Hongyi Zhang1,2, Huifang Zhu1,3, Gang Deng4,5, Christopher R Zito1,6, Victor O Oria1, Chetan K Rane1, Shenqi Zhang4,5, Sarah A Weiss1, Thuy Tran1, Adebowale Adeniran7, Fanfan Zhang1, Jiangbing Zhou4, Yuval Kluger7, Marcus W Bosenberg8, Harriet M Kluger1, Lucia B Jilaveanu1. 1. Section of Medical Oncology, Department of Medicine, Yale University School of Medicine, New Haven, Connecticut. 2. Department of Microbiology and Immunology, School of Basic Medicine, Jinan University, Guangzhou, China. 3. Molecular Medicine and Cancer Research Center, Chongqing Medical University, Chongqing, China. 4. Department of Neurosurgery, Yale University School of Medicine, New Haven, Connecticut. 5. Department of Neurosurgery, Renmin Hospital, Wuhan University, Wuhan, China. 6. Department of Biology, School of Arts, Sciences, Business, and Education, University of Saint Joseph, West Hartford, Connecticut. 7. Department of Pathology, Yale University School of Medicine, New Haven, Connecticut. 8. Department of Dermatology, Yale University School of Medicine, New Haven, Connecticut.
Abstract
BACKGROUND: PLEKHA5 has previously been identified as a novel molecule implicated in melanoma brain metastasis, a disease that continues to portend a poor prognosis. The aim of this study was to further investigate the functional role of PLEKHA5 in disseminated melanoma. METHODS: The impact of PLEKHA5 on proliferation and tumor growth was examined in vitro and in melanoma xenograft models, including brain-tropic melanomas (melanomas tending to disseminate to the brain). In vitro loss- and gain-of-function studies were used to explore the underlying mechanisms of PLEKHA5-mediated tumor growth and the crosstalk between PLEKHA5 and PI3K/AKT/mTOR or MAPK/ERK signaling. The clinical relevance of PLEKHA5 dysregulation was further investigated in a cohort of matched cranial and extracranial melanoma metastases. RESULTS: PLEKHA5 stable knockdown negatively regulated cell proliferation by inhibiting the G1 -to-S cell cycle transition, which coincided with upregulation of the cell cycle regulator PDCD4. Conversely, ectopic PLEKHA5 expression exhibited the inverse effect. PLEKHA5 knockdown significantly inhibited tumor growth, whereas its overexpression upregulated the growth of tumors, which was induced by cranial and subcutaneous inoculation of cells in nude mice. PLEKHA5 modulation affected PDCD4 protein stability and was coupled with changes in PI3K/AKT/mTOR pathway signaling. High PDCD4 expression in cerebral specimens was associated with better overall survival. CONCLUSIONS: This study further supports the role of PLEKHA5 as a regulator of melanoma growth at distant sites, including the brain. Furthermore, the results highlight the significance of PDCD4 dysregulation in disseminated melanoma and implicate PDCD4 as a possible causal link between PLEKHA5 and cell proliferation and growth.
BACKGROUND: PLEKHA5 has previously been identified as a novel molecule implicated in melanoma brain metastasis, a disease that continues to portend a poor prognosis. The aim of this study was to further investigate the functional role of PLEKHA5 in disseminated melanoma. METHODS: The impact of PLEKHA5 on proliferation and tumor growth was examined in vitro and in melanoma xenograft models, including brain-tropic melanomas (melanomas tending to disseminate to the brain). In vitro loss- and gain-of-function studies were used to explore the underlying mechanisms of PLEKHA5-mediated tumor growth and the crosstalk between PLEKHA5 and PI3K/AKT/mTOR or MAPK/ERK signaling. The clinical relevance of PLEKHA5 dysregulation was further investigated in a cohort of matched cranial and extracranial melanoma metastases. RESULTS: PLEKHA5 stable knockdown negatively regulated cell proliferation by inhibiting the G1 -to-S cell cycle transition, which coincided with upregulation of the cell cycle regulator PDCD4. Conversely, ectopic PLEKHA5 expression exhibited the inverse effect. PLEKHA5 knockdown significantly inhibited tumor growth, whereas its overexpression upregulated the growth of tumors, which was induced by cranial and subcutaneous inoculation of cells in nude mice. PLEKHA5 modulation affected PDCD4 protein stability and was coupled with changes in PI3K/AKT/mTOR pathway signaling. High PDCD4 expression in cerebral specimens was associated with better overall survival. CONCLUSIONS: This study further supports the role of PLEKHA5 as a regulator of melanoma growth at distant sites, including the brain. Furthermore, the results highlight the significance of PDCD4 dysregulation in disseminated melanoma and implicate PDCD4 as a possible causal link between PLEKHA5 and cell proliferation and growth.
Authors: Lucia B Jilaveanu; Fabio Parisi; Meaghan L Barr; Christopher R Zito; William Cruz-Munoz; Robert S Kerbel; David L Rimm; Marcus W Bosenberg; Ruth Halaban; Yuval Kluger; Harriet M Kluger Journal: Clin Cancer Res Date: 2014-10-14 Impact factor: 12.531
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Authors: Michael Krauthammer; Yong Kong; Antonella Bacchiocchi; Perry Evans; Natapol Pornputtapong; Cen Wu; Jamie P. McCusker; Shuangge Ma; Elaine Cheng; Robert Straub; Merdan Serin; Marcus Bosenberg; Stephan Ariyan; Deepak Narayan; Mario Sznol; Harriet M Kluger; Shrikant Mane; Joseph Schlessinger; Richard P Lifton; Ruth Halaban Journal: Nat Genet Date: 2015-07-27 Impact factor: 41.307
Authors: Victor O Oria; Hongyi Zhang; Christopher R Zito; Chetan K Rane; Xian-Yong Ma; Olivia K Provance; Thuy T Tran; Adebowale Adeniran; Yuval Kluger; Mario Sznol; Marcus W Bosenberg; Harriet M Kluger; Lucia B Jilaveanu Journal: Cell Mol Life Sci Date: 2022-06-23 Impact factor: 9.207
Authors: Thuy T Tran; Chetan K Rane; Christopher R Zito; Sarah A Weiss; Shlomit Jessel; Liliana Lucca; Benjamin Y Lu; Victor O Oria; Adebowale Adeniran; Veronica L Chiang; Sacit Bulent Omay; David A Hafler; Harriet M Kluger; Lucia B Jilaveanu Journal: Cancers (Basel) Date: 2021-03-02 Impact factor: 6.639