Abstract
Prostate cancer cells are heterogeneous in their tumorigenicity. For example, the side population cells isolated from LAPC9 xenografts are 100 to 1,000 times more tumorigenic than the ...corresponding non–side population cells. Highly purified CD44+ prostate cancer cells from several xenografts are also enriched in prostate cancer stem/progenitor cells. Because the CD44+ prostate cancer cell population is still heterogeneous, we wonder whether we could further enrich for tumorigenic prostate cancer cells in this population using other markers. Integrin α2β1 has been proposed to mark a population of normal human prostate stem cells. Therefore, we first asked whether the α2β1+/hi cells in prostate tumors might also represent prostate cancer stem cells. Highly purified (≥98%) α2β1+/hi cells from three human xenograft tumors, Du145, LAPC4, and LAPC9, show higher clonal and clonogenic potential than the α2β1−/lo cells in vitro. However, when injected into the nonobese diabetic/severe combined immunodeficient (NOD/SCID) mouse prostate or s.c., the α2β1+/hi prostate cancer cells are no more tumorigenic than the α2β1−/lo cells. Immunofluorescence studies reveal that CD44 and α2β1 identify an overlapping and inclusive population of prostate cancer cells in that ∼70% of α2β1+/hi cells are CD44+ and 20% to 30% of CD44+ cells are distributed in the α2β1−/lo cell population. Subsequently, we sorted out CD44+α2β1+/hi, CD44+α2β1−/lo, CD44−α2β1+/hi, and CD44−α2β1−/lo cells from LAPC9 tumors and carried out tumorigenicity experiments. The results revealed a hierarchy in tumorigenic potential in the order of CD44+α2β1+/hi ≈ CD44+α2β1−/lo > CD44−α2β1+/hi ≫ CD44−α2β1−/lo. These observations together suggest that prostate cancer cells are organized as a hierarchy. Cancer Res 2007;67(14):6796–805
Recently, several human cancers including leukemia and breast and brain tumors were found to contain stem-like cancer cells called cancer stem cells (CSC). Most of these CSCs were identified using ...markers that identify putative normal stem cells. In some cases, stem-like cancer cells were identified using the flow cytometry-based side population technique. In this study, we first show that approximately 30% of cultured human cancer cells and xenograft tumors examined ( approximately 30 in total) possess a detectable side population. Purified side population cells from two cell lines (U373 glioma and MCF7 breast cancer) and a xenograft prostate tumor (LAPC-9) are more tumorigenic than the corresponding non-side population cells. These side population cells also possess some intrinsic stem cell properties as they generate non-side population cells in vivo, can be further transplanted, and preferentially express some "stemness" genes, including Notch-1 and beta-catenin. Because the side population phenotype is mainly mediated by ABCG2, an ATP-binding cassette half-transporter associated with multidrug resistance, we subsequently studied ABCG2+ and ABCG2- cancer cells with respect to their tumorigenicity in vivo. Although side population cells show increased ABCG2 mRNA expression relative to the non-side population cells and all cancer cells and xenograft tumors examined express ABCG2 in a small fraction (0.5-3%) of the cells, highly purified ABCG2+ cancer cells, surprisingly, have very similar tumorigenicity to the ABCG2- cancer cells. Mechanistic studies indicate that ABCG2 expression is associated with proliferation and ABCG2+ cancer cells can generate ABCG2- cells. However, ABCG2- cancer cells can also generate ABCG2+ cells. Furthermore, the ABCG2- cancer cells form more and larger clones in the long-term clonal analyses and the ABCG2- population preferentially expresses several "stemness" genes. Taken together, our results suggest that (a) the side population is enriched with tumorigenic stem-like cancer cells, (b) ABCG2 expression identifies mainly fast-cycling tumor progenitors, and (c) the ABCG2- population contains primitive stem-like cancer cells.
Normal human prostate (NHP) epithelial cells undergo senescence in vitro and in vivo, but the underlying molecular mechanisms remain obscure. Here we show that the senescence of primary NHP cells, ...which are immunophenotyped as intermediate basal-like cells expressing progenitor cell markers CD44, α2β1, p63, hTERT, and CK5/CK18, involves loss of telomerase expression, up-regulation of p16, and activation of p53. Using genetically defined manipulations of these three signaling pathways, we show that p16 is the primary determinant of the NHP cell proliferative capacity and that hTERT is required for unlimited proliferative life span. Hence, suppression of p16 significantly extends NHP cell life span, but both p16 inhibition and hTERT are required to immortalize NHP cells. Importantly, immortalized NHP cells retain expression of most progenitor markers, demonstrate gene expression profiles characteristic of proliferating progenitor cells, and possess multilineage differentiation potential generating functional prostatic glands. Our studies shed important light on the molecular mechanisms regulating the proliferative life span of NHP progenitor cells.
Inheritance of a mutant allele of the breast cancer susceptibility gene BRCA1 confers increased risk of developing breast and ovarian cancers. Likewise, inheritance of a mutant allele of the ...retinoblastoma susceptibility gene (RB1) results in the development of retinoblastoma and/or osteosarcoma, and both alleles are often mutated or inactivated in sporadic forms of these and other cancers. We now demonstrate that the product of the RB1 gene, Rb, regulates the expression of the murine Brca1 and human BRCA1 genes through its ability to modulate E2F transcriptional activity. TheBrca1 gene is identified as an in vivo target of E2F1 in a transgenic mouse model. The Brca1 promoter contains E2F DNA-binding sites that mediate transcriptional activation by E2F1 and repression by Rb. Moreover, ectopic expression of cyclin D1 and Cdk4 can stimulate the Brca1 promoter in an E2F-dependent manner, and this is inhibited by coexpression of the p16 INK4a cyclin-dependent kinase inhibitor. The human BRCA1 promoter also contains a conserved E2F site and is similarly regulated by E2F1 and Rb. This functional link between the BRCA1 and Rb tumor suppressors may provide insight into the mechanism by which BRCA1 inactivation contributes to cancer development.
The development of a facility for irradiation of murine and primate tissue presents several challenges. First, extremely low fluences (106–1011 ions cm−2) are required to deliver doses of 1 mGy–50 Gy ...using MeV proton. Second, the tissues, particularly from non-human primate, may be infectious to humans. Third, protection of irradiated tissue samples from contamination by mold and bacteria is critical. Here we present an ultra-low flux irradiation facility and associated fluence control for biological cell and tissue irradiation under sterile biosafety level-2 conditions suitable for use with low energy (1–3.4 MeV) protons. The operation is demonstrated using murine astrocytes.
The p16INK4a-cyclin D-retinoblastoma tumor suppressor pathway is disrupted in most human cancers, and it has been suggested that the subsequent release of E2F transcription factors from inhibitory ...complexes may be a key event in tumor development. We described recently the generation of transgenic mice with E2F1 gene expression targeted to squamous epithelial tissues by a keratin 5 (K5) promoter. In the present study, K5 E2F1 transgenic mice were crossed with p53 null mice to examine functional interactions between E2F1 and p53 in vivo. We find that E2F1-induced apoptosis of epidermal keratinocytes is reduced in K5 E2F1 transgenic mice lacking p53, whereas E2F1-induced hyperproliferation is unaffected by p53 status. We also find that K5 E2F1 transgenic mice heterozygous or nullizygous for p53 develop spontaneous skin carcinomas, which normally are rare in p53-deficient mice. The timing of tumor development correlates with the level of E2F1 transgene expression and the status of p53. In primary transgenic keratinocytes, the major change in E2F1 DNA-binding activity is the generation of a complex also containing the retinoblastoma tumor suppressor protein. Nevertheless, the expression and associated kinase activity of cyclin E, a known target for E2F transcriptional activity, is elevated significantly in K5 E2F1 transgenic keratinocytes. These findings firmly establish that increased E2F1 expression can contribute to tumor development and suggest that p53 plays an important role in eliminating cells with deregulated E2F1 activity.
Evolutionary relationships among stone crabs (Menippe) from the Gulf of Mexico and western Atlantic were investigated by comparisons of restriction sites within anonymous nuclear DNA sequences and ...nucleotide sequences of both mitochondrial and a duplicated nuclear form of the mitochondrial large subunit ribosomal RNA (LSrDNA) gene. A survey of over 100 restriction sites by Southern blot analysis with 10 anonymous nuclear DNA sequence probes failed to reveal any differences between Menippe adina and M. mercenaria. Sequence comparisons of both mitochondrial and nuclear forms of the LSrDNA gene also did not distinguish these species. Although both LSrDNA gene sequences were variable, some haplotypes were shared by the two species, implying either incomplete gene lineage sorting or introgressive hybridization. Based on molecular clock calibrations, we estimate that all of the observed mitochondrial LSrDNA sequences share a common ancestor between 1.5 and 2.7 million years before present (M.Y.B.P.). However, because identical sequences are shared by the two species, these data are also compatible with a more recent common ancestry. These findings conflict with a previously proposed biogeographic scenario for North American Menippe, which featured a relict hybrid zone on the Atlantic Coast. We suggest an alternative scenario based on relatively recent events and ongoing, rather than historical, gene flow.
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