Hena R. Ashar scite author profile

Growth is one of the fundamental aspects in the development of an organism. Classical genetic studies have isolated four viable, spontaneous mouse mutants disrupted in growth, leading to dwarfism. Pygmy is unique among these mutants because its phenotype cannot be explained by aberrations in the growth hormone-insulin-like growth factor endocrine pathway. Here we show that the pygmy phenotype arises from the inactivation of Hmgi-c (ref. 6), a member of the Hmgi family which function as architectural factors in the nuclear scaffold and are critical in the assembly of stereospecific transcriptional complexes. Hmgi-c and another Hmgi family member, Hmgi(gamma) (ref. 10), were found to be expressed predominantly during embryogenesis. The HMGI proteins are known to be regulated by cell cycle-dependent phosphorylation which alters their DNA binding affinity. These results demonstrate the important role of HMGI proteins in mammalian growth and development.

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Human survivin is negatively regulated by wild-type p53 and participates in p53-dependent apoptotic pathway

Mirza¹,

McGuirk²,

Hockenberry³

et al. 2002

Oncogene

495

418

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Survivin is an inhibitor of apoptosis protein, which is over-expressed in most tumors. Aberrant expression of survivin and loss of wild-type p53 in many tumors prompted us to investigate a possible link between these two events. Here we show that wild-type p53 represses survivin expression at both mRNA and protein levels. Transient transfection analyses revealed that the expression of wild-type p53, but not mutant p53, was associated with strong repression of the survivin promoter in various cell types. The over-expression of exogenous survivin protein rescues cells from p53-induced apoptosis in a dose-dependent manner, suggesting that loss of survivin mediates, at least, in part the p53-dependent apoptotic pathway. In spite of the presence of two putative p53-binding sites in the survivin promoter, deletion and mutation analyses suggested that neither site is required for transcriptional repression of survivin expression. This was con®rmed by chromatin immunoprecipitation assays. Further analyses suggested that the modi®cation of chromatin within the survivin promoter could be a molecular explanation for silencing of survivin gene transcription by p53.

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Farnesyl Transferase Inhibitors Block the Farnesylation of CENP-E and CENP-F and Alter the Association of CENP-E with the Microtubules

Ashar¹,

James²,

Gray³

et al. 2000

Journal of Biological Chemistry

314

256

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Disruption of the architectural factor HMGI-C: DNA-binding AT hook motifs fused in lipomas to distinct transcriptional regulatory domains

Ashar

Fejzo

Tkachenko

et al. 1995

Cell

386

266

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Lipomas are one of the most common mesenchymal neoplasms in humans. They are characterized by consistent cytogenetic aberrations involving chromosome 12 in bands q14-15. Interestingly, this region is also the site of rearrangement for other mesenchymally derived tumors. This study demonstrates that HMGI-C, an architectural factor that functions in transcriptional regulation, has been disrupted by rearrangement at the 12q14-15 chromosomal breakpoint in lipomas. Chimeric transcripts were isolated from two lipomas in which HMGI-C DNA-binding domains (AT hook motifs) are fused to either a LIM or an acidic transactivation domain. These results, identifying a gene rearranged in a benign neoplastic process that does not proceed to a malignancy, suggest a role for HMGI-C in adipogenesis and mesenchyme differentiation.

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The Farnesyl Transferase Inhibitor SCH 66336 Induces a G2 → M or G1 Pause in Sensitive Human Tumor Cell Lines

Ashar¹,

James²,

Gray³

et al. 2001

Experimental Cell Research

106

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Hena R. Ashar

Mutation responsible for the mouse pygmy phenotype in the developmentally regulated factor HMGI-C

Human survivin is negatively regulated by wild-type p53 and participates in p53-dependent apoptotic pathway

Farnesyl Transferase Inhibitors Block the Farnesylation of CENP-E and CENP-F and Alter the Association of CENP-E with the Microtubules

Disruption of the architectural factor HMGI-C: DNA-binding AT hook motifs fused in lipomas to distinct transcriptional regulatory domains

The Farnesyl Transferase Inhibitor SCH 66336 Induces a G2 → M or G1 Pause in Sensitive Human Tumor Cell Lines

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