e sua frequência foi maior que de linfócitos B. Seguindo o mesmo padrão descrito nos linfócitos B, os plasmócitos não apresentam correlação com o influxo de infiltrado inflamatório entre os grupos. A frequência de macrófagos é vista nos dois estágios avaliados da doença e nas duas formas clínicas de forma semelhante, porém com uma tendência para maior presença em lesões de LD. A análise de neutrófilos revelou semelhança da frequência dessas células em todos os tipos de lesões em ambas formas clínicas, com as pápulas tendendo para uma menor quantidade. Portanto, o desenvolvimento das lesões ocorrem com o influxo de células inflamatórias, como linfócitos T CD4+ e T CD8+ e a resposta imune celular é mais intensa em lesões crônicas da leishmaniose cutânea localizada e disseminada do que em lesões localizadas recentes e pápulas da leishmaniose disseminada. Diferenças in situ na resposta inflamatória destas duas formas clínicas e quatro espectros de lesão da leishmaniose humana podem elucidar o papel de células no local da lesão e contribuir para o entendimento da patogênese da leishmaniose.

Cutaneous leishmaniasis is the most frequent clinical form of leishmaniasis, which affects only the skin and is an important health problem in Brazil. Cutaneous leishmaniasis is characterized by single ulcerated skin lesion: localized cutaneous leishmaniasis, which may regress spontaneously or spread with multiple ulcers and papules that appear in different parts of the body. The presence of dissemination features disseminated leishmaniasis. Investigate tissue cells from inflammatory infiltrate in skin lesions in leishmaniasis and characterize the immune response and its correlation with the total extent of inflammation in situ may contribute to deepen the understanding of cutaneous leishmaniasis. In this study, immunostaining and cells quantification by immunohistochemistry and HE and analysis of inflammation extention was compared with histopathology and CD4+, CD8+, CD68+, CD20+, plasma cells, neutrophils and granzyme B+ cells in biopsies of patients with localized cutaneous leishmaniasis (late ulcer and recent ulcer) and disseminated leishmaniasis (ulcers and papules). The histopathological patterns analysis was similar among the four biopsies groups analyzed. Macrophages and lymphocytes were the predominant cells. The ulcers of localized cutaneous leishmaniasis and disseminated leishmaniasis presented higher mean inflammation, increased frequency of CD4+ and CD8+ T cells, macrophages, B lymphocytes CD20+ and plasma cells than recent ulcers and papules. These, in turn, unlike late ulcers of both clinical forms, had positive correlation between the increase in inflammatory infiltrate and CD4+ and CD8+ T cells, differing in Granzyme B and neutrophils. Plasma cells were almost constant in lesion infiltrate in all groups and was higher than the frequency of B lymphocytes. Following the same pattern described in B lymphocytes, plasma cells did not show an association with the influx of inflammatory infiltrate between groups. The frequency of macrophages is seen in both stages of the disease and in the two clinical forms similarly, but with a tendency to be increased in disseminated lesihmaniasis lesions. The analysis revealed similarity of neutrophils frequency in all types of lesions, with papules tending to a lesser extent. Therefore, the development of lesions occur with the influx of inflammatory cells such as CD4+ and CD8+ T cells and cellular immune response is more intense in chronic lesions of localized cutaneous leishmaniasis and disseminated leishmaniasis than recent localized lesions and papules from disseminated leishmaniasis. Differences of inflammatory response in situ in these two clinical forms and four spectra of human leishmaniasis lesions may elucidate the role of cells at the lesion site and contribute to the understanding of leishmaniasis pathogenesis.

Function of tumor suppressor p53 and its role in antiviral immunity / 病毒学报

Tumor suppressor p53, known as 'the guardian of the genome', has the ability to prevent the emergence of transformed cells by the induction of cell cycle arrest and apoptosis. Otherwise, there were researches about the function of p53, such as NDA repair, regulating metabolism and maternal reproduction in recent years. Furthermore, there was a new function for p53 in antiviral apoptosis mentioned in the research, Integration of interferon-alpha/beta signaling to p53 responses in tumour suppression and antiviral defense. In order to define the antiviral function of p53, many target genes has been defined, such as IRF9, IRF5, ISG15 and TLR3. All of these implied there must be a complex mechanism for role of p53 in antiviral innate immunity, adaptive immunity and inflammation.

Accommodating the difference in students' prior knowledge of cell growth kinetics

This paper describes the development and benefits of an adaptive digital module on cell growth to tackle the problem of educating a heterogeneous group of students at the beginning of an undergraduate course on process engineering. Aim of the digital module is to provide students with the minimal level of knowledge on cell growth kinetics they need to comprehend the content knowledge of the subsequent lectures and pass the exam. The module was organised to offer the subject matter in a differentiated manner, so that students could follow different learning paths. Two student groups were investigated, one consisting of students who had received their prior education abroad and one of students that had not. Exam scores, questionnaires, and logged user data of the two student groups were analysed to discover whether the digital module had the intended effect. The results indicate that students did indeed follow different learning paths. Also, the differences in exam scores between the two student groups that was present before the introduction of the digital module was found to have decreased afterwards. In general, students appreciated the use of the material regardless of their prior education. We therefore conclude that the use of adaptive digital learning material is a possible way to solve the problem of differences in prior education of students entering a course.

Fisiologia: texto y atlas

Tratada de la fisiología del cuerpo humano, sus sistemas y aparatos y los numerosos procesos que los mantienen en funcionamiento.

Expressão gênica diferencial de lesões pré-neoplásicas hepáticas de ratos Wistar tratados com o quimiopreventivo Beta-ionona (BetaI): receptores nucleares como alvos moleculares do composto bioativo de alimentos / Differential gene expression of hepatic pre-neoplastic lesions of rats treated with the chemopreventive Beta-ionone (I): nuclear receptors as molecular targets of bioactive compound foods

A β-ionona (BI) é um isoprenóide que apresenta atividade quimiopreventiva durante a fase de promoção da hepatocarcinogênese. O presente trabalho teve como objetivo avaliar a expressão de genes modulados pela BI envolvidos na quimioprevenção durante a fase de promoção da hepatocarcinogênese induzida pelo modelo do "Hepatócito Resistente" (RH). Ratos Wistar machos foram submetidos ao modelo do RH e tratados durante 4 semanas consecutivas com BI (16 mg/100 g de p.c.) ou óleo de milho (OM) (0,25 ml/100 g de p.c.; grupo controle). O perfil da expressão de 1.176 genes foi analisado por macroarray no fígado dos grupos BI, OM e de ratos considerados normais (grupo N). A expressão gênica foi considerada aumentada, quando a razão de expressão foi ≥ 1,5 ou diminuída, quando ≤ 0,5. Aplicou-se análise hierárquica de clustering e classificação ontológica dos genes diferencialmente expressos. A expressão gênica foi validada por RT-PCR do tipo "duplex", utilizando-se tecido hepático microdissecado de: lesões pré-neoplásicas persistentes (pLPN) ou em remodelação (rLPN) e de regiões ao redor das LPN (surrounding). Um total de 133 e 32 genes foi considerado diferencialmente expresso entre os grupos OM (em relação ao N) e BI (em relação ao OM), respectivamente. Trinta e sete por cento dos genes diferencialmente expressos no grupo BI vs OM referiam-se a receptores celulares. Destes, 4 genes codificantes para receptores nucleares foram identificados como possíveis alvos da BI na quimioprevenção da hepatocarcinogênese: RXRα (receptor X de retinóide α), RARβ (receptor de ácido retinóico β), COUP-TFI (chicken ovalbumin upstream promoter-transcription factor I) e Nur77 (nuclear receptor 77). Em comparação ao grupo OM, a expressão de RXRα e RARβ foi maior (p<0,05) especificamente em pLPN e rLPN do grupo βI, respectivamente. Em comparação ao grupo N, Nur77 apresentou maior (p<0,05) expressão no surrounding e nas rLPN do grupo OM. Por outro lado, a expressão de Nur77 em rLPN foi menor...

Reversal of multidrug resistance in HL-60, MSC and CD34(+) cells from umbilical cord blood by sustained intracellular acidification / 中国实验血液学杂志

The aim of this study was to investigate the effect of intracellular acidification on accumulation of rhodamine 123 (rh123) in non-mature cells with none or low expression of multidrug resistance MDR1. The expression of MDR1 mRNA was detected by real-time quantitative RT-PCR. Confocal laser microscopy was used to determine the calibration curve of intracellular acidification (pHi). MTT assay was used to detect the cytotoxicity of intracellular acidification on HL-60, MSC and CD34(+) cells from umbilical cord blood. Flow cytometry was applied to measure the influence of intracellular acidification. The results indicated that the intracellular acidification had no obvious cytotoxicity on HL-60, MSC and CD34(+) cells. The acidification resulted in the increased rhodamine 123 accumulation in HL-60, MSC and CD34(+) cells without P-gp activity. Moreover, the more primitive cells, the less accumulation of intracellular Rh123 were observed. It is concluded that the intracellular acidification can reverse the MDR of HL-60, MSC and CD34(+) cells.

Design of a three-dimensionally controlled multi-cell-assembly system based on the control of a mixer nozzle / 生物医学工程学杂志

Three-dimensionally controlled cell-assembly technique makes fabricating tissues and organs in vitro to be possible. However, for real tissues and organs with complex structure and various cells, fabricating tissues and organs in vitro need a technique that could assemble and locate multi cells and materials precisely in the space. Facing the needs of multi-cell assembly, we designed a mixer nozzle and the matching pulse switching circuit which based on the single-nozzle cell assembly system, and developed a multi-cell-assembly system. We also carried out some assembly experiments with this system using materials that were similar to the multi-component extracellular matrix materials. The results demonstrated that the system could assemble various cells and materials into three-dimensional inhomogeneous structures precisely.