![Sample our Bioscience journals, sign in here to start your access, Latest two full volumes FREE to you for 14 days]({"type":"image" , "src" : "/sda/5925/TOC-Subject-Sample-2021-Bioscience.jpg"})
Abstract
Determination and differentiation of skeletal muscle precursors requires cell-cell contact, but the full range of cell surface proteins that mediate this requirement and the mechanisms by which they work are not known. To identify participants in cell contact-mediated regulation of myogenesis, genes that encode secreted proteins specifically upregulated during differentiation of C2C12 myoblasts were identified by the yeast signal sequence trap method (K. A. Jacobs, L. A. Collins-Racie, M. Colbert, M. Duckett, M. Golden-Fleet, K. Kelleher, R. Kriz, E. R. La Vallie, D. Merberg, V. Spaulding, J. Stover, M. J. Williamson, and J. M. McCoy, Gene 198:289–296, 1997), followed by RNA expression analysis. We report here the identification of CD164 as a gene expressed in proliferating C2C12 cells that is upregulated during differentiation. CD164 encodes a widely expressed cell surface sialomucin that has been implicated in regulation of cell proliferation and adhesion during hematopoiesis. Stable overexpression of CD164 in C2C12 and F3 myoblasts enhanced their differentiation, as assessed by both morphological and biochemical criteria. Furthermore, expression of antisense CD164 or soluble extracellular regions of CD164 inhibited myogenic differentiation. Treatment of C2C12 cells with sialidase orO-sialoglycoprotease, two enzymes previously reported to destroy functional epitopes on CD164, also inhibited differentiation. These data indicate that (i) CD164 may play a rate-limiting role in differentiation of cultured myoblasts, (ii) sialomucins represent a class of potential effectors of cell contact-mediated regulation of myogenesis, and (iii) carbohydrate-based cell recognition may play a role in mediating this phenomenon.
ACKNOWLEDGMENTS
This work was supported by Public Health Service grants AR46207 and CA59474 from the NIH and a grant from the American Heart Association. J.-S.K. was supported by a fellowship from the Charles H. Revson Foundation and funds from the T.J. Martell Foundation for Leukemia, Cancer and AIDS Research. R.S.K. was a Career Scientist of the Irma T. Hirschl Trust and an Established Investigator of the American Heart Association during a portion of these studies.
The first two authors contributed equally.
We gratefully acknowledge Ken Jacobs and John McCoy for providing the yeast signal sequence trap system and for helpful advice; Justin Golub for his contribution to this study; David Sassoon, Phil Mulieri, Francesca Cole, Dario Coletti, and Jeanne Hirsch for critical reading of the manuscript; and the Mount Sinai DNA Sequencing Core Facility for sequencing.