Bobby Bhatia scite author profile

CD44 is a multifunctional protein involved in cell adhesion and signaling. The role of CD44 in prostate cancer (PCa) development and progression is controversial with studies showing both tumor-promoting and tumor-inhibiting effects. Most of these studies have used bulk-cultured PCa cells or PCa tissues to carry out correlative or overexpression experiments. The key experiment using prospectively purified cells has not been carried out. Here we use FACS to obtain homogeneous CD44 þ and CD44 À tumor cell populations from multiple PCa cell cultures as well as four xenograft tumors to compare their in vitro and in vivo tumor-associated properties. Our results reveal that the CD44 þ PCa cells are more proliferative, clonogenic, tumorigenic, and metastatic than the isogenic CD44 À PCa cells. Subsequent molecular studies demonstrate that the CD44 þ PCa cells possess certain intrinsic properties of progenitor cells. First, BrdU pulse-chase experiments reveal that CD44 þ cells colocalize with a population of intermediate label-retaining cells. Second, CD44 þ PCa cells express higher mRNA levels of several 'stemness' genes including Oct-3/4, Bmi, b-catenin, and SMO. Third, CD44 þ PCa cells can generate CD44 À cells in vitro and in vivo. Fourth, CD44 þ PCa cells, which are AR À , can differentiate into AR þ tumor cells. Finally, a very small percentage of CD44 þ PCa cells appear to undergo asymmetric cell division in clonal analyses. Altogether, our results suggest that the CD44 þ PCa cell population is enriched in tumorigenic and metastatic progenitor cells.

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Prostate cancer stem/progenitor cells: Identification, characterization, and implications

Tang

Patrawala

Calhoun

et al. 2006

Molecular Carcinogenesis

206

215

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Several solid tumors have now been shown to contain stem cell-like cells called cancer stem cells (CSC). These cells, although generally rare, appear to be highly tumorigenic and may be the cells that drive tumor formation, maintain tumor homeostasis, and mediate tumor metastasis. In this Perspective, we first provide our insight on how a CSC should be defined. We then summarize our current knowledge of stem/progenitor cells in the normal human prostate (NHP), an organ highly susceptible to hyperproliferative diseases such as benign prostate hyperplasia (BPH) and prostate cancer (PCa). We further review the evidence that cultured PCa cells, xenograft prostate tumors, and patient tumors may contain stem/progenitor cells. Along with our discussion, we present several methodologies that can be potentially used to identify putative tumor-reinitiating CSC. Finally, we present a hypothetical model for the hierarchical organization of human PCa cells and discuss the implications of this model in helping understand prostate carcinogenesis and design novel diagnostic, prognostic, and therapeutic approaches.

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Evidence That Arachidonate 15-Lipoxygenase 2 Is a Negative Cell Cycle Regulator in Normal Prostate Epithelial Cells

Tang

Bhatia

Maldonado

et al. 2002

Journal of Biological Chemistry

115

148

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Association of Active Caspase 8 with the Mitochondrial Membrane during Apoptosis: Potential Roles in Cleaving BAP31 and Caspase 3 and Mediating Mitochondrion-Endoplasmic Reticulum Cross Talk in Etoposide-Induced Cell Death

Chandra

Choy

Deng

et al. 2004

Molecular and Cellular Biology

141

124

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Annexin II expression is reduced or lost in prostate cancer cells and its re-expression inhibits prostate cancer cell migration

et al. 2003

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While studying Bim, a BH3-only proapoptotic protein, we identified an B36 kDa protein, which was abundantly expressed in all five strains of primary normal human prostate (NHP) epithelial cells but significantly reduced or lost in seven prostate cancer cell lines. The B36 kDa protein was subsequently identified as annexin II by proteomic approach and confirmed by Western blotting using an annexin II-specific antibody. Conventional and 2D SDS-PAGE, together with Western blotting, also revealed reduced or lost expression of annexin I in prostate cancer cells. Subcellular localization studies revealed that in NHP cells, annexin II was distributed both in the cytosol and underneath the plasma membrane, but not on the cell surface. Prostate cancer cells showed reduced levels as well as altered expression patterns of annexin II. Since annexins play important roles in maintaining Ca 2+ homeostasis and regulating the cytoskeleton and cell motility, we hypothesized that the reduced or lost expression of annexin I/II might promote certain aggressive phenotypes of prostate cancer cells. In subsequent experiments, we indeed observed that restoration of annexin II expression inhibited the migration of the transfected prostate cancer cells without affecting cell proliferation or apoptosis. Hence, our results suggest that annexin II, and, likely, annexin I, may be endogenous suppressors of prostate cancer cell migration and their reduced or lost expression may contribute to prostate cancer development and progression.

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Bobby Bhatia

Highly purified CD44+ prostate cancer cells from xenograft human tumors are enriched in tumorigenic and metastatic progenitor cells

Prostate cancer stem/progenitor cells: Identification, characterization, and implications

Evidence That Arachidonate 15-Lipoxygenase 2 Is a Negative Cell Cycle Regulator in Normal Prostate Epithelial Cells

Association of Active Caspase 8 with the Mitochondrial Membrane during Apoptosis: Potential Roles in Cleaving BAP31 and Caspase 3 and Mediating Mitochondrion-Endoplasmic Reticulum Cross Talk in Etoposide-Induced Cell Death

Annexin II expression is reduced or lost in prostate cancer cells and its re-expression inhibits prostate cancer cell migration

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