Generalized differential equations: Differentiability of solutions with respect to initial conditions and parameters

Infections with human papillomavirus (HPV) are common and transmitted by direct contact. Although the great majority of infections resolve within 2 years, 13 phylogenetically related, sexually transmitted HPV genotypes, notably HPV16, cause - if not controlled immunologically or by screening - virtually all cervical cancers worldwide, a large fraction of other anogenital cancers and an increasing proportion of oropharyngeal cancers. The carcinogenicity of these HPV types results primarily from the activity of the oncoproteins E6 and E7, which impair growth regulatory pathways. Persistent high-risk HPVs can transition from a productive (virion-producing) to an abortive or transforming infection, after which cancer can result after typically slow accumulation of host genetic mutations. However, which precancerous lesions progress and which do not is unclear; the majority of screening-detected precancers are treated, leading to overtreatment. The discovery of HPV as a carcinogen led to the development of effective preventive vaccines and sensitive HPV DNA and RNA tests. Together, vaccination programmes (the ultimate long-term preventive strategy) and screening using HPV tests could dramatically alter the landscape of HPV-related cancers. HPV testing will probably replace cytology-based cervical screening owing to greater reassurance when the test is negative. However, the effective implementation of HPV vaccination and screening globally remains a challenge.

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Immune responses to human papillomavirus

Stanley

2006

Vaccine

507

423

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Epithelial Cell Responses to Infection with Human Papillomavirus

2012

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SUMMARY Human papillomavirus (HPV) infection of the genital tract is common in young sexually active individuals, the majority of whom clear the infection without overt clinical disease. Most of those who do develop benign lesions eventually mount an effective cell-mediated immune (CMI) response, and the lesions regress. Regression of anogenital warts is accompanied histologically by a CD4 + T cell-dominated Th1 response; animal models support this and provide evidence that the response is modulated by antigen-specific CD4 + T cell-dependent mechanisms. Failure to develop an effective CMI response to clear or control infection results in persistent infection and, in the case of the oncogenic HPVs, an increased probability of progression to high-grade intraepithelial neoplasia and invasive carcinoma. Effective evasion of innate immune recognition seems to be the hallmark of HPV infections. The viral infectious cycle is exclusively intraepithelial: there is no viremia and no virus-induced cytolysis or cell death, and viral replication and release are not associated with inflammation. HPV globally downregulates the innate immune signaling pathways in the infected keratinocyte. Proinflammatory cytokines, particularly the type I interferons, are not released, and the signals for Langerhans cell (LC) activation and migration, together with recruitment of stromal dendritic cells and macrophages, are either not present or inadequate. This immune ignorance results in chronic infections that persist over weeks and months. Progression to high-grade intraepithelial neoplasia with concomitant upregulation of the E6 and E7 oncoproteins is associated with further deregulation of immunologically relevant molecules, particularly chemotactic chemokines and their receptors, on keratinocytes and endothelial cells of the underlying microvasculature, limiting or preventing the ingress of cytotoxic effectors into the lesions. Recent evidence suggests that HPV infection of basal keratinocytes requires epithelial wounding followed by the reepithelization of wound healing. The wound exudate that results provides a mechanistic explanation for the protection offered by serum neutralizing antibody generated by HPV L1 virus-like particle (VLP) vaccines.

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Immunological Events in Regressing Genital Warts

et al. 1994

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Little is known of the in vivo role of the immune system in controlling human papillomavirus infection in the genital tract. The authors have studied 125 closely monitored patients with genital warts. Of these 125 patients, wart regression was seen in 28 patients. This study provides evidence that clearance of human papillomavirus from the genital tract is characterized by an active cell-mediated immune response. Regressing warts (n = 14) contained significantly more T lymphocytes (P < .05, Wilcoxon rank sum test) and macrophages (P < .01) than did nonregressing controls (n = 14). CD4-positive lymphocytes predominated in regression, both within the wart stroma and the surface epithelium, where there was a significant change in the ratio of CD4+ to CD8+ cells (P < .01). Lymphocytes in regression also showed greater expression of activation markers, and the majority were of the "antigen-experienced" phenotype. There was no difference in Langerhans cell numbers, although there was significant induction of the immune accessory molecules HLA-DR and ICAM1 (P < .05) on keratinocytes, and E-selectin and VCAM1 (P < .05) on endothelial cells in regressing warts. The changes in regression are consistent with a delayed-type hypersensitivity reaction to foreign antigen, and the ability to induce and mount such a response may be a critical determinant of effective natural immunity to the genital HPVs. Specific targeting of delayed-type hypersensitivity responsiveness may increase the efficacy of strategies for immuno-intervention against HPV infection in the genital tract.

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Margaret Stanley

The Biology and Life-Cycle of Human Papillomaviruses

Carcinogenic human papillomavirus infection

Immune responses to human papillomavirus

Epithelial Cell Responses to Infection with Human Papillomavirus

Immunological Events in Regressing Genital Warts

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