Nearly 5-20% of lungs resected for primary adenocarcinomas harbored minute discrete foci of cytologically atypical bronchiolo-alveolar cells that are designated as atypical adenomatous hyperplasia (AAH). AAH is characterized by the proliferation of cuboidal to columnar epithelial cells with various degrees of cytologic atypia (ranging from low to severe) that appears to be in transition with localized noninvasive adenocarcinoma in situ (AIS, formerly known as bronchiolo-alveolar carcinoma or BAC). It was reported that persistently observed small indeterminate nodules, such as ground-glass opacity (GGO) lesions identified by computed tomography, turn out to be pathologically AAH or AIS. If not resected, some of these lesions increase in size and a solid component within the lesion tend to appear and extend. Such GGO lesions, called mixed or part solid nodules, are highly associated with minimally invasive adenocarcinoma (MIA). In light of histo-pathologic and clinical features, it has been postulated that AAH lesions may represent an early stage in glandular neoplasia. In fact, glandular neoplasia of the lung is now viewed along a biological and clinical continuum that progresses from AAH to AIS to MIA. Further support for a developmental sequence from AAH to adenocarcinoma comes from the series of independent studies that have demonstrated that mutually exclusive activating EGFR or KRAS mutations were identified in pre-malignant AAH and pre-invasive AIS lesions, suggesting that these mutations are early events in the multistep carcinogenesis of lung adenocarcinoma. Based on these evidences, many investigators tried to proof the concept of multistep progression by comparing the incidence of these genetic events between AAH, AIS or invasive adenocarcinoma. All the later data's are generated mostly by candidate gene approach and no comprehensive molecular information are available in these lesions partly due to the lack of quantity of samples for comprehensive molecular studies. To delineate clonal heterogeneity as a function of progression, it is essential to develop resources that will provide high quality primary tissue samples that maintained genetic integrity as primary lesions. PDx model that will be developed in this application may provide unlimited tissue resources for multilayered biological assays at DNA, RNA and protein levels. So the primary end point of this application is to develop PDx model of these early lesions and to molecularly compare between engrafted tissues and primary tissues by candidate gene approach. Further studies of this application include genetic characterization of screening positive primary lesions and functional characterization of identified novel mutations that will ultimately allow to develop preventive and therapeutic approaches for these pre-neoplastic lesions.

Public Health Relevance

This application will develop PDx models of early lung lesions that could be used for comprehensively identifying variety of molecular markers for overall management of lung cancer. All the proposed aims are unite around the common research goal of generating novel management approach for these early lesions.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA206027-05
Application #
9959351
Study Section
Special Emphasis Panel (ZCA1)
Program Officer
Johnson, Ronald L
Project Start
2016-07-01
Project End
2021-06-30
Budget Start
2020-07-01
Budget End
2021-06-30
Support Year
5
Fiscal Year
2020
Total Cost
Indirect Cost
Name
Johns Hopkins University
Department
Otolaryngology
Type
Schools of Medicine
DUNS #
001910777
City
Baltimore
State
MD
Country
United States
Zip Code
21205
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Shibata, Masahiro; Ham, Kendall; Hoque, Mohammad Obaidul (2018) A time for YAP1: Tumorigenesis, immunosuppression and targeted therapy. Int J Cancer 143:2133-2144
Shibata, Masahiro; Hoque, Mohammad Obaidul (2018) Development of biomarkers for real precision medicine. Transl Lung Cancer Res 7:S228-S231