Graduate student, Sruti Rayaprolu, first author on article in J. of Comparative Neurology on Feb 15, 2016

Heterogeneity of Matrin 3 in the developing and aging murine central nervous system. Rayaprolu S, D’Alton S, Crosby K, Moloney C, Howard J, Duffy C, Cabrera M, Siemienski Z, Hernandez AR, Gallego-Iradi C, Borchelt DR, Lewis J. J Comp Neurol 2016.

Mutations in the MATR3 gene encoding the nucleotide binding protein Matrin 3 have recently been identified as causing a subset of familial amyotrophic lateral sclerosis (fALS) and more rarely causing distal myopathy. Translating the identification of MATR3 mutations into an understanding of disease pathogenesis and the creation of mouse models requires a complete understanding of normal Matrin 3 levels and distribution in vivo. Consequently, we examined the levels of murine Matrin 3 in body tissues and regions of the central nervous system. We observed a significant degree of variability in Matrin 3 protein levels among different tissues of adult animals, with the highest levels found in reproductive organs and the lowest in muscle. Within the adult CNS, Matrin 3 levels were lowest in spinal cord. Further, we found that Matrin 3 declines significantly in CNS through early development and young adulthood before stabilizing. As previously reported, antibodies to Matrin 3 primarily stain nuclei; but the intensity of staining was not uniform in all nuclei. The low levels of Matrin 3 in spinal cord and muscle could mean that that these tissues are particularly vulnerable to alterations in Matrin 3 function. Our study is the first to characterize endogenous Matrin 3 in rodents across the lifespan, providing the groundwork for deciphering disease mechanisms and developing mouse models of MATR3-linked ALS. This article is protected by copyright. All rights reserved.

© 2016 Wiley Periodicals, Inc.

KEYWORDS:  Matrin 3; RRID: 151542; RRID: AB11128483; RRID: AB525453; SCR_013724; aging; amyotrophic lateral sclerosis; development; neurodegeneration