p28, a first in class peptide inhibitor of cop1 binding to p53.

BACKGROUND: A 28 amino-acid (aa) cell-penetrating peptide (p28) derived from azurin, a redox protein secreted from the opportunistic pathogen Pseudomonas aeruginosa, produces a post-translational increase in p53 in cancer cells by inhibiting its ubiquitination. METHODS: In silico computational simulations were used to predict motifs within the p53 DNA-binding domain (DBD) as potential sites for p28 binding. In vitro direct and competitive pull-down studies as well as western blot and RT-PCR analyses were used to validate predictions. RESULTS: The L1 loop (aa 112-124), a region within the S7-S8 loop (aa 214-236) and T140, P142, Q144, W146, R282 and L289 of the p53DBD were identified as potential sites for p28 binding. p28 decreased the level of the E3 ligase COP1 >80%, in p53wt and p53mut cells with no decrease in COP1 in p53dom/neg or p53null cells. Brief increases in the expression of the E3 ligases, TOPORS, Pirh2 and HDM2 (human double minute 2) in p53wt and p53mut cells were in response to sustained increases in p53. CONCLUSION: These data identify the specific motifs within the DBD of p53 that bind p28 and suggest that p28 inhibition of COP1 binding results in the sustained, post-translational increase in p53 levels and subsequent inhibition of cancer cell growth independent of an HDM2 pathway.

Differentiation of human breast carcinoma cells by a novel vitamin D analog: 1alpha-hydroxyvitamin D5.

The active metabolite of vitamin D, 1alpha,25-dihydroxyvitamin D3, can induce differentiation in breast cancer cells; however, it is hypercalcemic in vivo. Therefore, development of non-calcemic analogs of vitamin D has received considerable attention. Recently, we synthesized an analog of vitamin D [1alpha(OH)D5] that exhibits much less calcemic activity than 1alpha,25-dihydroxyvitamin D3. In this study, we evaluated the cell-differentiating action of 1alpha(OH)D5 in breast cancer cells. Following 10 days treatment with 1alpha(OH)D5 [(10-7 M) in UISO-BCA-4], we observed induction of intracytoplasmic casein, intracytoplasmic lipid droplets, ICAM-1, nm23, and specific biomarkers associated with breast cell differentiation. 1alpha(OH)D5 treatment also showed induction of vitamin D receptor and TGFbeta1 proteins. UISO-BCA-4 cells pretreated for 10 days in vitro with 1 microM 1alpha(OH)D5 failed to form tumors when transplanted into athymic mice. Similarly, 4 and 8 ng 1alpha(OH)D5 treatment three times weekly inhibited the growth of UISO-BCA-4 cells injected into athymic mice. These results suggest that this new vitamin D analog may be of significant therapeutic value for breast cancer.

Establishment and characterization of four Sinclair swine cutaneous malignant melanoma cell lines.

Cutaneous malignant melanoma of Sinclair Swine (SSCM) is a heritable, congenital neoplasm which either proves fatal to the neonatal animal or undergoes spontaneous regression. Four SSCM cell lines, UISO-SSCM-433, UISO-SSCM-438, UISO-SSCM-5052, and UISO-SSCM-8093, were derived from biopsy specimens of primary tumors removed from swine at 26, 8, and 8 weeks of age, and 15 weeks gestation, respectively. Morphologic features, DOPA oxidase staining, and abnormal karyotype were suggestive of malignant melanoma. Each cell line was morphologically heterogeneous in culture with dendritic, spindle- and cuboidal-shaped cells. Pigmented melanosomes and DOPA oxidase activity were present in all cell lines at passages 20-22. UISO-SSCM-433 and UISO-SSCM-5052 contained hypodiploid and hypotetraploid sublines whereas UISO-SSCM-438 and UISO-SSCM-8093 were hypodiploid and hypotetraploid, respectively. At later passages, all cell lines presented evolutionary, karyotypic changes; the same chromosomes were involved in the alterations, however. Chromosomes 2, 6, 13, and 14 were the most affected, exhibiting numerical and structural alterations in all four cell lines. Despite the presence of multiple chromosomal anomalies in all cell lines, each with a unique set of chromosomal markers, clonal growth was not detected in soft agar, nor were any of the lines tumorigenic following s.c. inoculation in athymic mice. This suggests that the loss of malignant potential in SSCM may be inherent.

Betulinic acid reduces ultraviolet-C-induced DNA breakage in congenital melanocytic naeval cells: evidence for a potential role as a chemopreventive agent.

Melanoma transformation progresses in a multistep fashion from precursor lesions such as congenital naevi. Exposure to ultraviolet (UV) light promotes this process. Betulinic acid (BA) was identified by our group as a selective inhibitor of melanoma that functions by inducing apoptosis. The present study was designed to investigate the effect of BA and UV-C (254 nm) on cultured congenital melanocytic naevi (CMN) cells, using the single-cell gel electrophoresis (comet) assay to detect DNA damage. Exposure to UV light induced a 1.7-fold increase in CMN cells (P = 0.008) when compared with controls. When a p53 genetic suppressor element that encodes a dominant negative polypeptide (termed GSE56) was introduced into the CMN cells, the transfected cells were more sensitive to UV-induced DNA breakage. This suggests that p53 can protect against UV-induced DNA damage and subsequent melanoma transformation. Pretreatment with BA (3 microm) for 48 h resulted in a 25.5% reduction in UV-induced DNA breakage in the CMN cells (P = 0.023), but no changes were observed in the transfected cells. However, Western blot analysis revealed no changes in the p53 or p21 levels in BA-treated cells, suggesting that BA might mediate its action via a non-p53 pathway. These data indicate that BA may have an application as a chemopreventive agent in patients with congenital naevi.

In vitro transformation of human congenital naevus to malignant melanoma.

The incidence of melanoma is estimated to be growing at the second fastest rate among all cancers in the United States. The progression of the melanocyte to a malignant melanoma involves various sequential steps: development of benign naevocellular naevus, preneoplastic dysplastic naevus, primary melanoma, and metastatic melanoma. Despite these clearly defined stages, very little is known about the molecular events leading to melanoma progression. We established a human congenital naevus cell line (UISO-CMN-1). UISO-CMN-1 cells were confirmed to have melanocytic origin by S100 immunoreactivity and the presence of melanin granules and melanosomes. UISO-CMN-1 cells, even though they showed structural and numerical abnormalities in karyotype, were non-tumorigenic when transplanted into athymic mice. However, following frequent exposure to ultraviolet C radiation, UISO-CMN-1 cells acquired tumorigenic potential. Transformation of UISO-CMN-1 cells into tumorigenic cells was accompanied by induction of ganglioside-2 expression without any significant changes in cellular ganglioside-3. These transformed and non-transformed UISO-CMN-1 cell lines can serve as excellent research tools for studying the molecular changes associated with melanoma development and progression, and for identifying agents that might prevent development of malignant melanoma.

Establishment of a human melanoma cell line lacking p53 expression and spontaneously metastasizing in nude mice.

Nine human melanoma cell lines established in our laboratory were analyzed for p53 gene expression and their tumorigenic and metastatic potential in nude mice. Northern blot analyses showed that five of the cell lines (55%) had either complete loss or low levels of p53 transcripts. Immunocytochemical analysis for p53 protein expression agreed with mRNA analysis results. Nucleotide sequencing showed no mutations in exons 5 through 8 of the gene. All cell lines except one gave rise to tumors at subcutaneous inoculation sites in nude mice. The melanoma cell line UISO-MEL-6, completely lacking p53 expression, spontaneously metastasized to lung and liver in nude mice.

Human breast carcinoma cell lines: ultrastructural, genotypic, and immunocytochemical characterization.

Two new breast carcinoma cell lines, designated as UISO-BCA-1 and UISO-BCA-2, have been established from pleural effusions of postmenopausal women. Both cell lines show properties of mammary epithelial cells, such as positive immunoreactivity to cytokeratins and human milk fat globulin, presence of desmosomal junctions, numerous microvilli, intracytoplasmic duct-like vacuoles and tonofilaments. UISO-BCA-1 and UISO-BCA-2 cells differ from each other with respect to cellular morphology, ultramicroscopic details, immunoreactivity to Her-neu oncogene protein, chromosomal mode and in vivo and in vitro growth rates. UISO-BCA-1 cells are well-differentiated (as evident from their morphology and ultrastructural details) and hyperploid (42-114 chromosomes). In vitro, UISO-BCA-1 cells are fast growing, with a population doubling time of 31.2 +/- 9.6 hrs (n = 4), and are tumorigenic (100%) in athymic nude mice. In contrast, UISO-BCA-2 cells are poorly differentiated, but are also hyperploid, with 54-64 chromosomes. UISO-BCA-2 cells are slow growing in vitro (population doubling time: 56.0 +/- 5.0 hrs [n = 4]) and have limited tumorigenic potency (20-40%). Both these cell lines are estrogen and progesterone receptor (less than 10 fmol/mg protein) negative.