Juliane Haedicke scite author profile

f Testing for E6/E7 mRNA in cells infected with high-risk (HR) human papillomavirus (HPV) might improve the specificity of HPV testing for the identification of cervical precancerous lesions. Here we compared the RNA-based Aptima HPV (AHPV) assay (Hologic) and the DNA-based Hybrid Capture 2 (HC2) HPV test (Qiagen) to liquid-based cytology (LBC) for women undergoing routine cervical screening. A total of 10,040 women, 30 to 60 years of age, were invited to participate in the study, 9,451 of whom were included in the analysis. Specimens were tested centrally by LBC, the AHPV test, and the HC2 test, and women who tested positive on any test were referred for colposcopy. Genotyping was performed on all HR-HPV-positive samples. Test characteristics were calculated based on histological review. As a result, we identified 90 women with cervical intraepithelial neoplasia grade 2؉ (CIN2؉), including 43 women with CIN3؉. Sensitivity differences between the AHPV test and the HC2 test in detecting CIN2؉ (P ‫؍‬ 0.180) or CIN3؉ (P ‫؍‬ 0.0625) lesions were statistically nonsignificant. Of three CIN3 cases that were missed with the AHPV test, two cases presented lesion-free cones and one had a non-HR HPV67 infection. The specificity (30 years of age.T he cervical cancer mortality rate in Germany has decreased dramatically since the introduction of gynecological screening for cervical cancer in 1971 (1). Annual opportunistic screening is performed by conventional cytology (Pap smear) and is covered by health insurance for women Ն20 years of age. Despite this extensive effort, 4,600 new cases of cervical cancer (and approximately 1,500 deaths attributable to cervical cancer) (2) and 150,000 cases of cervical cancer precursors (cervical intraepithelial neoplasia grade 3 [CIN3]) are diagnosed each year (3). Persistent infections with high-risk (HR) human papillomaviruses (HPVs) have been shown to be causal for the development of cervical precancerous lesions and cancer. This has led to the development and investigation of various HPV detection methods, and HR HPV testing in addition to cytology is now widely applied in cervical cancer screening programs (4-7). Three DNA-based and one RNAbased assay for HR HPV group detection and two HPV16/18 genotyping assays have been approved by the U.S. Food and Drug Administration (FDA) for cervical cancer screening (http://www.fda.gov /MedicalDevices/ProductsandMedicalProcedures/InVitroDiagnostics /ucm330711.htm). These assays include the Digene Hybrid Capture 2 (HC2) high-risk ...

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Human papillomaviruses and cancer

Haedicke

Iftner

2013

Radiotherapy and Oncology

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Human papillomaviruses (HPV) are small oncogenic DNA viruses of which more than 200 types have been identified to date. A small subset of these is etiologically linked to the development of anogenital malignancies such as cervical cancer. In addition, recent studies established a causative relationship between these high-risk HPV types and tonsillar and oropharyngeal cancer. Clinical management of cervical cancer and head and neck squamous cell carcinomas (HNSCCs) is largely standardized and involves surgical removal of the tumor tissue as well as adjuvant chemoradiation therapy. Notably, the response to therapeutic intervention of HPV-positive HNSCCs has been found to be better as compared to HPV-negative tumors. Although the existing HPV vaccine is solely licensed for the prevention of cervical cancer, it might also have prophylactic potential for the development of high-risk HPV-associated HNSCCs. Another group of viruses, which belongs to the beta-HPV subgroup, has been implicated in nonmelanoma skin cancer, however, the etiology remains to be established. Treatment of HPV-induced nonmelanoma skin cancer is based on local excision. However, topically applied immune-modulating substances represent non-surgical alternatives for the management of smaller cutaneous tumors. In this review we present the current knowledge of the role of HPV in cancer development and discuss clinical management options as well as targets for the development of future intervention therapies.

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A review of the clinical performance of the Aptima HPV assay

Haedicke¹,

Iftner²

2016

Journal of Clinical Virology

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This comprehensive review compiles published data from 62 original articles comparing different HPV tests and one meta-analysis on the clinical performance of the Aptima HR HPV (AHPV) assay in either screening or referral populations as well as for the purpose of test of cure. A number of publications with technical issues were also considered. Besides a brief introduction in the development of E6/E7 mRNA testing, the review summarizes data on analytical sensitivies and specificities, as well as on clinical sensitivity, specificity, NPV and PPV with histological endpoints CIN2+ and CIN3+, where available. Although most studies were of cross-sectional design, five studies with a longitudinal prospective design or component were identified. In addition to the study design, sample size, age and CIN2/3+ prevalence of the respective cohort are listed. This allows direct comparison of the published data in the respective groups. One major outcome of this review is the remarkably stable similar sensitivities of AHPV and HC2 independent from study design for detection of CIN2/3+ combined with a higher specificity of the AHPV. The second outcome was the longitudinal predictive value derived from registry linkage and other prospective studies that would support the applicability of the AHPV test in primary screening with at least a three year screening interval.

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The Ezrin-Radixin-Moesin Family Member Ezrin Regulates Stable Microtubule Formation and Retroviral Infection

Haedicke

Santos

Goff

et al. 2008

J Virol

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We recently identified the cytoskeletal regulatory protein moesin as a novel gene that inhibits retroviral replication prior to reverse transcription by downregulation of stable microtubule formation. Here, we provide evidence that overexpression of ezrin, another closely related ezrin-radixin-moesin (ERM) family member, also blocks replication of both murine leukemia viruses and human immunodeficiency virus type 1 (HIV-1) in Rat2 fibroblasts before reverse transcription, while knockdown of endogenous ezrin increases the susceptibility of human cells to HIV-1 infection. Together, these results suggest that ERM proteins may be important determinants of retrovirus susceptibility through negative regulation of stable microtubule networks.

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The brain-specific factor FEZ1 is a determinant of neuronal susceptibility to HIV-1 infection

Haedicke

Brown

Naghavi

2009

Proc. Natl. Acad. Sci. U.S.A.

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Neurons are one of the few cell types in the human body that do not support HIV type-1 (HIV-1) replication. Although the lack of key receptors is a major obstacle to infection, studies suggest that additional functions inhibit virus replication to explain the exquisite resistance of neurons to HIV-1. However, specific neuronal factors that may explain this resistance remain to be discovered. In a screen for antiviral factors using a fibroblast line chemically mutagenized and selected for resistance to retroviral infection, we recently identified induction of rat FEZ1 (fasciculation and elongation protein zeta-1), a brain-specific protein, as the cause of this resistance. When exogenously expressed in nonneuronal cell lines rat FEZ1 blocked nuclear entry of retroviral DNA. Here, we demonstrate that among human brain cells, neurons naturally express high levels of FEZ1 compared to astrocytes or microglia cells and are correspondingly less susceptible to infection with pseudotyped HIV-1 that bypasses receptor-mediated viral entry. Demonstrating that endogenous FEZ1 was functionally important in the resistance of neurons to HIV-1 infection, siRNA-mediated knockdown of endogenous FEZ1 increased the infectivity of neurons while sensitive brain cell types like microglia became more resistant upon FEZ1 overexpression. In addition, FEZ1 expression was not induced in response to IFN treatment. As such, in contrast to other widely expressed, IFN-inducible antiviral factors, FEZ1 appears to represent a unique neuron-specific determinant of cellular susceptibility to infection in a cell type that is naturally resistant to HIV-1.

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