Tumor-specific p73 up-regulation mediates p63 dependence in squamous cell carcinoma

p63 is essential for normal epithelial development and is overexpressed in the vast majority of squamous cell carcinomas (SCC). Recent work had shown that DeltaNp63alpha is essential for survival of SCC cells, raising the possibility that the p63 pathway may be an attractive therapeutic target in these tumors. Nevertheless, it is unknown whether a therapeutic window exists for inhibiting p63 in tumor cells versus normal epithelia. Here, we show that SCC cells are uniquely dependent on DeltaNp63alpha for survival, unlike normal p63-expressing epithelial cells, and that dependence is mediated through tumor-specific up-regulation of the related protein p73. In normal primary human keratinocytes, we find that inhibition of endogenous p63 by RNA interference (RNAi) induces p21(CIP1) expression, inhibits cell cycle progression, and ultimately promotes cellular senescence. In contrast, p63 inhibition in SCC cells induces proapoptotic bcl-2 family members and rapidly triggers apoptosis. Expression of p73 is low in uncultured basal keratinocytes but is markedly up-regulated in both SCC cell lines and primary tumors in vivo. Whereas p21(CIP1) induction following loss of p63 in normal cells is independent of p53 and p73, both proapoptotic gene induction and cell death following p63 RNAi in tumor cells are p73 dependent. Finally, ectopic p73 expression in primary keratinocytes does not affect baseline cell proliferation but is sufficient to trigger cell death following loss of p63. Together, these findings define a specific molecular mechanism of p63 dependence through p73 up-regulation, and they provide a rationale for targeting the p63 pathway as a therapeutic strategy in SCCs.     

p38alpha and p38delta mitogen-activated protein kinase isoforms regulate invasion and growth of head and neck squamous carcinoma cells

Recent studies indicate that the specificity of p38 mitogen-activated protein kinase (MAPK)-mediated cellular stress responses is determined by the expression pattern of the distinct p38 isoforms. Here, we have analysed the function of distinct p38 isoforms in the growth and invasion of head and neck squamous cell carcinomas (HNSCCs). Activation of p38 MAPK by arsenite resulted in inactivation of the ERK1,2 signaling pathway by dephosphorylation of MEK1,2 in primary human epidermal keratinocytes (HEKs), whereas in HNSCC cells this p38-mediated inhibition of the ERK1,2 pathway was absent. Quantitation of p38 pathway component mRNA expression in HNSCC cell lines (n=42) compared to HEKs (n=8) revealed that p38alpha and p38delta isoforms are predominantly expressed in both cell types and that MKK3 is the primary upstream activator expressed. Inhibition of endogenous p38alpha or p38delta activity by adenoviral delivery of corresponding dominant-negative p38 isoforms potently reduced MMP-13 and MMP-1 expressions, and suppressed the invasion of HNSCC cells through collagen. Dominant-negative p38alpha and p38delta inhibited squamous cell carcinoma (SCC) cell proliferation and inhibition of p38alpha activity also compromised survival of SCC cells. p38alpha and p38delta were predominantly expressed in HNSCCs (n=24) and nonneoplastic epithelium in vivo (n=6), with MKK3 being the primary upstream activator. Activation and expression of p38alpha and p38delta by tumor cells was detected in HNSCCs in vivo (n=16). Adenoviral expression of dominant-negative p38alpha or p38delta in cutaneous SCC cells potently inhibited their implantation in skin of severe combined immunodeficiency mice and growth of xenografts in vivo. Our results indicate that p38alpha and p38delta specifically promote the malignant phenotype of SCC cells by regulating cell survival, proliferation and invasion, suggesting these p38 MAPK isoforms as potential therapeutic targets in HNSCCs.     

Expression of deltaNp73 and TAp73alpha independently associated with radiosensitivities and prognoses in cervical squamous cell carcinoma.

PURPOSE: The p73 gene produces different protein isoforms using alternative promoters and splicing, which have different biological characteristics. This study was to investigate the expression patterns of two distinct p73 isoforms (deltaNp73 and TAp73alpha) in cervical squamous cell carcinomas (SCC) and the relationship between their expressions and prognostic significance in cervical SCC patients. EXPERIMENTAL DESIGN: We investigated the protein expressions of deltaNp73 and TAp73alpha in 117 cervical SCC and 113 normal cervical tissues using immunohistochemistry. The expression levels were analyzed with clinical variables and patients' survival. RESULTS: DeltaNp73and TAp73alpha were significantly overexpressed in cervical SCC compared with those in normal cervical epithelium (P < 0.001). However, their expressions were inversely correlated (P < 0.001, R = -0.368) and associated with differential tumor radiosensitivity. Overexpression of deltaNp73 was significantly found in SCC resistant to irradiation (P < 0.001), whereas increase of TAp73alpha expression was observed in the majority of SCC sensitive to irradiation (P < 0.001). Multivariate and survival analyses indicated that the expressions of deltaNp73 and TAp73alpha were independently associated with prognosis: deltaNp73 was associated with recurrence of the disease [P = 0.001; odds ratio (OR), 4.857] and an adverse outcome (P = 0.012; OR, 4.676), whereas TAp73alpha predicted a better survival of cervical SCC patients (P = 0.018; OR, 0.065). CONCLUSIONS: The p73 gene might be an important determinant of cellular response to irradiation. The expressions of the two main isoforms (deltaNp73 and TAp73alpha) might be potential markers for predicting the prognosis and sensitivity to radiotherapy in patients with cervical SCC.     

Bcl-2 protects murine erythroleukemia cells from p53-dependent and -independent radiation-induced cell death

To better understand the molecular basis of radiation-inducedcell death, we studied the role of the bcl-2 oncogene and thep53 tumor suppressor gene in this process. A temperature-sensitivemutant of murine p53 (p53Va-l35) and/or bcl-2 was transfectedinto murine erythroleukemia cells (MEL, DP16-1, which are nullin p53). We demonstrate that radiation-induced cell death occursby both p53-dependent and -independent pathways and overexpressionof bcl-2 modulates both pathways. When viability was measured24 h post-radiation, cells that had been briefly exposed towtp53 immediately after X-ray irradiation had decreased survivalas compared to unirradiated cells expressing wtp53 or X-rayirradiated DP16-1 cells. However, at later times X-ray irradiatedparental DP16-1 cells also had decreased survival compared tothe unirradiated control. This decrease in survival began 48h following radiation. Bcl-2 prevented radiation-induced celldeath in DP16-1 cells expressing wtp53 and delayed radiation-inducedcell death in DP16-1 cells without wtp53. X-ray irradiated cellsexpressing wtp53 displayed microscopic and biochemical characteristicsconsistent with cell death due to apoptosis. DP16-1 cells whichwere untransfected or co-transfected with wtp53 and bcl-2 displayedcharacteristics of cells undergoing necrosis. These resultssuggest that radiation-induced cell death occurs by both p53-dependentand p53-independent pathways. The p53-dependent pathway resultsin cell death via apoptosis and occurs approximately 24 h followingradiation. The p53-independent pathway does not appear to involveapoptosis and occurs at a later time, starting 48 h after X-rayexposure. Thus, bcl-2 protects cells from p53-dependent radiation-inducedapoptotic cell death and attenuates p53-independent radiation-inducedcell death.     

Inhibition of growth and survival of human head and neck squamous cell carcinoma cells by curcumin via modulation of nuclear factor-kappaB signaling

Increased expression of proinflammatory and proangiogenic factors are associated with aggressive tumor growth and decreased survival of patients with head and neck squamous cell carcinoma (HNSCC). In as much as genes that are regulated by nuclear factor NF-kappaB suppress apoptosis, induce proliferation, and mediate inflammation, angiogenesis and tumor metastasis, agents that suppress NF-kappaB activation have potential as treatment for various cancers including HNSCC. We demonstrate that all HNSCC cell lines expressed constitutively active NF-kappaB and IkappaBalpha kinase (IKK), which is needed for NF-kappaB activation. Treatment of MDA 686LN cells with curcumin (diferuloylmethane), a pharmacologically safe chemopreventive agent, inhibited NF-kappaB activation through abrogation of IKK. As a result expression of various cell survival and cell proliferative genes including Bcl-2, cyclin D1, IL-6, COX-2 and MMP-9 was suppressed. This, in turn, inhibits proliferation of all HNSCC cell lines, arrests cell cycle in G1/S phase (MDA 686LN) and induces apoptosis as indicated by upstream and downstream caspase activation, PARP cleavage, annexin V staining in MDA 686LN cells. Suppression of NF-kappaB by cell-permeable p65-based peptide and NBD peptide also inhibited the proliferation and induced apoptosis in these cells. Our results indicate that curcumin is a potent inhibitor of cell proliferation and an inducer of apoptosis in HNSCC through suppression of IKK-mediated NF-kappaB activation and of NF-kappaB-regulated gene expression.     

p63 and p73 are not required for the development and p53-dependent apoptosis of T cells

The recent discoveries of p63 and p73, homologs of the tumor suppressor p53, raised the possibility of a network of these family members governing cell cycle arrest and apoptosis in response to stress. However, mice lacking p73 show no tendency for spontaneous tumors, and mutations in p63 or p73 are rare in human tumors, rendering any obligate role of these genes in cell death and tumor suppression unclear. In an effort to reconcile these incongruent data, we examined the genetic interactions between p53, p63, and p73 in well-established paradigms of p53-dependent and -independent T cell death using primary, genetically defined lymphocytes. Our findings challenge the generality of the notion that p63 and p73 are required for p53 function or for apoptosis in T cells.     

Expression of p53 and its homologues in primary and recurrent squamous cell carcinomas of the head and neck

The tumour-suppressor protein p53 belongs to a family that includes 2 structurally related proteins, p63 and p73. Because of their structural homology, it has been hypothesized that both homologues serve as "spare mechanisms" in p53 mutations to regulate the cell cycle by inducing apoptosis. We investigated the mutational and protein expression status of p53 in correlation to its homologues, p73 and p63, in primary and recurrent squamous cell carcinomas of the head and neck (HNSCC) and corresponding nonneoplastic mucosa. Expression and mutation of p53 and its homologues p63 (including the 2 major isotypes TAp63 and DeltaNp63) and p73 was examined by direct DNA sequencing and immunohistochemistry in 29 primary and 39 recurrent (secondary) HNSCCs after microdissection. Our results were correlated with pathohistologic stage and grade. p53 mutations were detected in 32/68 (47%) carcinomas of 17 patients, with a discordant mutation pattern of primary and consecutive tumours in all cases. Positive immunostaining for p63 was found in 55/68 (81%) carcinomas of 29 patients. Immunohistochemistry revealed p73 protein expression in 32/68 (47%) tumours. In normal mucosa, p63 and p73 were expressed in 40/68 (59%) and 12/68 (18%) cases, respectively. We failed to detect specific mutations of p73 or p63 in primary and recurrent carcinoma of the head and neck. p73 and p63 were rarely mutated in HNSCC, but both were expressed in a subset of tumours. The lack of correlation between p73/p63 and p53 protein expression suggests that neither p73 nor p63 can replace p53 when it is mutated.