Robert van Boerdonk

Methylation-mediated silencing and tumour suppressive function of hsa-miR-124 in cervical cancer

BackgroundA substantial number of microRNAs (miRNAs) is subject to epigenetic silencing in cancer. Although epigenetic silencing of tumour suppressor genes is an important feature of cervical cancer, little is known about epigenetic silencing of miRNAs. Since DNA methylation-based silencing of hsa-miR-124 occurs in various human cancers, we studied the frequency and functional effects of hsa-miR-124 methylation in cervical carcinogenesis.ResultsQuantitative MSP analysis of all 3 loci encoding the mature hsa-miR-124 (hsa-miR-124-1/-2/-3) showed methylation in cervical cancer cell lines SiHa, CaSki and HeLa as well as in late passages of human papillomavirus (HPV) type 16 or 18 immortalised keratinocytes. Treatment of SiHa cells with a demethylating agent reduced hsa-miR-124 methylation levels and induced hsa-miR-124 expression. In HPV-immortalised keratinocytes increased methylation levels were related to reduced hsa-miR-124 expression and higher mRNA expression of IGFBP7, a potential hsa-miR-124 target gene. Ectopic hsa-miR-124 expression in SiHa and CaSki cells decreased proliferation rates and migratory capacity. Combined hsa-miR-124-1 and/or hsa-miR-124-2 methylation analysis of 139 cervical tissue specimens showed an increasing methylation frequency from 0% in normal tissues up to 93% in cervical carcinomas. Increased methylation levels of hsa-miR-124-1 and hsa-miR-124-2 were significantly correlated with reduced hsa-miR-124 expression in cervical tissue specimens. Combined hsa-miR-124-1 and/or hsa-miR-124-2 methylation analysis of 43 cervical scrapes of high-risk HPV positive women was predictive of underlying high-grade lesions.ConclusionsDNA methylation-based silencing of hsa-miR-124 is functionally involved in cervical carcinogenesis and may provide a valuable marker for improved detection of cervical cancer and its high-grade precursor lesions.

DNA Copy Number Alterations in Endobronchial Squamous Metaplastic Lesions Predict Lung Cancer

RATIONALE Autofluorescence bronchoscopy (AFB) is a valid strategy for detecting premalignant endobronchial lesions. However, no biomarker can reliably predict lung cancer risk of subjects with AFB-visualized premalignant lesions. OBJECTIVES The present study set out to identify AFB-visualized squamous metaplastic (SqM) lesions with malignant potential by DNA copy number profiling. METHODS Regular AFB examinations in 474 subjects at risk of lung cancer identified six subjects with SqM lesions at baseline, and carcinoma in situ or carcinoma (carcinoma in situ or greater) at the initial SqM site at follow-up bronchoscopy. These progressive SqM lesions were compared for immunostaining pattern and array comparative genomic hybridization-based chromosomal profiles with 23 SqM lesions of subjects who remained cancer-free. Specific DNA copy number alterations (CNAs) linked to cancer risk were identified and accuracy of CNAs to predict endobronchial cancer in this series was determined. MEASUREMENTS AND MAIN RESULTS At baseline, p53, p63, and Ki-67 immunostaining were not predictive for a differential clinical outcome of SqM lesions. The mean number of CNAs in baseline SqM of cases was significantly higher compared with control subjects (P < 0.01). Chromosomal regions significantly more frequently altered in SqM of cases were 3p26.3-p11.1, 3q26.2-q29, 9p13.3-p13.2, and 17p13.3-p11.2 (family-wise error rate <0.10). CNAs were specifically detected at the site of future cancer. In cases, baseline-detected CNAs persisted in subsequent biopsies taken from the initial site, and levels increased toward cancer progression. In this series, a model based on CNAs at 3p26.3-p11.1, 3q26.2-29, and 6p25.3-24.3 predicted cancer with 97% accuracy. CONCLUSIONS The data suggest that the presence of specific CNAs in SqM lesions predict endobronchial cancer.

High-risk human papillomavirus-positive lung cancer: molecular evidence for a pattern of pulmonary metastasis

Introduction: Infection with high-risk types of human papillomavirus (hrHPV) is associated with cervical, anogenital, and oropharyngeal cancers. Since a causal contribution of hrHPV infection to lung cancer (LC) is still a matter of debate, a comprehensive study was performed to delineate hrHPV involvement in LC, using a Dutch study population. Methods: Archival tissue specimens from 223 patients (145 men, 78 women, median age 65 years, range 27–87 years), who presented with cancer in the lungs, were subjected to GP5+/6+ polymerase chain reaction and p16INK4A immunohistochemistry. The series included primary lung carcinomas of patients without a history of cancer (n = 175), primary lung carcinomas of patients with an unrelated cancer in the past (n = 36), and carcinomas with primary presentation in the lungs of which the origin (i.e., primary or metastasis) was equivocal at the time of diagnosis (n = 12). GP5+/6+ polymerase chain reaction/p16INK4A double-positive carcinomas were subjected to HPV genotyping, HPVE7 transcript analysis, loss of heterozygosity analysis, and array-comparative genomic hybridization. Results: Whereas all primary lung carcinomas were hrHPV-negative (211 of 211, 100%), three hrHPV–positive equivocal carcinomas (3 of 12, 25%) were identified. These patients (1 male, 2 females) had a history of hrHPV-associated disease; one tonsillar and two cervical carcinomas. A clonal relationship between individual tumor pairs was supported by identical hrHPV genotype, pattern of p16INK4A expression, HPVE7 mRNA expression, and genomic aberrations. Conclusions: hrHPV presence in a tumor with primary presentation in the lungs signifies pulmonary metastasis from a primary hrHPV–positive cancer elsewhere in the body. No support was found for an attribution of hrHPV infection to the development of primary LC.

Close surveillance with long-term follow-up of subjects with preinvasive endobronchial lesions

RATIONALE Autofluorescence bronchoscopy (AFB) and computed tomography (CT) enable lung cancer (LC) detection at the early (pre-)invasive stage. However, LC risk in patients with preinvasive endobronchial lesions is unclear. OBJECTIVES To assess LC incidence and identify potential risk determinants in patients with preinvasive lesions. METHODS In our tertiary care referral center, 164 subjects with preinvasive lesions were monitored up to 12.5 years by repeated AFB and CT. Occurrence of LC was monitored. Clinical management depended on histological grade, with cancer patients receiving standard care. Potential risk determinants (smoking status, baseline histology, cancer history, and chronic obstructive pulmonary disease [COPD] status) were evaluated in relation to cancer occurrence, event-free survival (EFS), and overall survival (OS). MEASUREMENTS AND MAIN RESULTS During surveillance (median of 30 mo, range 4-152) of 164 subjects with preinvasive lesions (80 high grade and 84 low grade at inclusion), 61 LCs were detected in 55 subjects (median time to event 16.5 mo). Twenty-three LCs (38%) were detected by CT, and 38 (62%) were detected by AFB. More cancers (36 of 61; 59%) developed from separate, rather than initial lesional sites. Subjects with high-grade lesions were more likely to be diagnosed with LC at the same or another site in the lungs than those with low-grade lesions (P = 0.03). Independent risk determinants for OS were previous curatively treated cancer and COPD (P ≤ 0.05). CONCLUSIONS Presence of preinvasive lesions, especially high-grade lesions, may serve as LC risk markers. LCs occur both at preinvasive lesion sites and elsewhere in the bronchial epithelium or lung parenchyma. Prospective validation of biomarkers and randomized intervention studies are needed to determine optimal management strategies.

Glioblastoma-induced inhibition of Langerhans cell differentiation from CD34+ precursors is mediated by IL-6 but unaffected by JAK2/STAT3 inhibition

AIMS Langerhans cell (LC) infiltration has been observed in glioblastoma, but the glioblastoma microenvironment may be conditioned to resist antitumor immune responses. As little is known about how glioblastoma may affect dendritic cell differentiation, here we set out to delineate the effects of glioblastoma-derived soluble factors on LC differentiation. METHODS CD34(+) precursor cells of the human myeloid cell line MUTZ-3 were differentiated into LC in the presence of conditioned media of the human glioblastoma cell lines U251 or U373 and phenotypically and functionally characterized. RESULTS Glioblastoma-conditioned media inhibited LC differentiation, resulting in functional impairment, as determined by allogeneic mixed leukocyte reactivity, and induction of STAT3 activation. IL-6 blockade completely abrogated these glioblastoma-induced immunosuppressive effects and reduced STAT3 phosphorylation. However, neither addition of JSI-124 (cucurbitacin-I; a JAK2/STAT3 inhibitor), nor of GW5074 (a Raf-1 inhibitor), both of which interfere with signaling pathways reported to act downstream of the IL-6 receptor, prevented the observed inhibitory effects on LC differentiation. CONCLUSION Glioblastoma-derived IL-6 is responsible for the observed suppression of LC differentiation from CD34(+) precursors but appears to exert this effect in a STAT3 and Raf-1 independent fashion.

Can quantifying free-circulating DNA in plasma be used to identify subjects with high-grade pre-invasive endobronchial lesions?

Increased concentrations of free-circulating plasma DNA (cpDNA) are observed in patients with invasive cancer, including lung cancer. Whether cpDNA levels are elevated in subjects with high-grade pre-invasive lesions of lung squamous cell carcinoma (SqCC) and whether its detection may be of value for identifying subjects at the highest risk of developing lung SqCC is currently unknown. The present study assessed cpDNA levels in subjects with high- and low-grade pre-invasive squamous endobronchial lesions relative to patients with clinically overt lung SqCC and healthy controls using real-time quantitative PCR methodology. The median cpDNA levels of the patients with invasive lung SqCC (n=16) were significantly higher compared with those of the healthy controls (n=16; P<0.01), whereas the cpDNA levels in the subjects with pre-invasive lesions (n=20) did not differ from those of the controls (P=0.29). The cpDNA levels in subjects with high-grade pre-invasive lesions were highly similar to those diagnosed with low-grade pre-invasive lesions (P=0.85). Our data suggest that cpDNA levels are not increased during the pre-invasive stages of lung squamous carcinogenesis.