Rheem D. Medh scite author profile

Three closely related clones of leukemic lymphoid CEM cells were compared for their gene expression responses to the glucocorticoid dexamethasone (Dex). All three contained receptors for Dex, but only two responded by undergoing apoptosis. After a time of exposure to Dex that ended late in the interval preceding onset of apoptosis, gene microarray analyses were carried out. The results indicate that the expression of a limited, distinctive set of genes was altered in the two apoptosis-prone clones, not in the resistant clone. That clone showed altered expression of different sets of genes, suggesting that a molecular switch converted patterns of gene expression between the two phenotypes: apoptosis-prone and apoptosis-resistant. The results are consistent with the hypothesis that altered expression of a distinctive network of genes after glucocorticoid administration ultimately triggers apoptosis of leukemic lymphoid cells. The altered genes identified provide new foci for study of their role in cell death.

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Purification and characterization of dinitrophenylglutathione ATPase of human erythrocytes and its expression in other tissues

Sharma

Gupta

Singh

et al. 1990

Biochemical and Biophysical Research Communications

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Hormonal regulation of physiological cell turnover and apoptosis

Medh

Thompson

2000

Cell Tissue Res

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Physiological cell turnover plays an important role in maintaining normal tissue function and architecture. This is achieved by the dynamic balance of cellular regeneration and elimination, occurring periodically in tissues such as the uterus and mammary gland, or at constant rates in tissues such as the gastrointestinal tract and adipose tissue. Apoptosis has been identified as the prevalent mode of physiological cell loss in most tissues. Cell turnover is precisely regulated by the interplay of various endocrine and paracrine factors, which modulate tissue and cell-specific responses on proliferation and apoptosis, either directly, or by altering expression and function of key cell proliferative and/or death genes. Although recent studies have provided significant information on specific tissue systems, a clearly defined pathway that mediates cell turnover has not yet emerged for any tissue. Several similarities exist among the various tissues with regard to the intermediates that regulate tissue homeostasis, enabling a better understanding of the general mechanisms involved in the process. Here we review the mechanisms by which hormonal and cytokine factors mediate cell turnover in various tissues, emphasizing common themes and tissue-specific differences.

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Primary and secondary structural analyses of glutathione S-transferase π from human placenta

Ahmad¹,

Wilson²,

Fritz³

et al. 1990

Archives of Biochemistry and Biophysics

106

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Glutathione and glutathione S-transferases in a human plasma cell line resistant to melphalan

Gupta

Singh

Ahmad

et al. 1989

Biochemical Pharmacology

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Rheem D. Medh

Gene expression profile of human lymphoid CEM cells sensitive and resistant to glucocorticoid-evoked apoptosis

Purification and characterization of dinitrophenylglutathione ATPase of human erythrocytes and its expression in other tissues

Hormonal regulation of physiological cell turnover and apoptosis

Primary and secondary structural analyses of glutathione S-transferase π from human placenta

Glutathione and glutathione S-transferases in a human plasma cell line resistant to melphalan

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