Role of normal cervical stem cells in HPV induced initiation of cervical cancer

正常宫颈干细胞在HPV诱导的宫颈癌发生中的作用

• 批准号: 8349181
• 负责人: John Niederhuber
• 金额: $ 4.97万
• 依托单位: DIVISION OF BASIC SCIENCES - NCI
• 依托单位国家: 美国
• 资助国家: 美国
• 起止时间: 至
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/8349181
• 关键词: AIDS/HIV problem; Apical; Architecture; Basal Cell; Basement membrane; Binding; Binding Sites; Cell Count; Cell Fraction; Cell Separation; Cell physiology; Cells; Cervical; Cervix Uteri; Cleaved cell; Cooperative Human Tissue Network; Data; Development; Dissociation; Dysplasia; Environment; Epithelial; Epithelial Cells; Epithelium; Genetic; Goals; HIV; HPV-High Risk; Heterogeneity; Human; Human Papillomavirus; Immune; Immunity; In Situ; Infection; Laboratories; Lead; Lesion; Malignant Neoplasms; Malignant neoplasm of cervix uteri; Mechanics; Membrane; Modeling; Monitor; Natural regeneration; Neoplasms; Organ Culture Techniques; Papillomavirus; Population; Premalignant; Prevalence; Property; Protocols documentation; Reporter Genes; Risk; Role; Stem cells; Stratum Basale; Testing; Time; Tissues; Trauma; Virus; Virus Diseases; Woman; carcinogenesis; design; human tissue; improved; in vivo; novel marker; novel strategies; particle; red fluorescent protein; stem cell population

Though HPV has been established as the etiologic agent for virtually all cervical cancers, the majority of cervical HPV infections do not lead to cervical cancer. Only 1% of cases progress to high grade dysplasia and cancer. The majority of cervical HPV-infections are transient non-neoplastic productive viral infections which disappear within a year. It is generally accepted that persistence of high risk HPV infection is an imperative state in the development of cervical neoplasia. The crucial factors determining persistence of infection and its correlation with an increased risk for cervical cancer in women with normal immune status are still largely unknown. These factors in women with compromised immunity such as in HIV/AIDS is also unknown, but there is an increased prevalence of cervical cancer in the HIV population. Persistent infection may only occur upon targeted infection of specific cervical cells, possibly with stem cell properties. In order to test this idea, we utilize fresh human tissue cervical epithelial tissue obtained from the Cooperative Human Tissue Network. Our laboratory successfully developed a protocol to isolate cervical epithelial cells and to identify a phenotypically distinct subpopulation with functional properties expected for stem cells. The preliminary data show that this cell fraction, originating from the basal layer of the ectocervical epithelium possesses an 10 fold increased capacity to bind papillomavirus-like particles (VLP), thus implying that these cells may express an increased number of papillomavirus binding sites facilitating viral infection if targeted by the virus. In an effort to optimize an environment that recapitulates the conditions under which stem cells function in situ, we have also developed an ectocervical organ culture model that allows us to establish and monitor HPV pseudovirus binding and infection in fresh cervical tissue. Cervical tissue maintained in culture undergoes rapid cell dissociation and exfoliation of the more differentiated, apical epithelial layers. In contrast, the basal cells remain attached to the basement membrane, where presumed epithelial stem cells reside. We have observed that only a very limited number of cells within the basal layer remains infected over time by pseudovirus using red fluorescent protein as a reporter gene. It is our plan to characterize the infected cells using FACs analysis to determine whether they are indeed cervical stem cells. We plan to use a furin cleaved pseudovirus developed in John Schiller's lab at NCI to increase the efficiency of infection. It was previously observed that the formerly quiescent basal cells could become proliferative and regenerate the entire epithelium under such whole tissue mount conditions, preserving the tissue architecture and cellular heterogeneity normally observed in vivo. It is postulated that when HPV infection occurred in vivo following a mechanical trauma to epithelial layer exposing the basal membrane, the resulting regeneration of apical layers could ultimately spark neoplasia. The conditions that lead to such development are currently under optimization and upon implementing, will further mimic in vivo HPV infection and assist our understanding of cervical carcinogenesis. We plan to further characterize the cervical stem cell population by searching for new markers using a global genetic approach which will improve stem cell isolation and to investigate the role of these cells in progression of a productive viral infection to virus induced pre-malignant lesions and cervical cancer. This study aims to improve our understanding of HPV induced cervical carcinogenesis and contribute to the development of novel strategies designed to target cervical cancer.

虽然HPV已被确定为几乎所有宫颈癌的病因，但大多数宫颈HPV感染并不会导致宫颈癌。只有1%的病例进展为高度不典型增生和癌症。大多数宫颈HPV感染是一过性的非肿瘤性生产性病毒感染，在一年内消失。一般认为，高危型HPV感染的持续存在是宫颈肿瘤发生发展的必然状态。在免疫状态正常的女性中，决定感染持久性的关键因素及其与宫颈癌风险增加的相关性在很大程度上仍不清楚。这些因素在免疫功能受损的妇女中也是未知的，但艾滋病毒人群中宫颈癌的患病率正在上升。持续感染可能仅在特定宫颈细胞的靶向感染时发生，可能具有干细胞特性。为了测试这一想法，我们使用了从合作人类组织网络获得的新鲜人类组织宫颈上皮组织。我们的实验室成功地开发了一种分离宫颈上皮细胞的方案，并鉴定了一个具有干细胞预期功能特性的表型独特的亚群。初步数据显示，这种来源于宫颈上皮基底层的细胞组分具有10倍的结合乳头瘤病毒样颗粒(VLP)的能力，这意味着如果以病毒为靶点，这些细胞可能表达更多的乳头瘤病毒结合部位，从而促进病毒感染。为了优化干细胞在原位发挥作用的环境，我们还开发了一种宫颈外器官培养模型，使我们能够建立和监测新鲜宫颈组织中HPV假病毒的结合和感染。在培养中保持的宫颈组织经历快速的细胞解离和更分化的顶端上皮层的剥离。相比之下，基底细胞仍然附着在基底膜上，推测上皮干细胞就在基底膜上。我们观察到，随着时间的推移，只有非常有限数量的基底层细胞仍然受到以红色荧光蛋白为报告基因的伪病毒的感染。我们的计划是利用流式细胞仪分析感染细胞的特征，以确定它们是否真的是宫颈干细胞。我们计划使用约翰·席勒在NCI的实验室开发的一种切割呋喃的假病毒来提高感染效率。以前观察到，在这样的全组织贴壁条件下，以前静止的基底细胞可以增殖并再生整个上皮，保留了通常在体内观察到的组织结构和细胞异质性。据推测，当HPV感染发生在暴露基底膜的上皮层的机械性损伤后，由此产生的根尖层再生最终可能引发肿瘤。导致这种发展的条件目前正在优化中，一旦实施，将进一步模拟体内HPV感染，并有助于我们了解宫颈癌的发生。我们计划通过使用全球遗传方法寻找新的标记来进一步表征宫颈干细胞群体，这将改善干细胞分离，并调查这些细胞在生产性病毒感染到病毒诱导的癌前病变和宫颈癌进展中的作用。这项研究旨在提高我们对HPV诱导的宫颈癌发生的了解，并有助于开发针对宫颈癌的新策略。