Your search keyword '"Myosin-IIB"' showing total 3 results

1. Glibenclamide treatment modulates the expression and localization of myosin-IIB in diabetic rat brain.

Author

da Costa, Alice Vieira, Calábria, Luciana Karen, de Souza Santos, Paula, Goulart, Luiz Ricardo, and Espindola, Foued Salmen

Subjects

*MYOSIN, *GLIBENCLAMIDE, *DIABETES, *HYPERGLYCEMIA, *GENE expression, *LEARNING disabilities

Abstract

Abstract: Background: Myosin-IIB is a non-muscle isoform in the brain with increased expression in the brains of diabetic rats. Chronic hyperglycemia caused by diabetes can impair learning and memory. Oral hypoglycemic agents such as glibenclamide have been used to control hyperglycemia. We report changes in the expression and distribution of myosin-IIB in the frontal cortex and hippocampus of diabetic rats treated with glibenclamide. Methods: The brains were removed after 43days of treatment with glibenclamide (6mg/kg bw orally), homogenized and analyzed by Western blotting, qRT-PCR and immunohistochemistry. Results: Myosin-IIB expression increased in the brains of diabetic rats. However, protein expression returned to control levels when treated with glibenclamide. In addition, the expression of MYH10 gene encoding non-muscle myosin heavy chain-B decreased in diabetic rats treated with glibenclamide. Moreover, we found weak myosin-IIB labeling in the hippocampus and frontal cortex of rats treated with glibenclamide. Therefore, the expression of myosin-IIB is affected by diabetes mellitus and may be modulated by glibenclamide treatment in rats. Structural changes in the hippocampus and prefrontal cortex are reversible, and glibenclamide treatment may reduce the patho-physiological changes in the brain. Conclusions: Our findings can contribute to the understanding of the regulation of myosins in the brains of diabetic rats. [Copyright &y& Elsevier]

Published

2014

2. The PDZ-binding motif of MCC is phosphorylated at position −1 and controls lamellipodia formation in colon epithelial cells

Author

Pangon, Laurent, Van Kralingen, Christa, Abas, Melissa, Daly, Roger J., Musgrove, Elizabeth A., and Kohonen-Corish, Maija R.J.

Subjects

*PHOSPHORYLATION, *LAMELLIPODIA, *COLON (Anatomy), *EPITHELIAL cells, *POST-translational modification, *COLON cancer, *SERINE

Abstract

Abstract: In this study, we describe a new post-translational modification at position −1 of the PDZ-binding motif in the mutated in colorectal cancer (MCC) protein and its role in lamellipodia formation. Serine 828 at position −1 of this motif is phosphorylated, which is predicted to increase MCC binding affinity with the polarity protein Scrib. We show that endogenous MCC localizes at the active migratory edge of cells, where it interacts with Scrib and the non-muscle motor protein Myosin-IIB. Expression of MCC harboring a phosphomimetic mutation MCC-S828D strongly impaired lamellipodia formation and resulted in accumulation of Myosin-IIB in the membrane cortex fraction. We propose that MCC regulates lamellipodia formation by binding to Scrib and its downstream partner Myosin-IIB in a multiprotein complex. Importantly, we propose that the function of this complex is under the regulation of a newly described phosphorylation of the PDZ-binding motif at position −1. [Copyright &y& Elsevier]

Published

2012

3. Overexpression of myosin-IIB in the brain of a rat model of streptozotocin-induced diabetes

Author

Calábria, Luciana Karen, da Cruz, Gabriel Costa Nunes, Nascimento, Rafael, Carvalho, Washington João, de Gouveia, Neire Moura, Alves, Fernanda Vieira, Furtado, Fabiana Barcelos, Ishikawa-Ankerhold, Hellen Cristina, de Sousa, Marcelo Valle, Goulart, Luiz Ricardo, and Espindola, Foued Salmen

Subjects

*MYOSIN, *STREPTOZOTOCIN, *DIABETES, *LABORATORY rats, *CALMODULIN, *ENZYMES, *PROTEIN binding, *CHROMATOGRAPHIC analysis, *REVERSE transcriptase polymerase chain reaction, *HYPERGLYCEMIA, *CALCIUM

Abstract

Abstract: The Ca2+/calmodulin complex interacts with and regulates various enzymes and target proteins known as calmodulin-binding proteins (CaMBPs). This group of proteins includes molecular motors such as myosins. In this study, we show that non-muscle myosin-IIB is overexpressed in the brains of diabetic rats. We isolated CaMBPs from the brains of non-diabetic rats and rats with streptozotocin-induced diabetes and purified them by immobilized-calmodulin affinity chromatography. The proteins were eluted with EGTA and urea, separated by SDS-PAGE, digested and submitted to peptide mass fingerprinting analysis. Thirteen intense bands were found in both types of brains, two were found exclusively in non-diabetic brains and four were found exclusively in diabetic brains. A large fraction of the eluted proteins contained putative IQ motifs or calmodulin-binding sites. The results of the myosin-IIB affinity chromatography elution, western blot and RT-PCR analyses suggest that myosin-IIB protein and mRNA are expressed at high levels in diabetic brains. This is the first study that has demonstrated differential expression of CaMBPs in diabetic and non-diabetic brain tissue through a comparative proteomic analysis, and it opens up a new approach to studying the relationship between the expression of myosins in the brain, hyperglycemia and intracellular calcium regulation. [Copyright &y& Elsevier]

Published

2011