James D. Hudson scite author profile

p53 has a key role in the negative regulation of cell proliferation, in the maintenance of genomic stability, and in the suppression of transformation and tumorigenesis. To identify novel regulators of p53, we undertook two functional screens to isolate genes which bypassed either p53-mediated growth arrest or apoptosis. In both screens, we isolated cDNAs encoding macrophage migration inhibitory factor (MIF), a cytokine that was shown previously to exert both local and systemic proinflammatory activities. Treatment with MIF overcame p53 activity in three different biological assays, and suppressed its activity as a transcriptional activator. The observation that a proinflammatory cytokine, MIF, is capable of functionally inactivating a tumor suppressor, p53, may provide a link between inflammation and tumorigenesis.

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p16INK4A and p19ARF act in overlapping pathways in cellular immortalization

Carnero¹,

Hudson²,

Price³

et al. 2000

Nat Cell Biol

266

225

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The INK4A locus encodes two independent but overlapping genes, p16INK4A and p19ARF, and is frequently inactivated in human cancers. The unusual structure of this locus has lead to ambiguity regarding the biological role of each gene. Here we express, in primary mouse embryonic fibroblasts (MEFs), antisense RNA constructs directed specifically towards either p16INK4A or p19 ARF. Such constructs induce extended lifespan in primary MEFs; this lifespan extension is reversed upon subsequent elimination of the p16INK4A or p19ARF antisense constructs. In immortal derivatives of cell lines expressing antisense p16INK4A or p19ARF RNA, growth arrest induced by recovery of p16INK4A expression is bypassed by compromising the function of the retinoblastoma protein (Rb), whereas growth arrest induced by re-expression of p19ARF is overcome only by simultaneous inactivation of both the Rb and the p53 pathways. Thus, the physically overlapping p16INK4A and p19ARF genes act in partly overlapping pathways.

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Thecdr2⁺Gene Encodes a Regulator of G₂/M Progression and Cytokinesis inSchizosaccharomyces pombe

Hudson

Balasubramanian

et al. 1998

MBoC

103

101

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Schizosaccharomyces pombe cells respond to nutrient deprivation by altering G2/M cell size control. The G2/M transition is controlled by activation of the cyclin-dependent kinase Cdc2p. Cdc2p activation is regulated both positively and negatively. cdr2(+) was identified in a screen for regulators of mitotic control during nutrient deprivation. We have cloned cdr2(+) and have found that it encodes a putative serine-threonine protein kinase that is related to Saccharomyces cerevisiae Gin4p and S. pombe Cdr1p/Nim1p. cdr2(+) is not essential for viability, but cells lacking cdr2(+) are elongated relative to wild-type cells, spending a longer period of time in G2. Because of this property, upon nitrogen deprivation cdr2(+) mutants do not arrest in G1, but rather undergo another round of S phase and arrest in G2 from which they are able to enter a state of quiescence. Genetic evidence suggests that cdr2(+) acts as a mitotic inducer, functioning through wee1(+), and is also important for the completion of cytokinesis at 36 degrees C. Defects in cytokinesis are also generated by the overproduction of Cdr2p, but these defects are independent of wee1(+), suggesting that cdr2(+) encodes a second activity involved in cytokinesis.

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The wee1 protein kinase is required for radiation-induced mitotic delay

Rowley

Hudson

Young

1992

Nature

131

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Cellular feedback or 'checkpoint' mechanisms maintain the order of completion of essential, cell-cycle related functions. In the budding yeast, for example, the RAD9 gene product is required to delay progression into mitosis in response to DNA damage. Similarly, in fission yeast, the cdc25 and cdc2 gene products influence the ability of cells to delay mitosis in response to the inhibition of DNA synthesis. Because these two checkpoint controls regulate the same event, mitosis, we observed the effect of gamma-irradiation on cell cycle progression in fission yeast, to test whether the two controls require the same cell-cycle regulatory elements. We show that gamma-radiation-induced mitotic delay requires functional wee1 protein kinase but does not seem to involve the cdc25 pathway. Mitotic delay in response to DNA damage is thus distinct from the delay induced by inhibition of DNA synthesis, which involves cdc25 but is not dependent on wee1.

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Enamel wear caused by three different restorative materials

Hudson¹,

Goldstein²,

Georgescu³

1995

The Journal of Prosthetic Dentistry

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James D. Hudson

A Proinflammatory Cytokine Inhibits P53 Tumor Suppressor Activity

p16INK4A and p19ARF act in overlapping pathways in cellular immortalization

Thecdr2⁺Gene Encodes a Regulator of G₂/M Progression and Cytokinesis inSchizosaccharomyces pombe

The wee1 protein kinase is required for radiation-induced mitotic delay

Enamel wear caused by three different restorative materials

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James D. Hudson

A Proinflammatory Cytokine Inhibits P53 Tumor Suppressor Activity

p16INK4A and p19ARF act in overlapping pathways in cellular immortalization

Thecdr2+Gene Encodes a Regulator of G2/M Progression and Cytokinesis inSchizosaccharomyces pombe

The wee1 protein kinase is required for radiation-induced mitotic delay

Enamel wear caused by three different restorative materials

Contact Info

Product

Resources

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Thecdr2⁺Gene Encodes a Regulator of G₂/M Progression and Cytokinesis inSchizosaccharomyces pombe