Alice Chuang

Frequency and phenotypic implications of mitochondrial DNA mutations in human squamous cell cancers of the head and neck.

Mitochondrial genomic mutations are found in a variety of human cancers; however, the frequency of mitochondrial DNA (mtDNA) mutations in coding regions remains poorly defined, and the functional effects of mitochondrial mutations found in primary human cancers are not well described. Using MitoChip, we sequenced the whole mitochondrial genome in 83 head and neck squamous cell carcinomas. Forty-one of 83 (49%) tumors contained mtDNA mutations. Mutations occurred within noncoding (D-loop) and coding regions. A nonrandom distribution of mutations was found throughout the mitochondrial enzyme complex components. Sequencing of margins with dysplasia demonstrated an identical nonconservative mitochondrial mutation (A76T in ND4L) as the tumor, suggesting a role of mtDNA mutation in tumor progression. Analysis of p53 status showed that mtDNA mutations correlated positively with p53 mutations (P < 0.002). To characterize biological function of the mtDNA mutations, we cloned NADH dehydrogenase subunit 2 (ND2) mutants based on primary tumor mutations. Expression of the nuclear-transcribed, mitochondrial-targeted ND2 mutants resulted in increased anchorage-dependent and -independent growth, which was accompanied by increased reactive oxygen species production and an aerobic glycolytic metabolic phenotype with hypoxia-inducible factor (HIF)-1α induction that is reversible by ascorbate. Cancer-specific mitochondrial mutations may contribute to development of a malignant phenotype by direct genotoxic effects from increased reactive oxygen species production as well as induction of aerobic glycolysis and growth promotion.

Quantitative detection of Merkel cell virus in human tissues and possible mode of transmission.

Merkel Cell Virus (MCV) is a newly discovered polyomavirus, recently found in a rare skin cancer, Merkel cell carcinoma (MCC). However, MCV has also been detected in some normal tissue samples. We tested and compared the relative quantity of the MCV in a set of diverse human tissue samples with the MCC samples. The levels of MCV in MCCs were over 60 times higher than the highest values in all other tissues. Low quantities of MCV were detected in diverse tissue samples independently of malignant or benign histologic status. Higher levels of the virus were found in the upper aerodigestive tract, digestive system, and saliva compared to the lung and genitourinary system samples. These results confirm that MCV is widespread in the human body and suggest a possible fecal‐oral transmission route similar to the Hepatitis A virus. Despite widespread presence of the virus, it appears that only neuroendocrine skin cells are susceptible to transformation by MCV.

KIF1A and EDNRB are differentially methylated in primary HNSCC and salivary rinses

Silencing of tumor suppressor genes plays a vital role in head and neck carcinogenesis. In this study, we aimed to evaluate to the utility of aberrant promoter hypermethylation for detection in a panel of 10 genes (KIF1A, EDNRB, CDH4, TERT, CD44, NISCH, PAK3, VGF, MAL and FKBP4) in head and neck squamous cell carcinoma (HNSCC) via a candidate gene approach. We investigated methylation of the gene promoters by bisulfite modification and quantitative methylation‐specific PCR (Q‐MSP) in a preliminary study of a limited cohort of salivary rinses from healthy subjects (n = 61) and patients with HNSCC (n = 33). The methylation status of 2 selected genes (EDNRB and KIF1A) were then analyzed in 15 normal mucosa samples from a healthy population, 101 HNSCC tumors and the corresponding salivary rinses from 71 out of the 101 HNSCC patients were collected before treatment. The promoter regions of CDH4, TERT, VGF, MAL, FKBP4, NISCH and PAK3 were methylated in normal salivary rinses while no methylation of CD44 was observed in either normal salivary rinses or tumor samples. However, KIF1A and EDNRB were methylated in 98 and 97% of primary HNSCC tissues respectively and were only methylated in 2 and 6.6% of normal salivary rinses. In addition, KIF1A and EDNRB were methylated in 38 and 67.6% of salivary rinses from HNSCC patients, respectively. Promoter hypermethylation of KIF1A and EDNRB is a frequent event in primary HNSCC, and these genes are preferentially methylated in salivary rinses from HNSCC patients. KIF1A and EDNRB are potential biomarkers for HNSCC detection.

Characterization of the methylation patterns in human papillomavirus type 16 viral DNA in head and neck cancers.

Human papillomavirus (HPV) type 16 can integrate into the host genome, thereby rendering the viral coding genes susceptible to epigenetic modification. Using bisulfite genomic sequencing, we determined the methylation status of all 110 CpG sites within the viral epigenome in advanced stage III/IV HPV-16–associated head and neck cancers. We found that the viral genome was hypomethylated in the majority of head and neck cancers, in particular within the viral regulatory region, long control region (LCR), which controls transcription of the E6 and E7 oncogenes. The hypomethylation status of LCR correlated with detectable levels of E6 and E7 expression, which suggests that the tumors may still be dependent on these viral oncogenes to maintain the malignant phenotype. In addition to the methylation status of LCR, we report other potential factors which may influence intratumoral E6 and E7 expression including viral copy number and integration site. We were able to detect the viral epigenetic alterations in sampled body fluids, such as serum and saliva, which correlated with the changes observed in the primary tumors. Because viral epigenetic changes occur in the setting of viral integration into the human genome, the detection of methylated HPV genes in the serum and/or saliva may have diagnostic potential for early detection strategies of viral integration and assessment of risk for cancer development in high-risk individuals. Our findings also support continued targeting of the E6 and/or E7 antigens through various vaccine strategies against HPV-associated cancers. Cancer Prev Res; 4(2); 207–17. ©2011 AACR.

BORIS Binding to the Promoters of Cancer Testis Antigens, MAGEA2, MAGEA3, and MAGEA4, Is Associated with Their Transcriptional Activation in Lung Cancer

Purpose: Aim of this study was to determine whether BORIS (Brother of the Regulator of Imprinted Sites) is a regulator of MAGEA2, MAGEA3, and MAGEA4 genes in lung cancer. Experimental Design: Changes in expression of MAGEA genes upon BORIS induction/knockdown were studied. Recruitment of BORIS and changes in histone modifications at their promoters upon BORIS induction were analyzed. Luciferase assays were used to study their activation by BORIS. Changes in methylation at these promoters upon BORIS induction were evaluated. Results: Alteration of BORIS expression by induction/knockdown directly correlated with expression of MAGEA genes. BORIS was enriched at their promoters in H1299 cells, which show high expression of these cancer testis antigens (CTA), compared with normal human bronchial epithelial (NHBE) cells which show low expression of the target CTAs. BORIS induction in A549 cells resulted in increased amounts of BORIS and activating histone modifications at their promoters along with a corresponding increase in their expression. Similarly, BORIS binding at these promoters in H1299 correlates with enrichment of activating modifications, whereas absence of BORIS binding in NHBE is associated with enrichment of repressive marks. BORIS induction of MAGEA3 was associated with promoter demethylation, but no methylation changes were noted with activation of MAGEA2 and MAGEA4. Conclusions: These data suggest that BORIS positively regulates these CTAs by binding and inducing a shift to a more open chromatin conformation with promoter demethylation for MAGEA3 or independent of promoter demethylation in case of MAGEA2 and MAGEA4 and may be a key effector involved in their derepression in lung cancer. Clin Cancer Res; 17(13); 4267–76. ©2011 AACR.

Promoter methylation and loss of p16INK4a gene expression in head and neck cancer

Silencing of tumor suppressor genes plays a vital role in head and neck carcinogenesis. In this study we aimed to evaluate aberrant p16INK4a gene promoter methylation in patients with head and neck cancer.

Changes in skin tanning attitudes. Fashion articles and advertisements in the early 20th century.

Historical reviews suggest that tanning first became fashionable in the 1920s or 1930s. To quantitatively and qualitatively examine changes in tanning attitudes portrayed in the popular womens press during the early 20th century, we reviewed summer issues of Vogue and Harpers Bazaar for the years 1920, 1927, 1928, and 1929. We examined these issues for articles and advertisements promoting skin tanning or skin bleaching and protection. We found that articles and advertisements promoting the fashionable aspects of tanned skin were more numerous in 1928 and 1929 than in 1927 and 1920, whereas those promoting pale skin (by bleaching or protection) were less numerous. These findings demonstrate a clear shift in attitudes toward tanned skin during this period.

A Promoter Methylation Pattern in the N-Methyl-d-Aspartate Receptor 2B Gene Predicts Poor Prognosis in Esophageal Squamous Cell Carcinoma

Purpose: To investigate whether the promoter methylation pattern in N-methyl-d-aspartate receptor 2B (NMDAR2B) is correlated with clinical features of human esophageal squamous cell carcinoma (ESCC), the methylation status of the gene was examined at three different sites (P1, P2, and P3) where two CpG islands reside within 1 kb upstream of the transcription start site. Experimental Design: Three independent modalities for methylation analysis (bisulfite sequencing, combined bisulfite restriction analysis, and TaqMan methylation-specific PCR) were done to analyze total 67 ESCC tissues that included 43 primary tumors with well-characterized clinicopathologic variables including patient outcome. Results: Using an optimized cutoff value based on quantitative methylation-specific PCR, we found that patients with higher NMDAR2B methylation ratio in the proximal region (P1) showed a worse 5-year disease-specific survival rate than those without NMDAR2B methylation (P < 0.006). A significant correlation was also seen between NMDAR2B promoter methylation and the presence of vascular permeation (P = 0.03). Conclusion: NMDAR2B promoter methylation could be a clinically applicable marker in ESCC.

MAGEA4 induces growth in normal oral keratinocytes by inhibiting growth arrest and apoptosis

Cancer testis antigens (CTAs) are proteins that are normally expressed only in male germ cells and are aberrantly upregulated in a variety of cancers such as melanomas and lung cancer. MAGEA proteins belong to Class I CTAs and are being utilized as targets for cancer immunotherapy. Despite the discovery of the first CTA (MAGEA1) 20 years ago, the functions of these proteins remain poorly understood and evidence suggests both oncogenic as well as tumor suppressive roles for these proteins. Herein, we investigated the role of MAGEA4 in promoting cell growth. When overexpressed, MAGEA4 promotes growth of spontaneously transformed normal oral keratinocytes (NOK-SI). To understand the mechanism of growth stimulation by MAGEA4, we explored the effect of overexpressing MAGEA4 on cell cycle and apoptosis. MAGEA4 inhibits growth arrest of cells in the G1 phase of the cell cycle. We also found that overexpression of MAGEA4 inhibits G418-induced apoptosis of NOK-SI cells. Interestingly, this inhibition was accompanied by repression of two p53 downstream genes, BAX and CDKN1A. Our results indicate that MAGEA4 promotes growth by preventing cell cycle arrest and by inhibiting apoptosis mediated by the p53 transcriptional targets.

Abstract 4966: BORIS binding to the promoters of cancer testes antigens, MageA2 and MageA3, causes transcriptional activation of these genes in lung cancer

Proceedings: AACR 101st Annual Meeting 2010‐‐ Apr 17‐21, 2010; Washington, DC BORIS or CTCFL (Brother of the regulator of imprinted sites) is an 11 zinc-finger transcription factor that is involved in epigenetic gene regulation. Boris is normally expressed only in the testes but is aberrantly expressed in many cancers. In the present study, we wanted to study the role of BORIS in the regulation of the cancer testes antigens (CTA) MageA2 and MageA3 in lung cancer. CTAs are also normally expressed in the testes but are upregulated in a variety of cancers like lung, bladder and liver cancers and melanomas. We first investigated the in vivo binding of BORIS to the promoter regions of MageA2 and MageA3 by chromatin immuno-precipitation (ChIP). We found that BORIS was enriched at the promoter regions of these genes in H1299, a lung cancer cell line, compared to the normal lung cell line, NHBE (normal human bronchial epithelial). Interestingly, we found that these genes have high expression in H1299 cell line which is also a high expressor of BORIS. On the other hand, they have very low or no expression in NHBE cells which are also very low BORIS expressors. When BORIS was knocked down in H1299 cells, the expression of these genes was reduced by 25-30%. We then used Luciferase reporter assay to see if MageA2 and MageA3 promoters were activated by BORIS. When BORIS was expressed in the non-expressing cell line NHBE, the activity of the promoters was increased as determined by the luciferase activity. Upon knock-down of BORIS in H1299 cells, the activity of the MageA2 and MageA3 promoters reduced significantly. We further investigated if BORIS binding changes the pattern of histone modification at these promoters. We found that BORIS binding at these promoters in H1299 cells correlates with the enrichment of acetylated H3K9, a modification that is involved in opening up chromatin regions. In the absence of BORIS binding in NHBE cells, methylated H3K9, which is involved with more closed chromatin conformation, is enriched at these sites. These data suggest that BORIS is a positive regulator of the cancer testes antigens and may be a key effector involved in their derepression in lung cancer. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 4966.