Human papillomavirus 16 is an aetiological factor of scrotal cancer

Background: Squamous cell scrotal carcinoma (SCSC) is an infrequent skin cancer associated historically with occupational carcinogens. Human papillomavirus (HPV) DNA has been associated with SCSC but there is no definitive proof of its oncogenic role. Methods: Human papillomavirus-DNA and -E6*I mRNA were analysed in six invasive histologically typed SCSC. LCM-PCR was used to localise HPV DNA to tumour cells. P16(INK4a)and p53 expression were studied by immunohistochemistry. Results: In three warty or basaloid SCSC HPV16-DNA and E6*I-mRNA were detected. LCM-PCR confirmed HPV16 was in p16(INK4a)-positive malignant cells. However, of three usual-type SCSC, all were HPV-negative and two expressed p53 protein but not p16(INK4a). Conclusions: Human papillomavirus 16 was present in tumour cells and oncogenically active in basaloid and warty SCSC, whereas usual SCSC was HPV-negative and showed immunostaining, suggesting p53 mutation. The dual pathways of oncogenesis and relation between histological type of SCSC and HPV are similar to that in penile cancers

Effect of bradykinin on loss of density-dependent growth inhibition of normal rat kidney cells

Normal rat kidney fibroblasts, density-arrested in the presence of epidermal growth factor (EGF), can be restimulated to proliferate in a synchronous way and acquire a transformed phenotype following treatment with additional growth factors like retinoic acid (RA) and transforming growth factor (TGF)-beta. It was found that bradykinin has a strong inhibitory effect on growth stimulation induced by these factors, an effect which cannot be mimicked by PGF2 alpha. The growth-inhibiting effect can be blocked by inhibitors of cyclo-oxygenase activity, indicating that the relevant second messenger is most likely a prostaglandin. Externally added PGJ2, at a concentration of 10 microM, can mimic the inhibitory effect of bradykinin on the loss of density-arrest induced by RA suggesting that PGJ2 is a possible candidate for being the bradykinin induced growth-inhibiting prostaglandi

High-throughput genotyping of high-risk HPV by the digene HPV Genotyping LQTest using GP5+/6+-PCR and xMAP technology

Background: Epidemiologic studies have classified 18 genotypes of the human papillomavirus (HPV) as (probably) high-risk (HR) based on their association with cervical cancer, i.e., HPV 16, 18, 26, 31, 33, 35, 39, 45, 51, 52, 53, 56, 58, 59, 66, 68, 73, and 82. Given the fact that certain HR HPV types confer an increased risk of cervical (pre)cancer, type-specific identification might aid clinical management of women tested positive for HR HPV. Therefore, the development of robust, high-throughput genotyping assays is important. Objectives: An analytical comparison of the digene HPV Genotyping LQ Test (digene LQ Test), capable of identifying 18 HR types using bead-based xMAP suspension array technology, with the established Reverse Line Blot (RLB) genotyping assay was carried out on amplimers generated with the clinically validated GP5+/6+-PCR method. Study design: GP5+/6+ amplimers, generated from 434 digene High Risk HPV HC2 DNA Test (HC2)-positive and 95 HC2-negative cervical smears, were genotyped by both the digene LQ Test and the RLB genotyping assay. Results: The genotyping assays revealed high agreement for overall HR HPV detection (ú = 0.884) and type-specific identification of the 18 HR HPV types (overall ú = 0.958, individual ú range 0.795 to 1.000). The digene LQ Test demonstrated a very good inter-laboratory reproducibility (ú = 0.987). Among the HC2-positive women, the digene LQ Test revealed positivity for one or more HR HPV type(s) in 85.9%, and negativity was observed in 97.9% of the HC2-negative women. Conclusions: The digene LQ Test demonstrated a high genotyping agreement with the established RLB genotyping assay on GP5+/6+ amplimers. This novel assay allows for high-throughput genotyping following HR HPV testing by HC2. © 2009 Elsevier B.V. All rights reserved

Evaluation of a Novel Chlamydia trachomatis Microsphere Suspension Assay for Detection and Genotyping of the Different Serovars in Clinical Samples

A novel Chlamydia trachomatis (Ct) microsphere suspension (MS) assay was evaluated for identification of the different serovars, using the same PCR primer set established for the Ct Detection and genoTyping assay. Both assays can detect and identify all 14 major serovars (A, B/Ba, C, D/Da, E, F, G/Ga, H, I/Ia, J, K, L1, L2/L2a, and L3) and one genovariant of serovar J. The probe specificity for the Ct-MS assay was determined using 14 Ct reference strains and 1 clinical isolate from a genovariant of serovar J. Also, the Ct-MS assay and the Ct detection and genoTyping assay were compared in 712 Ct-positive clinical samples. The Ct-MS assay showed a highly specific reaction for all probes with the amplicons of the reference strains, giving a very low background median fluorescence intensity signal (median fluorescence intensity ≤ 10). An excellent overall agreement in the Ct detection (kappa = 0.947, 95% confidence interval, 0.89 to 0.999; McNemar's test, P = 1.000) and the Ct genotyping (kappa = 0.993, 95% confidence interval, 0.977 to 1.000; McNemar's test, P = 0.053) was observed between the Ct detection and genoTyping (DT) assay and the Ct-MS assay. In conclusion, the novel Ct-MS assay permits simultaneous detection and genotyping of Ct serovars, making the Ct-MS assay an excellent high throughput method