Cyclin D1 in oral carcinogenesis

细胞周期蛋白 D1 在口腔癌发生中的作用

• 批准号: 6647085
• 负责人: SANJAY M MALLYA
• 金额: $ 12.64万
• 依托单位: UNIVERSITY OF CONNECTICUT SCH OF MED/DNT
• 依托单位国家: 美国
• 财政年份: 2002
• 资助国家: 美国
• 起止时间: 2002-09-01 至 2007-08-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6647085
• 关键词: calcium; cell proliferation; cyclins; disease /disorder model; histochemistry /cytochemistry; hyperparathyroidism; laboratory mouse; neoplastic growth; parathyroid hormones; parathyroid neoplasms; polymerase chain reaction; postdoctoral investigator; receptor expression; southern blotting; squamous cell carcinoma

DESCRIPTION (provided by applicant): The proposed plan for the K22 award is one year of the scholar phase and four years of the faculty development phase. The scholar phase will be spent pursuing advanced postdoctoral training in the laboratory of Dr. Andrew Arnold at the University of Connecticut Health Center. This phase of mentored training is designed to allow me to concentrate my efforts on research and career development. During this period, we will investigate the molecular mechanisms of hyperparathyroidism (HPT). A hallmark of parathyroid adenomas is their loss of calcium sensitivity--an apparent resetting of the 'setpoint' mechanism that normally tightly couples PTH secretion with ambient calcium levels. In these tumors, the processes of hormonal dysregulation and proliferation seem to be inexorably linked. However, the mechanisms that underlie these crucial and consistent links are not yet known. We have recently developed a mouse model of primary HPT. In this model, we have established that primary deregulation of cyclin D1 causes a secondary disturbance in parathyroid proliferation and in the calcium-PTH secretory relationship. Examination of the contribution of cyclin D1 to deregulation of setpoint control will elucidate the critical links between proliferation and functional abnormalities in parathyroid neoplasia. In our mouse model of primary HPT, cyclin D1 deregulation causes hypercellularity and enlargement of the parathyroid glands. However, it has not been established whether these glandular enlargements represent polyclonal proliferations or clonal expansions. Examination of the clonal nature of these lesions will shed light on the oncogenic mechanism of cyclin D1 and will form the basis for future studies on the genetic regulation of parathyroid tumorigenesis in this animal model of HPT. Research proposed for the faculty phase will study the molecular mechanisms of oral neoplastic progression. These studies will exploit a recently developed mouse model of upper aero-digestive cancer. In this model, tissue-specific dysregulation of cyclin D1 causes epithelial dysplasias in the tongue, esophagus and forestomach. This model will be used to study the interaction of cyclin D1 overexpression with chemical carcinogens in the development of oral squamous cell carcinoma, and the molecular and genetic events that occur during the progression of cyclin D1-induced dysplasias. These studies will elucidate our understanding of cyclin D1's role in oral premalignancy and malignancy and the molecular events in the multistep oral carcinogenic process.

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