Your search keyword '"Resnick, Rebecca"' showing total 3 results

1. Stromal Expression of miR-143/145 Promotes Neoangiogenesis in Lung Cancer Development

Author

Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Dimitrova, Ivana Ljubomirova, Gocheva, Vasilena, Bhutkar, Arjun, Resnick, Rebecca, Jong, Robyn, Miller, Kathryn, Bendor, Jordan, Jacks, Tyler E., Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Dimitrova, Ivana Ljubomirova, Gocheva, Vasilena, Bhutkar, Arjun, Resnick, Rebecca, Jong, Robyn, Miller, Kathryn, Bendor, Jordan, and Jacks, Tyler E.

Abstract

The two unrelated miRNAs miR-143 and miR-145, coexpressed from the miR-143/145 cluster, have been proposed to act as tumor suppressors in human cancer, and therapeutic benefits of delivering miR-143 and miR-145 to tumors have been reported. In contrast, we found that tumor-specific deletion of miR-143/145 in an autochthonous mouse model of lung adenocarcinoma did not affect tumor development. This was consistent with the lack of endogenous miR-143/145 expression in normal and transformed lung epithelium. Surprisingly, miR-143/145 in the tumor microenvironment dramatically promoted tumor growth by stimulating the proliferation of endothelial cells. Loss of miR-143/145 in vivo led to derepression of the miR-145 target CAMK1D, an inhibitory kinase, which when overexpressed prevents mitotic entry of endothelial cells. As a consequence, tumors in miR-143/145-deficient animals exhibited diminished neoangiogenesis, increased apoptosis, and their expansion was limited by the tumor’s ability to co-opt the alveolar vasculature. These findings demonstrate that stromal miR-143/145 promotes tumorigenesis and caution against the use of these miRNAs as agents in cancer therapeutics.SIGNIFICANCE: This study shows that miR-143/145 expressed from the tumor microenvironment stimulates neoangiogenesis and supports tumor expansion in the lung, demonstrating a surprising role for the putative tumor suppressor miRNA cluster in promoting tumorigenesis. We propose inhibition of miR-143/145 as a therapeutic avenue to modulate tumor neoangiogenesis., National Institutes of Health (U.S.) (Grant P01-CA42063-26), National Cancer Institute (U.S.) (Grant P30-CA14051)

Published

2018

2. LincRNA-p21 Activates p21 In cis to Promote Polycomb Target Gene Expression and to Enforce the G1/S Checkpoint

Author

Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Dimitrova, Nadya, Zamudio, Jesse Ray, Jong, Robyn, Soukup, Dylan S., Resnick, Rebecca, Whipple, Amanda Joy, Raj, Arjun, Sharp, Phillip A., Jacks, Tyler E., Sarma, Kavitha, Lee, Jeannie T., Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Dimitrova, Nadya, Zamudio, Jesse Ray, Jong, Robyn, Soukup, Dylan S., Resnick, Rebecca, Whipple, Amanda Joy, Raj, Arjun, Sharp, Phillip A., Jacks, Tyler E., Sarma, Kavitha, and Lee, Jeannie T.

Abstract

The p53-regulated long noncoding RNA lincRNA-p21 has been proposed to act in trans via several mechanisms ranging from repressing genes in the p53 transcriptional network to regulating mRNA translation and protein stability. To further examine lincRNA-p21 function, we generated a conditional knockout mouse model. We find that lincRNA-p21 predominantly functions in cis to activate expression of its neighboring gene, p21. Mechanistically, we show that lincRNA-p21 acts in concert with hnRNP-K as a coactivator for p53-dependent p21 transcription. Additional phenotypes of lincRNA-p21 deficiency could be attributed to diminished p21 levels, including deregulated expression and altered chromatin state of some Polycomb target genes, a defective G1/S checkpoint, increased proliferation rates, and enhanced reprogramming efficiency. These findings indicate that lincRNA-p21 affects global gene expression and influences the p53 tumor suppressor pathway by acting in cis as a locus-restricted coactivator for p53-mediated p21 expression., National Institutes of Health (U.S.), Howard Hughes Medical Institute, Ludwig Center for Molecular Oncology, Damon Runyon Cancer Research Foundation

Published

2017

3. Stage-specific sensitivity to p53 restoration during lung cancer progression

Author

Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Feldser, David M., Kostova, Kamena K., Winslow, Monte Meier, Taylor, Sarah E., Cashman, Chris, Whittaker, Charles A., Sanchez-Rivera, Francisco J., Resnick, Rebecca, Hemann, Michael, Bronson, Roderick T., Jacks, Tyler E., Sanchez-Rivera, Francisco Jav, Jacks, Tyler E, Massachusetts Institute of Technology. Department of Biology, Koch Institute for Integrative Cancer Research at MIT, Feldser, David M., Kostova, Kamena K., Winslow, Monte Meier, Taylor, Sarah E., Cashman, Chris, Whittaker, Charles A., Sanchez-Rivera, Francisco J., Resnick, Rebecca, Hemann, Michael, Bronson, Roderick T., Jacks, Tyler E., Sanchez-Rivera, Francisco Jav, and Jacks, Tyler E

Abstract

2011 May 25, Tumorigenesis is a multistep process that results from the sequential accumulation of mutations in key oncogene and tumour suppressor pathways. Personalized cancer therapy that is based on targeting these underlying genetic abnormalities presupposes that sustained inactivation of tumour suppressors and activation of oncogenes is essential in advanced cancers. Mutations in the p53 tumour-suppressor pathway are common in human cancer and significant efforts towards pharmaceutical reactivation of defective p53 pathways are underway1, 2, 3. Here we show that restoration of p53 in established murine lung tumours leads to significant but incomplete tumour cell loss specifically in malignant adenocarcinomas, but not in adenomas. We define amplification of MAPK signalling as a critical determinant of malignant progression and also a stimulator of Arf tumour-suppressor expression. The response to p53 restoration in this context is critically dependent on the expression of Arf. We propose that p53 not only limits malignant progression by suppressing the acquisition of alterations that lead to tumour progression, but also, in the context of p53 restoration, responds to increased oncogenic signalling to mediate tumour regression. Our observations also underscore that the p53 pathway is not engaged by low levels of oncogene activity that are sufficient for early stages of lung tumour development. These data suggest that restoration of pathways important in tumour progression, as opposed to initiation, may lead to incomplete tumour regression due to the stage-heterogeneity of tumour cell populations., National Cancer Institute (U.S.) (Cancer Center Support Grant P30-CA14051), American Cancer Society (New England Area Fellow), Leukemia & Lymphoma Society of America (Fellow), Massachusetts Institute of Technology. Undergraduate Research Program (John Reed Fund), Damon Runyon Cancer Research Foundation (Merck Fellow), Genentech, Inc. (Postdoctoral Fellow), Howard Hughes Medical Institute

Published

2012