Mohamed A. Ghafar scite author profile

SUMMARY: Previous molecular and blood flow studies performed on animal models of partial bladder outlet obstruction (PBOO) caused us to propose that bladder hypoxia/ischemia was a significant effector of the cellular and functional changes that occur in the bladder as a result of this condition. To confirm the occurrence of hypoxia in the partially obstructed bladder, we obtained rat bladders at increasing intervals following PBOO and measured biomarkers of hypoxia (intracellular formation of hypoxyprobe-1 adducts and expression of hypoxia inducible factor-1␣ [HIF-1␣] protein) and whether such hypoxia might elicit an angiogenic response in the tissue. Rats receiving PBOO or controls were treated with hypoxyprobe-1 at increasing intervals subsequent to surgery and their bladders were sectioned and immunostained using an antibody that detects hypoxyprobe-1 adducts. Control rat bladders were unstained, whereas intense, but regionally restricted, hypoxyprobe-1 immunostaining was detected in all obstructed bladders in a unique pattern that changed over time. Proteins were extracted from bladders removed from similarly treated rats and were analyzed for the expression of the HIF-1␣ protein as well as for expression of angiogenic regulatory factors (vascular endothelial growth factor, angiopoietin-1, and endostatin) using Western blotting techniques. HIF-1␣ protein was not expressed in control bladders, however, the protein was highly up-regulated over the 2-week period after PBOO. Likewise, the expression of vascular endothelial growth factor (a downstream target of HIF-1␣ action) and angiopoietin-1 was also up-regulated in obstructed bladders confirming an angiogenic response to this hypoxia. Enigmatically, however, expression of the antiangiogenic molecule endostatin was also up-regulated by chronic PBOO. These results further support the concept that hypoxia is involved in the cellular remodeling as well as in the progressive functional impairment exhibited by the urinary bladder after PBOO. (Lab Invest 2002, 82:903-909).

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The effects of androgen deprivation on the prostate gland: cell death mediated by vascular regression

Buttyan

Ghafar

Shabsigh

2000

Current Opinion in Urology

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Androgenic steroids are required to maintain the prostate gland in the adult state. Consistent with this requirement, androgen deprivation therapies typically induce a drastic regression of mature prostate tissue that is accompanied by the extensive loss of prostate cells through the programmed cell death process referred to as apoptosis. Whereas, in the past, the loss of prostate cells associated with androgen deprivation has generally been perceived to be a direct response of the androgen receptor-expressing prostate cells to an androgen-depleted environment, more recent studies of the prostate regression process suggest that it might instead be initiated by an indirect response of the prostatic parenchyma to an ischemic/hypoxic environment caused by a drastic reduction of blood flow to the tissue that occurs when androgens are withdrawn. This article reviews evidence that the prostatic vascular system is a primary target of androgen action and other evidence suggesting that the regression of the prostate parenchyma occurs secondarily to the regression of the prostate vascular system through cell death mediated by tissue ischemia/hypoxia.

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Mohamed A. Ghafar

Salvage Cryotherapy Using an Argon Based System for Locally Recurrent Prostate Cancer After Radiation Therapy: The Columbia Experience

Acute hypoxia increases the aggressive characteristics and survival properties of prostate cancer cells

Hypoxia and an Angiogenic Response in the Partially Obstructed Rat Bladder

The effects of androgen deprivation on the prostate gland: cell death mediated by vascular regression

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