MJ Smith scite author profile

MJ Smith

2Publications

6Citation Statements Received

0Citation Statements Given

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University of Michigan–Ann Arbor

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Amplified expression of three jun family members inhibits erythroleukemia differentiation

Prochownik

Smith

Snyder

et al. 1990

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Several different proto-oncogenes have been shown to influence cellular differentiation. One of the most widely studied model systems has been the Friend murine erythroleukemia cell (F-MELC) line, which can be induced to undergo erythroid differentiation by a variety of chemical agents. Constitutive overexpression of either the c-myc or c-myb proto- oncogenes has been previously shown to inhibit F-MELC differentiation, whereas c-myc antisense sequences accelerate the process. To investigate the potential involvement of other proto-oncogenes and immediate early response genes in F-MELC differentiation, we studied the expression of the three known members of the jun family as well as another gene, egr-1, which, like the jun family members, is expressed as an immediate early response gene in growth factor-stimulated quiescent cells. All four genes were expressed in F-MELC, although the levels of expression and modes of regulation differed. Transfection with amplifiable c-jun, junB, or junD expression plasmids inhibited differentiation, whereas transfection with an egr-1 expression plasmid was without effect. These results indicate that jun family members play a role in mediating F-MELC differentiation. The known inhibitory effect of phorbol ester tumor promoters on F-MELC differentiation may be the result of their known stimulation of jun expression.

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Inhibition of c-jun causes reversible proliferative arrest and withdrawal from the cell cycle

Smith

Prochownik

1992

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We studied the effect of c-jun depletion in Friend murine erythroleukemia (F-MEL) cells stably transfected with a plasmid that allowed for the glucocorticoid-mediated conditional expression of c-jun antisense sequences. The c-jun cDNA used for the construction of the vector was modified so as to prevent the nonspecific targeting of junB and junD transcripts. High level and rapid induction of c-jun antisense transcripts was achieved with as little as 10(-8) mol/L dexamethasone (DEX) and resulted in a 80% to 90% reduction in c-jun protein levels. The continuous exposure of the transfected cells to DEX inhibited growth by greater than 85% over a 5-day period, whereas DEX had no effect on the growth rate of control F-MEL cells. This proliferative block was associated with a reversible accumulation of cells with a 2n DNA content. When these cells were recultured in the absence of DEX, c- jun protein rapidly reappeared and the immediate early response genes egr-1, junB, and c-myc were transiently expressed. Thus, inhibition of c-jun protein causes logarithmically growing cells to leave the cell cycle and to enter a state closely resembling, if not identical to, G0. These results underscore the importance of c-jun in maintaining cellular proliferation and provide additional evidence for the participation of proto-oncogenes in cell cycle control.

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MJ Smith

Amplified expression of three jun family members inhibits erythroleukemia differentiation

Inhibition of c-jun causes reversible proliferative arrest and withdrawal from the cell cycle

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