Claudio J. Conti

CHEMOPREVENTIVE ACTIVITY OF CELECOXIB, A SPECIFIC CYCLOOXYGENASE-2 INHIBITOR, AND INDOMETHACIN AGAINST ULTRAVIOLET LIGHT-INDUCED SKIN CARCINOGENESIS

Epidemiological and dietary studies suggest that nonsteroidal anti‐inflammatory drugs (NSAIDs) reduce the risk of colon cancer, possibly through a mechanism involving inhibition of cyclooxygenase (COX)‐2, which is overexpressed in premalignant adenomatous polyps and colon cancer. Because ultraviolet light (UV) can induce COX‐2 and nonspecific NSAIDs can decrease UV‐induced skin cancer, we evaluated the ability of two compounds, celecoxib (a specific COX‐2 inhibitor) and indomethacin (a nonspecific NSAID), to block UV‐induced skin tumor development in SKH:HR‐1‐hrBr hairless mice. Mice fed 150 or 500 ppm celecoxib showed a dose‐dependent reduction (60% and 89%, respectively) in tumor yield. Indomethacin (4 ppm) reduced tumor yield by 78%. Although both acute and chronic UV exposure increased cell proliferation and edema, neither compound reduced these parameters. In contrast, UV‐induced prostaglandin synthesis in the epidermis was effectively blocked by both compounds. UV‐induced increases in COX‐2 expression in skin were also not altered in any of the treatment groups. Similarly, tumors that constitutively express high levels of COX‐2 displayed no reduction by treatment with celecoxib or indomethacin. The dramatic protective effects of celecoxib suggests that specific COX‐2 inhibitors may offer a way to safely reduce the risk of skin cancer in humans. Mol. Carcinog. 25:231–240, 1999.

VEGF/VPF overexpression in skin of transgenic mice induces angiogenesis, vascular hyperpermeability and accelerated tumor development

Upregulation of keratinocyte-derived VEGF-A expression has recently been established in non-neoplastic processes of skin such as wound healing, blistering diseases and psoriasis, as well as in skin neoplasia. To further characterize the effects of VEGF-A in skin in vivo, we have developed transgenic mice expressing the mouse VEGF120 under the control of a 2.4 kb 5′ fragment of keratin K6 gene regulatory sequences that confers transgene inducibility upon hyperproliferative stimuli. As expected from the inducible nature of the transgene, two of the three founder mice obtained (V27 and V208), showed no apparent phenotype. However, one founder (V2), mosaic for transgene integration, developed scattered red spots throughout the skin at birth. The transgenic offspring derived from this founder developed a striking phenotype characterized by swelling and erythema, resulting in early postnatal lethality. Histological examination of the skin of these transgenics demonstrated highly increased vascularization and edema leading to disruption of skin architecture. Expression of the transgene was silent in adult animals of lines derived from founders V27 and V208. Phorbol ester-induced hyperplasia resulted in transgene induction and increased cutaneous vascularization in adult transgenic mice of these lines. Skin carcinogenesis experiments performed on hemizygous crosses of V208 mice with activated H-ras-carrying transgenic mice (TG.AC) resulted in accelerated papilloma development and increased tumor burden. Previous results from our laboratory showed that VEGF upregulation is a major angiogenic stimulus in mouse epidermal carcinogenesis. By overexpressing VEGF in the skin of transgenic mice we now move a step further toward showing that VEGF-mediated angiogenesis is a rate-limiting step in the genesis of premalignant lesions, such as mouse skin papilloma. Our transgenic mice constitute an interesting model system for in vivo study of the cutaneous angiogenic process and its relevance in tumorigenesis and other skin diseases.

Persistent Activation of the Akt Pathway in Head and Neck Squamous Cell Carcinoma: A Potential Target for UCN-01

Squamous carcinomas of the head and neck (HNSCC) represent the sixth most common cancer among men worldwide and a major cause of morbidity and mortality due to its relatively poor prognosis. As part of ongoing studies addressing the molecular events underlying tumor progression in HNSCC, we have explored the nature of the proliferative pathways in which dysregulation may promote aberrant cell growth in this tumor type. The serine/threonine protein kinase Akt is a downstream target of phosphatidylinositol 3-kinase and a key regulator of normal and cancerous growth and cell fate decisions. Therefore, in this study, we have examined the status of activation of Akt in different stages of squamous cell carcinoma development in mice and in clinical samples from HNSCC patients. By immunohistochemical analysis, using a recently developed phosphorylation state-specific antibody, we demonstrated that Akt activation correlates closely with the progression of mouse skin squamous cell carcinoma. We also observed that activation of Akt is a frequent event in human HNSCC because active Akt can be detected in these tumors with a pattern of expression and localization correlating with the progression of the lesions. In line with these observations, Akt was constitutively activated in a large fraction of HNSCC-derived cell lines. We also provide evidence that the Akt signaling pathway may represent a biologically relevant target for a novel antineoplastic agent, UCN-01, which recently has been shown to be active in cellular and xenograft models for HNSCC at concentrations safely achievable in clinically relevant situations.

E2F1 Has Both Oncogenic and Tumor-Suppressive Properties in a Transgenic Model

ABSTRACT Using a transgenic mouse model expressing the E2F1 gene under the control of a keratin 5 (K5) promoter, we previously demonstrated that increased E2F1 activity can promote tumorigenesis by cooperating with either a v-Ha-ras transgene to induce benign skin papillomas or p53 deficiency to induce spontaneous skin carcinomas. We now report that as K5 E2F1 transgenic mice age, they are predisposed to develop spontaneous tumors in a variety of K5-expressing tissues, including the skin, vagina, forestomach, and odontogenic epithelium. On the other hand, K5 E2F1 transgenic mice are found to be resistant to skin tumor development following a two-stage carcinogenesis protocol. Additional experiments suggest that this tumor-suppressive effect of E2F1 occurs at the promotion stage and may involve the induction of apoptosis. These findings demonstrate that increased E2F1 activity can either promote or inhibit tumorigenesis, dependent upon the experimental context.

Expression of BCL-2 Oncoprotein and P53 Protein Accumulation in Bone Marrow Metastases of Androgen Independent Prostate Cancer

PURPOSE We correlated the expression of bcl-2 with accumulation of p53 protein in bone marrow metastases from patients with androgen independent prostate cancer and a history of hormonal ablation therapy. These results were correlated with clinical parameters, including the extent of bone marrow metastases and patient survival. MATERIALS AND METHODS All 43 patients studied had evidence of prostate cancer progression following androgen deprivation therapy and histologically confirmed bone marrow metastases. Decalcified tissue sections were used for immunohistochemical evaluation of bcl-2 protein and p53 protein accumulation. RESULTS We previously established that p53 protein accumulation as detected by immunohistochemistry is a reliable indicator of p53 gene mutation in prostate cancer. Immunoreactivity was demonstrated for p53 protein in 22 of 43 cases and for bcl-2 protein in 14. A total of 28 cases (65%) exhibited immunohistochemical evidence of p53 and/or bcl-2 expression, and 15 (35%) were negative for p53 and bcl-2. The expression of bcl-2 and accumulation of p53 were independent events (p < 0.01). The expression of bcl-2 or accumulation of p53 protein in prostate cancer metastases did not significantly influence patient survival or the extent of metastatic disease. CONCLUSIONS The presence or absence of p53 protein accumulation and/or bcl-2 expression did not correlate with tumor burden or patient survival in stage D androgen independent prostate cancer bone marrow metastases. The expression of bcl-2 protein occurs independently of and is inversely correlated with p53 mutations in advanced prostate cancer.

Deregulated expression of E2F1 induces hyperplasia and cooperates with ras in skin tumor development

In cell culture studies, overexpression of the E2F1 transcription factor has been shown to stimulate proliferation, induce apoptosis, and cooperate with an activated ras gene to oncogenically transform primary rodent cells. To study the effect of increased E2F1 activity on epithelial growth and tumorigenesis in vivo, transgenic mice expressing E2F1 under the control of a keratin 5 (K5) promoter were generated. Expression of E2F1 in the epidermis results in hyperplasia but does not inhibit terminal differentiation. In a transgenic line expressing high levels of E2F1, mice have decreased hair growth likely as a result of aberrant apoptosis in developing hair follicles. Coexpression of a cyclin D1 transgene with E2F1 augments epidermal hyperplasia and further disrupts hair follicle development suggesting that hypophosphorylated Rb antagonizes the proliferative and apoptotic-promoting activities of E2F1. Finally, the E2F1 transgene is found to cooperate with a v-Ha-ras transgene to induce skin tumors in double transgenic animals. These findings confirm that many of the activities ascribed to E2F1 through in vitro studies can be reproduced in vivo and demonstrate for the first time that deregulated E2F activity can contribute to tumor development.

Alterations of p53, cyclin D1, rb, and H‐ras in human oral carcinomas related to tobacco use

Epidemiologic studies have indicated that environmental and personal habits, particularly tobacco use and alcohol abuse, are major etiologic factors in the induction and progression of head and neck squamous cell carcinomas (HNSCC). Molecular studies have focused on HNSCC related to smoking but not those associated with smokeless tobacco.

The effect of vitamin E acetate on ultraviolet‐induced mouse skin carcinogenesis

Despite the benefits of sunscreens, ultraviolet (UV) exposure can still lead to skin cancer. In this study we investigated the effect of topical application of the antioxidant vitamin E acetate (VEA) on the inhibition of UV‐induced carcinogenesis. Hairless SKH‐1 mice received 5.2 mg of VEA 30 min before (VEA/UV) or after (UV/VEA) a single minimal erythemic dose of UV light. Vehicle‐control animals received acetone 30 min before UV exposure (Ace/UV). After 24 h, cyclobutane dimer repair was twofold and 1.5‐fold greater in the UV/VEA and VEA/UV groups, respectively. Expression of p53 protein in the UV/VEA group was maximum at 12 h after UV exposure, whereas in the Ace/UV‐ and VEA/UV‐treated mice, maximum p53 immunostaining was statistically higher at 15 h (P = 0.03). DNA synthesis as determined by 5‐bromo‐2′‐deoxyuridine incorporation was twofold higher after 15 h in all groups but was not statistically different among treatment groups. Protein levels of cyclin D1 and p21 were increased in both VEA groups by 6 h. In addition, VEA treatments delayed tumor formation and yield for the first 20 wk, although this difference was lost by 30 wk. The telomerase activity of carcinomas from the UV/VEA‐treated mice was statistically lower than that of the Ace/UV‐treated mice (P = 0.05). This study showed that although VEA may mitigate some of the initial events associated with UV irradiation such as DNA damage and p53 expression, it has limited potential in preventing UV‐induced proliferation and tumor formation. Mol. Carcinog. 23:175–184, 1998.

p53 MUTATIONS IN PROSTATE CANCER BONE METASTASES SUGGEST THAT SELECTED p53 MUTANTS IN THE PRIMARY SITE DEFINE FOCI WITH METASTATIC POTENTIAL

PURPOSE This study was undertaken to establish the pattern of specific p53 gene mutations in prostate cancer within primary tumors and distant metastases. MATERIALS AND METHODS We performed polymerase chain reaction-single-strand conformation polymorphism and sequencing analyses of p53 exons 5-8 in DNA extracted from 22 formalin-fixed, paraffin-embedded tissues from 17 patients. Samples from three patients included specimens from primary and metastatic sites (paired specimens). RESULTS G:C-to-A:T transitions were the most common point mutations (64%). Six (55%) of 11 G:C-to-A:T transitions occurred at CpG dinucleotides in five hot-spot codons (175, 245, 248, 273, and 282). Sequencing analysis of the paired samples revealed that two of the three pairs had the same mutation in both. Sequencing analysis of DNA from a different area of one of the primary tumors revealed a different mutation in the p53 gene. CONCLUSIONS Our results suggest that specific p53 mutations participate in the progression of human prostate cancer. These findings support those of others that indicate that the primary cancer is heterogeneous and clonal expansion occurs during the progression of clinically detectable prostate cancer. Our data also imply that p53 mutations at the primary site may be predictive of metastases.

Lack of cyclin-dependent kinase 4 inhibits c-myc tumorigenic activities in epithelial tissues

ABSTRACT The proto-oncogene c-myc encodes a transcription factor that is implicated in the regulation of cellular proliferation, differentiation, and apoptosis and that has also been found to be deregulated in several forms of human and experimental tumors. We have shown that forced expression of c-myc in epithelial tissues of transgenic mice (K5-Myc) resulted in keratinocyte hyperproliferation and the development of spontaneous tumors in the skin and oral cavity. Although a number of genes involved in cancer development are regulated by c-myc, the actual mechanisms leading to Myc-induced neoplasia are not known. Among the genes regulated by Myc is the cyclin-dependent kinase 4 (CDK4) gene. Interestingly, previous studies from our laboratory showed that the overexpression of CDK4 led to keratinocyte hyperproliferation, although no spontaneous tumor development was observed. Thus, we tested the hypothesis that CDK4 may be one of the critical downstream genes involved in Myc carcinogenesis. Our results showed that CDK4 inhibition in K5-Myc transgenic mice resulted in the complete inhibition of tumor development, suggesting that CDK4 is a critical mediator of tumor formation induced by deregulated Myc. Furthermore, a lack of CDK4 expression resulted in marked decreases in epidermal thickness and keratinocyte proliferation compared to the results obtained for K5-Myc littermates. Biochemical analysis of the K5-Myc epidermis showed that CDK4 mediates the proliferative activities of Myc by sequestering p21Cip1 and p27Kip1 and thereby indirectly activating CDK2 kinase activity. These results show that CDK4 mediates the proliferative and oncogenic activities of Myc in vivo through a mechanism that involves the sequestration of specific CDK inhibitors.