Your search keyword '"Weyman, C.M."' showing total 2 results

1. Active Ras-induced effects on skeletal myoblast differentiation and apoptosis are independent of constitutive PI3-kinase activity

Author

Karasarides, M., Dee, K., Schulman, D., Wolfman, A., and Weyman, C.M.

Subjects

MYOBLASTS, CELL lines, APOPTOSIS, NUCLEOTIDES

Abstract

Abstract: 23A2 myoblasts expressing GAP-resistant, constitutively active G12V:H-Ras (A2:G12V:H-Ras myoblasts) display a transformed morphology and do not undergo mitogen-deprivation-induced differentiation or the associated apoptosis. To determine the phenotype induced by F156L:H-Ras, a constitutively active mutant with enhanced nucleotide exchange activity rather than impaired GAP-stimulated GTPase activity, myoblast cell lines were established that stably express F156L:H-Ras at levels of H-Ras comparable to the A2:G12V:H-Ras myoblasts. These A2:F156L:H-Ras myoblast cell lines do not possess a transformed morphology, and while differentiation and apoptosis are impaired, these processes are not abrogated as in the A2:G12V:H-Ras myoblasts. Surprisingly, while expression of either G12V:H-Ras or F156L:H-Ras results in constitutive signaling through PI3-kinase, only cells expressing G12V:H-Ras additionally possess constitutive signaling through MAPK, and NFκB. Pharmacological abrogation of the Ras-induced constitutive PI3-kinase signal, however, is not responsible for the impaired differentiation or apoptosis in either A2:G12V:H-Ras myoblasts or A2:F156L:H-Ras myoblasts. Thus, our data suggest that a pathway distinct from those that signals through MAPK, NFκB or PI3-kinase is responsible for the impaired differentiation and apoptosis in 23A2 skeletal myoblasts expressing constitutively active Ras. [Copyright &y& Elsevier]

Published

2006

2. Apoptosis coincident with the differentiation of skeletal myoblasts is delayed by caspase 3 inhibition and abrogated by MEK-independent constitutive Ras signaling.

Author

Dee, K., Freer, M., Mei, Y., and Weyman, C.M.

Subjects

APOPTOSIS, RENIN-angiotensin system

Abstract

We demonstrate that during 23A2 skeletal myoblast differentiation, between 30-35% of the population apoptose. Both differentiation and apoptosis are controlled by the variables of cell density and time and these variables are inversely related. in response to conditions that permit both differentiation and apoptosis of parental 23A2 myoblasts, myoblasts rendered differentiation-defective by constitutive Ras signaling (A2:HRas myoblasts) do not apoptose. This is not merely a consequence of their differentiation-defective phenotype since myoblasts rendered differentiation-defective by expression of E1A (A2:E1A myoblasts) still apoptose. Although signaling through MEK is important to the survival of proliferating parental 23A2 myoblasts, constitutive signaling through MEK is not responsible for the survival of A2:H-Ras myoblasts. Finally, we demonstrate that caspase 3 is activated and that pharmacological inhibition of caspase 3 activity delays apoptosis without affecting differentiation. Abrogating apoptosis without affecting differentiation could be a useful approach to improve the efficacy of myoblast transfer in the treatment of muscular dystrophies. [ABSTRACT FROM AUTHOR]

Published

2002