Your search keyword '"ACVR1B"' showing total 2 results

1. Implication of rare genetic variants of NODAL and ACVR1B in congenital heart disease patients from Indian population.

Author

Yadav ML, Ranjan P, Das P, Jain D, Kumar A, and Mohapatra B

Subjects

Adult, Amino Acid Sequence, Animals, Cell Line, Female, Humans, India, Male, Mice, Activin Receptors, Type I genetics, Asian People genetics, Genetic Predisposition to Disease genetics, Heart Defects, Congenital genetics, Nodal Protein genetics, Polymorphism, Single Nucleotide genetics

Abstract

NODAL signaling plays an essential role in vertebrate embryonic patterning and heart development. Accumulating evidences suggest that genetic mutations in TGF-β/NODAL signaling pathway can cause congenital heart disease in humans. To investigate the implication of NODAL signaling in isolated cardiovascular malformation, we have screened 300 non-syndromic CHD cases and 200 controls for NODAL and ACVR1B by Sanger sequencing and identified two rare missense (c.152C > T; p.P51L and c.981 T > A; p.D327E) variants in NODAL and a novel missense variant c.1035G > A; p.M345I in ACVR1B. All these variants are absent in 200 controls. Three-dimensional protein-modelling demonstrates that both p.P51L and p.D327E variations of NODAL and p.M345I mutation of ACVR1B, affect the tertiary structure of respective proteins. Variants of NODAL (p.P51L and p.D327E) and ACVR1B (p.M345I), significantly reduce the transactivation of AR3-Luc, (CAGA) 12 -Luc and (SBE) 4 -Luc promoters. Moreover, qRT-PCR results have also deciphered a reduction in the expression of cardiac-enriched transcription factors namely Gata4, Nkx2-5, and Tbx5 in both the mutants of NODAL. Decreased expression of, Gata4, Nkx2-5, Tbx5, and lefty is observed in p.M345I mutant of ACVR1B as well. Additionally, reduced phosphorylation of SMAD2/3 in response to these variants, suggests impaired NODAL signaling and possibly responsible for defective cell fate decision and differentiation of cardiomyocytes leading to CHD phenotype., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

2. Activin A improves the neurological outcome after ischemic stroke in mice by promoting oligodendroglial ACVR1B-mediated white matter remyelination.

Author

Zheng J, Zhang T, Han S, Liu C, Liu M, Li S, and Li J

Subjects

Activin Receptors, Type I genetics, Animals, Cell Count, Cell Proliferation drug effects, Corpus Callosum pathology, Demyelinating Diseases drug therapy, Demyelinating Diseases pathology, Ischemic Stroke pathology, Male, Mice, Mice, Inbred C57BL, Myelin Sheath pathology, Reperfusion Injury drug therapy, Reperfusion Injury genetics, Reperfusion Injury pathology, Treatment Outcome, Activin Receptors, Type I metabolism, Activins therapeutic use, Ischemic Stroke drug therapy, Myelin Sheath drug effects, Neuroprotective Agents therapeutic use, Oligodendroglia drug effects, White Matter pathology

Abstract

Activin A plays important roles in ischemic injury and white matter remyelination, but its mechanisms are unclear. In this study, the adult male C57BL/6 J mice were used to establish the model of 1 h middle cerebral artery occlusion/reperfusion (MCAO/R) 1 d to 28 d-induced ischemic stroke in vivo. We found that the neurological outcome was positively correlated with the levels of myelin associated proteins (include MAG, CNPase, MOG and MBP, n = 6 per group) both in corpus callosum and internal capsule of mice with ischemic stroke. The dynamic changes of Luxol fast blue (LFB) staining intensity, oligodendrocyte (CC1 + ) and proliferated oligodendrocyte precursor (Ki67 + /PDGFRα + ) cell numbers indicated demyelination and spontaneous remyelination occurred in the corpus callosum of mice after 1 h MCAO/R 1 d-28 d (n = 6 per group). Activin receptor type I (ACVR1) inhibitor SB431542 aggregated neurological deficits, and reduced MAG, MOG and MBP protein levels of mice with ischemic stroke (n = 6 per group). Meanwhile, recombinant mouse (rm) Activin A enhanced the neurological function recovery, MAG, MOG and MBP protein levels of mice with 1 h MCAO/R 28 d. In addition, the injection of AAV-based ACVR1B shRNA with Olig2 promoter could reverse rmActivin A-induced the increases of CC1 + cell number, LFB intensity, MAG, MOG and MBP protein levels in the corpus callosum (n = 6 per group), and neurological function recovery (n = 10 per group) of mice with 1 h MCAO/R 28 d. These results suggested that Activin A improves the neurological outcome through promoting oligodendroglial ACVR1B-mediated white matter remyelination of mice with ischemic stroke, which may provide a potential therapeutic strategy for ischemic stroke., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021