Phillip D. Gray scite author profile

Conditional deletion of β1 integrins in the intestinal epithelium, unlike in epidermal and mammary epithelia, of mice does not result in decreased cell adhesion and proliferation, but instead causes a profound increase in epithelial proliferation with dysplasia and polypoid structures. The increased epithelial proliferation inhibited epithelial differentiation that caused severe malnutrition and early postnatal lethality. The striking similarities between β1 integrin–deleted mice and neonatal mice with defective Hedgehog signaling led to the discovery that Hedgehog expression was markedly reduced in the former mice. β1 integrins were found to drive the expression of Hedgehogs in intestinal epithelial cells in an HNF-3β (Foxa2)–dependent fashion. The expression of Tcf-4, a transcription factor known to be required for intestinal epithelial stem cell proliferation, was increased and mislocalized in the intestinal epithelia of the β1 integrin–deleted mice and in newborn mice treated with the Hedgehog signaling inhibitor cyclopamine. This study shows that β1 integrins are key regulators of proliferation and homeostasis in the intestine and achieve this not through anchorage-dependent effects but by generating Hh expression and signaling.

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The Toxicity of Metabolites of Sodium Valproate in Cultured Hepatocytes

Kingsley

Gray

Tolman

et al. 1983

The Journal of Clinical Pharma

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Sodium valproate is hepatotoxic in both humans and rat hepatocytes. The toxicity is dose related and frequently associated with simultaneous ingestion of drugs which induce the drug metabolizing system. For these reasons, metabolites of sodium valproate were tested for toxicity using rat hepatocyte cultures. The sodium salts of three metabolites, 2-propylpent-4-enoate, 4-hydroxyvalproate, and perhaps 5-hydroxyvalproate, were toxic in this system. In addition, 2-propylpent-4-enoate was toxic in a dose-related fashion. All are omega and omega-1 oxidation products in the microsome-mediated pathway of valproate metabolism.

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The marine alkaloid naamidine A promotes caspase-dependent apoptosis in tumor cells

LaBarbera¹,

Modzelewska²,

Glazar

et al. 2009

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Apoptosis is important for normal development and removal of damaged cells. Evasion of apoptosis by cancer cells is one of the key characteristics of many tumor types. Thus, discovering agents that promote apoptosis in tumor cells could have great therapeutic value. Marine natural products have demonstrated great potential as anticancer agents, and the proapoptotic activity of some of these products is emerging as a potentially useful property for cancer treatments. Using a tumor xenograft assay in rodents, we previously found that the marine alkaloid naamidine A is a potent antitumor agent. In this study, we further characterize the mechanism of action of naamidine A. In cultured tumor cells, we find that naamidine A induces cell death, which is accompanied with annexin V staining, disruption of the mitochondrial membrane potential, and cleavage and activation of caspases 3, 8, and 9, all of which are hallmarks of apoptosis. Furthermore, naamidine A-induced cell death is caspase dependent. We also find that under conditions where naamidine A inhibits tumor xenograft growth, it induces activation of caspase 3, suggesting that apoptosis is part of its antitumorigenic activity in vivo. Apoptosis is not dependent on extracellular signal-regulated kinase 1/2, previously characterized molecular targets of naamidine A, nor does it require functional p53. Our studies support the continued study of naamidine A and its target(s) for the potential development of better clinical treatments for cancer.

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Effects of trastuzumab on epidermal growth factor receptor‐dependent and ‐independent human colon cancer cells

Kuwada

Scaife

Kuang

et al. 2003

Intl Journal of Cancer

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Phillip D. Gray

Conditional deletion of β1 integrins in the intestinal epithelium causes a loss of Hedgehog expression, intestinal hyperplasia, and early postnatal lethality

The Toxicity of Metabolites of Sodium Valproate in Cultured Hepatocytes

The marine alkaloid naamidine A promotes caspase-dependent apoptosis in tumor cells

Effects of trastuzumab on epidermal growth factor receptor‐dependent and ‐independent human colon cancer cells

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