John Langenfeld scite author profile

The retinoids are reported to reduce incidence of second primary aerodigestive cancers. Mechanisms for this chemoprevention are previously linked to all-trans retinoic acid (RA) signaling growth inhibition at G 1 in carcinogen-exposed immortalized human bronchial epithelial cells. This study investigated how RA suppresses human bronchial epithelial cell growth at the G 1 -S cell cycle transition. RA signaled growth suppression of human bronchial epithelial cells and a decline in cyclin D1 protein but not mRNA expression. Exogenous cyclin D1 protein also declined after RA treatment of transfected, immortalized human bronchial epithelial cells, suggesting that posttranslational mechanisms were active in this regulation of cyclin D1 expression. Findings were extended by showing treatment with ubiquitindependent proteasome inhibitors: calpain inhibitor I and lactacystin each prevented this decreased cyclin D1 protein expression, despite RA treatment. Treatment with the cysteine proteinase inhibitor, E-64, did not prevent this cyclin D1 decline. High molecular weight cyclin D1 protein species appeared after proteasome inhibitor treatments, suggesting that ubiquitinated species were present. To learn whether RA directly promoted degradation of cyclin D1 protein, studies using human bronchial epithelial cell protein extracts and in vitro-translated cyclin D1 were performed. In vitro-translated cyclin D1 degraded more rapidly when incubated with extracts from RA treated vs. untreated cells. Notably, this RA-signaled cyclin D1 proteolysis depended on the C-terminal PEST sequence, a region rich in proline (P), glutamate (E), serine (S), and threonine (T). Taken together, these data highlight RA-induced cyclin D1 proteolysis as a mechanism signaling growth inhibition at G 1 active in the prevention of human bronchial epithelial cell transformation.

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Intratumoral injection of the seasonal flu shot converts immunologically cold tumors to hot and serves as an immunotherapy for cancer

Newman

Chesson

Herzog

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

147

142

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Reprogramming the tumor microenvironment to increase immune-mediated responses is currently of intense interest. Patients with immune-infiltrated “hot” tumors demonstrate higher treatment response rates and improved survival. However, only the minority of tumors are hot, and a limited proportion of patients benefit from immunotherapies. Innovative approaches that make tumors hot can have immediate impact particularly if they repurpose drugs with additional cancer-unrelated benefits. The seasonal influenza vaccine is recommended for all persons over 6 mo without prohibitive contraindications, including most cancer patients. Here, we report that unadjuvanted seasonal influenza vaccination via intratumoral, but not intramuscular, injection converts “cold” tumors to hot, generates systemic CD8+ T cell-mediated antitumor immunity, and sensitizes resistant tumors to checkpoint blockade. Importantly, intratumoral vaccination also provides protection against subsequent active influenza virus lung infection. Surprisingly, a squalene-based adjuvanted vaccine maintains intratumoral regulatory B cells and fails to improve antitumor responses, even while protecting against active influenza virus lung infection. Adjuvant removal, B cell depletion, or IL-10 blockade recovers its antitumor effectiveness. Our findings propose that antipathogen vaccines may be utilized for both infection prevention and repurposing as a cancer immunotherapy.

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Bone morphogenetic protein 2 stimulation of tumor growth involves the activation of Smad-1/5

2005

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Morphogenetic protein 2 (BMP-2) is normally expressed in the embryo promoting the development of several organs. Aberrant expression of BMP-2 occurs in approximately 98% of lung carcinomas, however, its role in regulating tumor growth is poorly understood. We show that BMP-2 induces Id-1 expression in lung cancer cell lines through its activation of Smad-1/5, which is dependent on cell culture conditions. A549 cells in DMEM/5% FCS BMP-2 activated Smad-1/5 and caused a transient increase in proliferation. In serum-free medium, BMP-2 induced significantly less Smad-1/5 activation and Id-1 expression, and produced significant growth inhibition. The affect of BMP-2 on tumor growth in vivo was substantially more significant. Recombinant BMP-2 coinjected with A549 cells, into nude mice increased proliferation and produced an increase in Id-1 expression. Forced expression of BMP-2 in A549 cells significantly enhanced tumor growth in the lungs following intravenous injection but not of subcutaneous tumors. Tumors in the lung were found to have an activated Smad-1/5 and expressed Id-1. Subcutaneous tumors expressed less activated Smad-1/5 and Id-1 than that of controls. Human lung carcinomas were also found to express an activated Smad-1/5 and Id-1. We provide evidence that BMP-2 promotes tumor growth. This paper highlights that cell culture experiments may not reveal the full biological affects of BMP-2, and its activity varies depending of the local environment.

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John Langenfeld

The National Lung Screening Trial: Overview and Study Design

Posttranslational regulation of cyclin D1 by retinoic acid: A chemoprevention mechanism

Intratumoral injection of the seasonal flu shot converts immunologically cold tumors to hot and serves as an immunotherapy for cancer

Bone morphogenetic protein 2 stimulation of tumor growth involves the activation of Smad-1/5

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