Elke P. Clarke scite author profile

Abstract. To study the role of (pro)collagen synthesis in the differentiation of rat L6 skeletal myoblasts, a specific inhibitor of collagen synthesis, ethyl-3,4-dihydroxybenzoate (DHB), was utilized. It is shown that DHB reversibly inhibits both morphological and biochemical differentiation of myoblasts, if it is added to the culture medium before the cell alignment stage. The inhibition is alleviated partially by ascorbate, which along with ot-ketoglutarate serves as cofactor for the enzyme, prolyl hydroxylase. DHB drastically decreases the secretion of procollagen despite an increase in the levels of the mRNA for pmod(I) and proot2(I) chains. Probably, the procollagen chains produced in the presence of DHB, being underhydroxylated, are unable to fold into triple helices and are consequently degraded in situ. Along with the inhibition of procollagen synthesis, DHB also decreases markedly the production of a collagen-binding glycoprotein (gp46) present in the ER. The results suggest that procollagen production and/or processing is needed as an early event in the differentiation pathway of myoblasts.

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Cloning of a human collagen-binding protein, and its homology with rat gp46, chick hsp47 and mouse J6 proteins

Clarke

Sanwal

1992

Biochimica et Biophysica Acta (BBA) - Gene Structure and Expres

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Parallel regulation of procollagen I and colligin, a collagen-binding protein and a member of the serine protease inhibitor family.

Clarke

Jain

Brickenden

et al. 1993

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Abstract. A potential regulatory linkage between the biosynthesis of colligin, a collagen-binding protein of the ER, and procollagen I was examined under a variety of experimental conditions. Cell lines which did not produce a significant amount of procoUagen I mRNA also lacked the capacity to produce colligin mRNA. Anchorage-dependent cell lines like L6 myoblasts and normal rat kidney fibroblasts produced both colligin and procollagen I mRNA, but the level of both was concurrently reduced considerably in their ras-transformed counterparts. Similarly, during the differentiation of L6 myoblasts, levels of both colligin and procollagen declined together. Treatment of myoblasts by dexamethasone or EGF led to a decrease in the steady-state levels of procollagen I mRNA, and this was, again, accompanied by a decrease in colligin mRNA synthesis. On the other hand, when the rate of procollagen I synthesis was stimulated by treatment of myoblasts with TGF/3, it led to the concurrent augmentation of both the mRNA and protein levels of colligin. A linkage between the regulation of synthesis of procollagen I and colligin thus seems to exist. The only exception to this generalization is provided by the heat induction behavior of the two proteins. Treatment of myoblasts for a very short period leads to an increase in the synthesis of both the mRNA and protein levels of colligin. This, however, is not accompanied by a change in the mRNA levels of procollagen I. These studies establish that colligin and procollagen are generally tightly co-regulated except after heat shock, suggesting an important functional linkage.

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A collagen-binding protein in the endoplasmic reticulum of myoblasts exhibits relationship with serine protease inhibitors.

Clarke

Cates

Ball

et al. 1991

Journal of Biological Chemistry

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Glycoprotein glycans may not be necessary for the differentiation of skeletal myoblasts

Clarke¹,

Nandan²,

Brickenden³

et al. 1989

Experimental Cell Research

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Elke P. Clarke

Ethyl-3,4-dihydroxybenzoate inhibits myoblast differentiation: evidence for an essential role of collagen.

Cloning of a human collagen-binding protein, and its homology with rat gp46, chick hsp47 and mouse J6 proteins

Parallel regulation of procollagen I and colligin, a collagen-binding protein and a member of the serine protease inhibitor family.

A collagen-binding protein in the endoplasmic reticulum of myoblasts exhibits relationship with serine protease inhibitors.

Glycoprotein glycans may not be necessary for the differentiation of skeletal myoblasts

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