Ixr1p regulates oxygen-dependent HEM13 transcription.

In Saccharomyces cerevisiae, HEM13 encodes the enzyme coproporphyrinogen III oxidase, which catalyzes the rate-limiting step in heme biosynthesis. HEM13 is a regulated hypoxic gene repressed by Rox1p and Mot3p under aerobic conditions. In this study, we further investigate the hypoxic expression of HEM13, focusing on the promoter regions that are functionally important during hypoxia and on the effect of deleting the transcriptional regulators Sut1p, Sut2p, Upc2p, Ecm22p and Ixr1p. Ixr1p is necessary for the high expression of HEM13 under hypoxic conditions and its function is exerted in vivo through the HEM13 promoter region extending from -577 to -419. Ixr1p binds in vivo to the HEM13 promoter both under aerobic and under hypoxic conditions. Purified Ixr1p binds in vitro to two sequences extending from -534 to -509 and from -497 to -450, respectively. These DNA regions compete for Ixr1p binding and the consensus KTTSAAYKGTTYASA is important for the regulatory protein to interact. These results suggest that the regulation of HEM13 expression is dependent on two proteins with high mobility group (HMG) domains: Rox1p and Ixr1p. Their interactions with the HEM13 promoter might change in the transition from aerobiosis to hypoxia.

Regulatory factors controlling transcription of Saccharomyces cerevisiae IXR1 by oxygen levels: a model of transcriptional adaptation from aerobiosis to hypoxia implicating ROX1 and IXR1 cross-regulation.

Ixr1p from Saccharomyces cerevisiae has been previously studied because it binds to DNA containing intrastrand cross-links formed by the anticancer drug cisplatin. Ixr1p is also a transcriptional regulator of anaerobic/hypoxic genes, such as SRP1/TIR1, which encodes a stress-response cell wall manoprotein, and COX5B, which encodes the Vb subunit of the mitochondrial complex cytochrome c oxidase. However, factors controlling IXR1 expression remained unexplored. In the present study we show that IXR1 mRNA levels are controlled by oxygen availability and increase during hypoxia. In aerobiosis, low levels of IXR1 expression are maintained by Rox1p repression through the general co-repressor complex Tup1-Ssn6. Ixr1p itself is necessary for full IXR1 expression under hypoxic conditions. Deletion analyses have identified the region in the IXR1 promoter responsible for this positive auto-control (nucleotides -557 to -376). EMSA (electrophoretic mobility-shift assay) and ChIP (chromatin immunoprecipitation) assays show that Ixr1p binds to the IXR1 promoter both in vitro and in vivo. Ixr1p is also required for hypoxic repression of ROX1 and binds to its promoter. UPC2 deletion has opposite effects on IXR1 and ROX1 transcription during hypoxia. Ixr1p is also necessary for resistance to oxidative stress generated by H2O2. IXR1 expression is moderately activated by H2O2 and this induction is Yap1p-dependent. A model of IXR1 regulation as a relay for sensing different signals related to change in oxygen availability is proposed. In this model, transcriptional adaptation from aerobiosis to hypoxia depends on ROX1 and IXR1 cross-regulation.

Muscle myostatin expression in children with muscle diseases.

The demonstration that myostatin may negatively regulate muscle mass in adult individuals has raised the possibility of targeting the myostatin pathway to increase muscle growth in a variety of muscle-degenerative and -wasting conditions. To gain further insight into the possible role of myostatin in primary muscle diseases, the authors investigated the expression of muscle myostatin in children with congenital fiber type 1 disproportion, in others with neurogenic muscular atrophy, in others with myotonia congenita, in others with infantile glycogenosis type II, in others with Prader-Willi syndrome, and in 4 age-matched controls. No differences in the pattern of myostatin expression were found in any case, even in those patients with prominent muscular atrophy or hypertrophy. These findings suggest that muscle alterations that can be observed in primary muscle diseases do not depend on changes in myostatin expression.

Multicentric study of the effect of pre-analytical variables in the quality of plasma samples stored in biobanks using different complementary proteomic methods.

Analytical proteomics has experienced exponential progress in the last decade and can be expected to lead research studies on diagnostic and therapeutic biomarkers in the near future. Because the development of this type of analysis requires the use of a large number of human samples with a minimum of quality requirements, our objective was to identify appropriate indicators for quality control of plasma samples stored in biobanks for research in proteomics. To accomplish this, plasma samples from 100 healthy donors were obtained and processed according to the pre-analytical variables of: a) time delay for the first centrifugation of the original blood sample (4 or 24h) and b) number of freeze/thaw cycles (1, 2 or 3) of the processed plasma samples. The analyses of samples were performed by different and complementary methods such as SPE MALDI-TOF, DIGE, shotgun (iTRAQ, nLC MALDI TOF/TOF) and targeted nLC MS/MS proteomic techniques (SRM). In general, because the distribution of proteins in all samples was found to be very similar, the results shown that delayed processing of blood samples and the number of freeze/thaw cycles has little or no effect on the integrity of proteins in the plasma samples. SIGNIFICANCE: The results of the present work indicate that blood proteins in plasma are broadly insensitive to such preanalytical variables as delayed processing or freeze/thaw cycles when analyzed at the peptide level. Although there are other studies related to protein stability of clinical samples with similar results, what is remarkable about our work is the large number of plasma samples examined and that our analyses assessed protein integrity by combining a wide set of complementary proteomic approaches performed at different proteomic platform participating laboratories that all yielded similar results. We believe our study is the most comprehensive performed to date to determine the changes in proteins induced by delayed sample processing and plasma freeze/thaw cycles.

Myostatin expression in muscular dystrophies and mitochondrial encephalomyopathies.

The demonstration that myostatin may negatively regulate muscle mass in adult individuals has raised the possibility of targeting the myostatin pathway in order to increase muscle growth in a variety of muscle degenerative and wasting conditions. In this regard, blockade of endogenous myostatin results in anatomic, biochemical, and physiologic improvement in the dystrophic phenotype in the mdx mouse. Moreover, myostatin messenger ribonucleic acid levels are decreased in the regenerated muscle of these mice, suggesting that myostatin may also be involved in the pathogenesis of the disease. To gain further insight into the possible role of myostatin in muscle degenerative diseases, the present work investigates the expression of muscle myostatin in children with muscular dystrophies and mitochondrial encephalomyopathies. No differences in the pattern of myostatin expression were evident in any case, even in those patients with prominent muscular atrophy. These findings suggest that muscle loss that can be observed in muscle degenerative diseases does not depend on changes in myostatin expression.

Differential response to exogenous and endogenous myostatin in myoblasts suggests that myostatin acts as an autocrine factor in vivo.

Myostatin is a member of the TGF-beta superfamily that is essential for proper regulation of skeletal muscle growth. As do other TGF-beta superfamily members, myostatin signals into the cell via a receptor complex that consists of two distinct transmembrane proteins, known as the type I and type II receptors. Vertebrates have seven distinct type I receptors, each of which can mix and match with one of five type I receptors to mediate signals for all the TGF-beta family ligands. Accumulating evidence indicates that myostatin shares its pair of receptors with activin, and therefore, the question arises about how specificity in signaling is achieved. Our hypothesis is that a mechanism has to exist to restrict myostatin actions to the muscle cells. To investigate this possibility, we compared the effect of endogenous myostatin (myostatin overexpressed by myoblasts) and exogenous myostatin (recombinant myostatin added to the culture medium) in cultured myoblasts. As opposed to exogenous myostatin, endogenous myostatin induced the transcription of a reporter vector in cultured myoblasts. Notably, the myostatin concentrations that failed to induce a response in myoblasts were effective in MCF-7 cells (human mammary carcinoma) and in HepG2 cells (human hepatic carcinoma). Based on our observations, we propose that a mechanism exists that differentially regulates the bioavailability of endogenous and exogenous myostatin to muscle cells. This is consistent with a model in which myostatin actions are exerted in vivo in an autocrine fashion.

Myostatin expression is regulated by underfeeding and neonatal programming in rats.

Confusing results have been reported regarding the influence of nutritional status on myostatin levels. Some studies indicate that short-term fasting results in increased myostatin mRNA levels in skeletal muscle, evident in several species. In contrast, other studies have demonstrated either a decrease or no change in myostatin levels during fasting. In the present study, we investigated the effect of different patterns of food deprivation on muscle myostatin expression in both newborn and adult rats. Adjustment of litter size in neonatal rats is a well-established model to study the effect of early overfeeding or underfeeding on body composition and in this study resulted in modifications in the pattern of muscle myostatin expression. Rat pups growing in large litters (22-24 newborns) showed a decrease in muscle myostatin mRNA and protein levels at 24 days of age. Interestingly, these effects were maintained at 60 days of age despite rats having free access to food since weaning, thus suggesting that changes in myostatin expression induced by neonatal reduction of food intake are long-lasting. In contrast, no changes in myostatin mRNA levels were observed in adult rats when food intake was decreased during 7 days by either food restriction or central leptin treatment. Similar results were obtained when food restriction was maintained in adult rats for a longer period (7 weeks), despite significant muscle loss. Overall, these data suggest that myostatin gene expression is programmed by nutritional status in neonatal life.

Estudo sorológico da co-infecção de leishmania infantum e mycobacterium leprae em área de alta endemicidade / Sorological sutdy of coinfection leishmania infantum e mmycobacterium leprae in area of endemicity high

Introdução: A região Nordeste é responsável por 55% dos casos de hanseníase e por quase 50% dos casos de Leishmaniose visceral no Brasil. O Ceará, em especial a capital Fortaleza, é responsável por um grande número de casos novos dessas doenças. Este fato é reforçado pela correlação na distribuição de casos dessas patologias por municípios do estado do Ceará,onde de acordo com os dados da Secretaria de Saúde do Estado (2013), observa-se forte correlação epidemiológica entre os casos de hanseníase e do Leishmaniose visceral nos 184 municípios principalmente em Fortaleza. Objetivos: Nosso objetivo foi analisar a produção de anticorpos IgM anti-PGL1 em pacientes com Calazar sem tratamento. Material e métodos: 28 pacientes com confirmação clínico-laboratorial para Leishmaniose visceral acompanhados no Hospital São José de Doenças Infecciosas. Resultados: Quanto ao gênero, 21 foram do sexo masculino e 7 do sexo feminino, com mediana de idade de 20,5 anos (var. 3 a 76 anos), dos quais 15 pacientes não necessitaram internamento e 13 foram internados por um período médio de 28 dias (var. 5 a 28 dias). A média e desvio-padrão do índice de IgM anti-PGL1 foi de 1,91 + 0,69, sendo 78,6% considerados soropositivos. Conclusão: Não foi observada qualquer diferença entre gênero,idade, necessidade ou não de internamento, ou tempo de tratamento. A alta frequência de IgM anti-PGL1 positiva pode ser secundária à ativiação policlonal que ocorre na Leishmaniose visceral, dificultando a possibilidade de detecção da infecção pelo M. leprae por avaliação sorológica em região de alta endemicidade para Leishmaniose visceral.

Introduction: The Northeast region accounts for 55% of leprosy cases and nearly 50% of cases of visceral leishmaniasis in Brazil. Ceará, in particular the Fortaleza capital is responsible for a large number of new cases of these diseases. This fact is reinforced by the correlation in the distribution of cases of these diseases in the state of Ceará counties where according to the data of the State Health Departament (2013), we observed strong epidemiological correlation between cases of leprosy and visceral leishmaniasis in 184 counties mostly in Fortaleza. Objectives: Our objective was to analyze the production of anti-PGL1 IgM antibodies in patients with visceral leishmaniasis untreated. Materials and Methods: 28 patients with clinical and laboratory confirmation for visceral leishmaniasis followed at SãoJosé Hospital for Infectious Diseases. Results: As togender, 21 were males and 7 females, with a median age of 20,5 years (var 3-76 years.), Of which 15 patients did not require hospitalization and 13 were hospitalized for an average 28 days (var. 5 to 28 days). The mean and standard deviation of the anti-IgM PGL1 index was 1.91 ± 0.69, and 78.6% considered seropositive. Conclusion: It was not observed any difference between gender, age, necessity or not hospitalization, or time treatment. The high frequency of positive IgM anti-PGL1,can be secondary to polyclonal activation occurring in kala-azar, hindering the possibility of detection of M. leprae infection by serologic evaluation in high endemicity area for visceral leishmaniasis.

Myostatin is an inhibitor of myogenic differentiation.

Myostatin (MSTN), a transforming growth factor (TGF)-beta superfamily member, has been shown to negatively regulate muscle growth by inhibiting muscle precursor cell proliferation. Here, we stably transfected C(2)C(12) cells with mouse MSTN cDNA to investigate its possible role in myoblast differentiation. We found that MSTN cDNA overexpression reversibly inhibits the myogenic process by downregulating mRNA levels of the muscle regulatory factors myoD and myogenin, as well as the activity of their downstream target creatine kinase. Taking into consideration that MSTN expression during development is restricted to muscle, our results suggest that MSTN probably regulates myogenic differentiation by an autocrine mechanism.

Myostatin expression is regulated by underfeeding and neonatal programming in rats

Confusing results have been reported regarding the influence of nutritional status on myostatin levels. Some studies indicate that short-term fasting results in increased myostatin mRNA levels in skeletal muscle, evident in several species. In contrast, other studies have demonstrated either a decrease or no change in myostatin levels during fasting. In the present study, we investigated the effect of different patterns of food deprivation on muscle myostatin expression in both newborn and adult rats. Adjustment of litter size in neonatal rats is a well-established model to study the effect of early overfeeding or underfeeding on body composition and in this study resulted in modifications in the pattern of muscle myostatin expression. Rat pups growing in large litters (22–24 newborns) showed a decrease in muscle myostatin mRNA and protein levels at 24 days of age. Interestingly, these effects were maintained at 60 days of age despite rats having free access to food since weaning, thus suggesting that changes in myostatin expression induced by neonatal reduction of food intake are long-lasting. In contrast, no changes in myostatin mRNA levels were observed in adult rats when food intake was decreased during 7 days by either food restriction or central leptin treatment. Similar results were obtained when food restriction was maintained in adult rats for a longer period (7 weeks), despite significant muscle loss. Overall, these data suggest that myostatin gene expression is programmed by nutritional status in neonatal life (AU)