Open AccessUse of Reprogrammed Cells to Identify Therapy for Respiratory Papillomatosis
Author(s) -
Hang Yuan,
Scott A. Myers,
Jingang Wang,
Dan Zhou,
Jennifer A. Woo,
Bhaskar Kallakury,
Andrew Ju,
Michael Bazylewicz,
Yvonne M. Carter,
Christopher Albanese,
Nazaneen N. Grant,
Aziza Shad,
Anatoly Dritschilo,
Xuefeng Liu,
Richard Schlegel
Publication year - 2012
Publication title -
new england journal of medicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 19.889
H-Index - 1030
eISSN - 1533-4406
pISSN - 0028-4793
DOI - 10.1056/nejmoa1203055
Subject(s) - medicine , recurrent respiratory papillomatosis , cancer research , reprogramming , genome , respiratory system , parenchyma , lung , pathology , biology , papilloma , cell , genetics , gene
A patient with a 20-year history of recurrent respiratory papillomatosis had progressive, bilateral tumor invasion of the lung parenchyma. We used conditional reprogramming to generate cell cultures from the patient's normal and tumorous lung tissue. Analysis revealed that the laryngeal tumor cells contained a wild-type 7.9-kb human papillomavirus virus type 11 (HPV-11) genome, whereas the pulmonary tumor cells contained a 10.4-kb genome. The increased size of the latter viral genome was due to duplication of the promoter and oncogene regions. Chemosensitivity testing identified vorinostat as a potential therapeutic agent. At 3 months after treatment initiation, tumor sizes had stabilized, with durable effects at 15 months.
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