miRNA expression profiles in head and neck squamous cell carcinoma and adjacent normal tissue.

BACKGROUND: The expression of miRNA in head and neck squamous cell carcinomas (HNSCCs) that had been classified as high risk by surgical pathologic features and validated by trial outcome for disease recurrence was determined and compared with matched adjacent normal tissues. METHODS: miRNA and corresponding gene expression were determined using miRNA bioarrays and gene expression arrays. RESULTS: Twenty miRNAs were determined to be differentially regulated in the HNSCC samples when compared with their normal tissue counterparts. Quantitative reverse transcriptase-polymerase chain reaction confirmed differential regulation of miRNA expression, and gene expression analysis on these same-paired samples confirmed the loss of putative mRNA targets including genes such as adenomatous polyposis coli, programmed cell death protein 4, and TGF beta receptor 3 in the tumor samples. CONCLUSIONS: These data suggest a role for the upregulation of specific miRNAs in high-risk HNSCC. Furthermore, upregulation of these miRNAs may be responsible for the elimination of mRNAs that lead to the growth and progression of HNSCC.

Regulation of Cdc25C by ERK-MAP kinases during the G2/M transition.

Induction of G(2)/M phase transition in mitotic and meiotic cell cycles requires activation by phosphorylation of the protein phosphatase Cdc25. Although Cdc2/cyclin B and polo-like kinase (PLK) can phosphorylate and activate Cdc25 in vitro, phosphorylation by these two kinases is insufficient to account for Cdc25 activation during M phase induction. Here we demonstrate that p42 MAP kinase (MAPK), the Xenopus ortholog of ERK2, is a major Cdc25 phosphorylating kinase in extracts of M phase-arrested Xenopus eggs. In Xenopus oocytes, p42 MAPK interacts with hypophosphorylated Cdc25 before meiotic induction. During meiotic induction, p42 MAPK phosphorylates Cdc25 at T48, T138, and S205, increasing Cdc25's phosphatase activity. In a mammalian cell line, ERK1/2 interacts with Cdc25C in interphase and phosphorylates Cdc25C at T48 in mitosis. Inhibition of ERK activation partially inhibits T48 phosphorylation, Cdc25C activation, and mitotic induction. These findings demonstrate that ERK-MAP kinases are directly involved in activating Cdc25 during the G(2)/M transition.

Molecular signatures associated with clinical outcome in patients with high-risk head-and-neck squamous cell carcinoma treated by surgery and radiation.

PURPOSE: The local-regional control rate for advanced head-and-neck squamous cell carcinoma (HNSCC) remains poor and is unpredictable for a given individual. This study examined whether gene expression patterns developed from tumors from surgicopathologic, criteria-defined, high-risk HNSCC patients could be correlated with clinical outcomes, namely, metastasis or nonrecurrent disease. METHODS AND MATERIALS: Fifteen primary tumors from patients treated with a consistent protocol of surgery followed by radiotherapy were examined. Seven of these tumors were from high-risk patients who developed distant metastasis (DM), and eight tumors were from patients with no recurrence (NR) (median follow-up, 59 months). RESULTS: Unsupervised clustering of gene expression did not separate the two groups from one another, but when supervised methodologies were applied, 205 genes discriminated the two groups. Within the DM group, genes associated with cell growth and proliferation; DNA replication, recombination, and repair; antiapoptotic pathways; cell adhesion; and angiogenesis were identified. For NR samples, discriminatory genes were associated with the onset of apoptosis. CONCLUSIONS: Our data suggest that gene expression analysis of surgically excised HNSCC tumors from patients considered at high risk for recurrence has the potential to identify individuals susceptible to metastasis on the basis of distinct gene-expression patterns. These patients would be ideal candidates for testing systemic therapy.

A Ser49Cys variant in the ataxia telangiectasia, mutated, gene that is more common in patients with breast carcinoma compared with population controls.

BACKGROUND: Mothers of children who have ataxia telangiectasia have been reported to be at increased risk for development of breast carcinoma. To test whether sequence variants in the ataxia telangiectasia, mutated, gene (ATM) are associated with breast carcinoma, the authors compared the frequency of ATM cDNA sequence changes in patients with breast carcinoma with the corresponding frequency in control patients. METHODS: The authors sequenced ATM cDNA from 91 patients with breast carcinoma and compared the frequencies of sequence changes in these patients with the corresponding frequencies in a control sample of 940 individuals with no history of malignant disease. RESULTS: Thirty-five patients with breast carcinoma had one or more single-base changes in ATM. Three genetic variants were found in at least two patients. These variants resulted in Asp1853Asn, Pro1054Arg, or Ser49Cys amino acid substitutions in the ATM protein. The Ser49Cys variant was more common in patients with breast carcinoma than in the control patients, with respective frequencies of 6.7% (5 of 75 patients) and 1.3% (12 of 940 patients; P=0.006; Fisher two-sided exact test). The subgroup of patients with bilateral breast carcinoma had a Ser49Cys frequency of 11.8% (2 of 17 patients), which again was significantly different from what was observed in the control group (P=0.024; Fisher two-sided exact test). The allele frequencies of the other two variants were not different between case patients and control patients. CONCLUSIONS: Patients with breast carcinoma, particularly those with bilateral disease, were more likely to have a variant in the ATM gene that resulted in a Ser49Cys substitution in the gene product. Additional studies are needed to evaluate the potential functional consequences of the Ser49Cys substitution and confirm the relevance of this variant in the development of breast carcinoma.