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miR-34a blocks osteoporosis and bone metastasis by inhibiting osteoclastogenesis and Tgif2 (2014)

J. Y. Krzeszinski ; W. Wei ; H. Huynh ; [et al.]

Nature Publishing Group (NPG)

In: Nature. 512(7515): 431-5. doi: 10.1038/nature13375.

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Publication Date: 2014-07-22

Description: Bone-resorbing osteoclasts significantly contribute to osteoporosis and bone metastases of cancer. MicroRNAs play important roles in physiology and disease, and present tremendous therapeutic potential. Nonetheless, how microRNAs regulate skeletal biology is underexplored. Here we identify miR-34a as a novel and critical suppressor of osteoclastogenesis, bone resorption and the bone metastatic niche. miR-34a is downregulated during osteoclast differentiation. Osteoclastic miR-34a-overexpressing transgenic mice exhibit lower bone resorption and higher bone mass. Conversely, miR-34a knockout and heterozygous mice exhibit elevated bone resorption and reduced bone mass. Consequently, ovariectomy-induced osteoporosis, as well as bone metastasis of breast and skin cancers, are diminished in osteoclastic miR-34a transgenic mice, and can be effectively attenuated by miR-34a nanoparticle treatment. Mechanistically, we identify transforming growth factor-beta-induced factor 2 (Tgif2) as an essential direct miR-34a target that is pro-osteoclastogenic. Tgif2 deletion reduces bone resorption and abolishes miR-34a regulation. Together, using mouse genetic, pharmacological and disease models, we reveal miR-34a as a key osteoclast suppressor and a potential therapeutic strategy to confer skeletal protection and ameliorate bone metastasis of cancers.〈br /〉〈br /〉〈a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4149606/" target="_blank"〉〈img src="https://static.pubmed.gov/portal/portal3rc.fcgi/4089621/img/3977009" border="0"〉〈/a〉 〈a href="https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4149606/" target="_blank"〉This paper as free author manuscript - peer-reviewed and accepted for publication〈/a〉〈br /〉〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Krzeszinski, Jing Y -- Wei, Wei -- Huynh, HoangDinh -- Jin, Zixue -- Wang, Xunde -- Chang, Tsung-Cheng -- Xie, Xian-Jin -- He, Lin -- Mangala, Lingegowda S -- Lopez-Berestein, Gabriel -- Sood, Anil K -- Mendell, Joshua T -- Wan, Yihong -- 1P30 CA142543/CA/NCI NIH HHS/ -- 1S10RR02564801/RR/NCRR NIH HHS/ -- P01 CA134292/CA/NCI NIH HHS/ -- P30 CA142543/CA/NCI NIH HHS/ -- R01 CA120185/CA/NCI NIH HHS/ -- R01 CA139067/CA/NCI NIH HHS/ -- R01 DK089113/DK/NIDDK NIH HHS/ -- S10 RR024757/RR/NCRR NIH HHS/ -- S10 RR025648/RR/NCRR NIH HHS/ -- U54 CA151668/CA/NCI NIH HHS/ -- UH2 TR000943/TR/NCATS NIH HHS/ -- England -- Nature. 2014 Aug 28;512(7515):431-5. doi: 10.1038/nature13375. Epub 2014 Jun 25.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉Department of Pharmacology, The University of Texas Southwestern Medical Center, Dallas, Texas 75390, USA. ; Department of Molecular Biology, The University of Texas Southwestern Medical Center, Dallas, Texas 75390, USA. ; 1] Simmons Cancer Center, The University of Texas Southwestern Medical Center, Dallas, Texas 75390, USA [2] Department of Clinical Sciences, The University of Texas Southwestern Medical Center, Dallas, Texas 75390, USA. ; Division of Cellular and Developmental Biology, Molecular and Cell Biology Department, University of California at Berkeley, Berkeley, California 94705, USA. ; 1] Department of Gynecologic Oncology and Reproductive Medicine, The University of Texas MD Anderson Cancer Center, Houston, Texas 77030, USA [2] Center for RNA Interference and Non-coding RNA, The University of Texas MD Anderson Cancer Center, Houston, Texas 77030, USA. ; 1] Center for RNA Interference and Non-coding RNA, The University of Texas MD Anderson Cancer Center, Houston, Texas 77030, USA [2] Department of Experimental Therapeutics, The University of Texas MD Anderson Cancer Center, Houston, Texas 77030, USA. ; 1] Department of Gynecologic Oncology and Reproductive Medicine, The University of Texas MD Anderson Cancer Center, Houston, Texas 77030, USA [2] Center for RNA Interference and Non-coding RNA, The University of Texas MD Anderson Cancer Center, Houston, Texas 77030, USA [3] Department of Cancer Biology, The University of Texas MD Anderson Cancer Center, Houston, Texas 77030, USA. ; 1] Department of Molecular Biology, The University of Texas Southwestern Medical Center, Dallas, Texas 75390, USA [2] Simmons Cancer Center, The University of Texas Southwestern Medical Center, Dallas, Texas 75390, USA. ; 1] Department of Pharmacology, The University of Texas Southwestern Medical Center, Dallas, Texas 75390, USA [2] Simmons Cancer Center, The University of Texas Southwestern Medical Center, Dallas, Texas 75390, USA.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/25043055" target="_blank"〉PubMed〈/a〉

Keywords: Animals ; Base Sequence ; Bone Neoplasms/genetics/pathology/*prevention & control/*secondary ; Bone Resorption/drug therapy/genetics ; Cell Differentiation/drug effects/*genetics ; Cell Line, Tumor ; Disease Models, Animal ; Female ; Gene Deletion ; Homeodomain Proteins/antagonists & inhibitors/genetics/metabolism ; Humans ; Male ; Mammary Neoplasms, Animal/pathology ; Mice ; Mice, Transgenic ; MicroRNAs/*genetics/pharmacology/therapeutic use ; Neoplasm Transplantation ; Organ Size/drug effects ; Osteoclasts/drug effects/*pathology ; Osteoporosis/genetics/pathology/*prevention & control ; Ovariectomy ; Repressor Proteins/antagonists & inhibitors/*deficiency/genetics/metabolism ; Skin Neoplasms/pathology ; Transgenes ; Xenograft Model Antitumor Assays

Print ISSN: 0028-0836

Electronic ISSN: 1476-4687

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Published by Nature Publishing Group (NPG)

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Radiation Exposure Alters Expression of Metabolic Enzyme Genes in Mice (2011)

Zhang, Y. ; Mangala, L. S. ; Wu, H. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Most administered pharmaceuticals are metabolized by the liver. The health of the liver, especially the rate of its metabolic enzymes, determines the concentration of circulating drugs as well as the duration of their efficacy. Most pharmaceuticals are metabolized by the liver, and clinically-used medication doses are given with normal liver function in mind. A drug overdose can result in the case of a liver that is damaged and removing pharmaceuticals from the circulation at a rate slower than normal. Alternatively, if liver function is elevated and removing drugs from the system more quickly than usual, it would be as if too little drug had been given for effective treatment. Because of the importance of the liver in drug metabolism, we want to understand the effects of spaceflight on the enzymes of the liver and exposure to cosmic radiation is one aspect of spaceflight that can be modeled in ground experiments. Additionally, it has been previous noted that pre-exposure to small radiation doses seems to confer protection against later and larger radiation doses. This protective power of pre-exposure has been called a priming effect or radioadaptation. This study is an effort to examine the drug metabolizing effects of radioadaptation mechanisms that may be triggered by early exposure to low radiation doses.

Keywords: Aerospace Medicine

Type: JSC-CN-23305 , IAA Humans in Space Symposium; Apr 11, 2011 - Apr 15, 2011; Houston, TX; United States

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Radiation Exposure Alters Expression of Metabolic Enzyme Genes In Mice (2010)

Mangala, L. S. ; Wu, H. ; Zhang, Y. ; [et al.]

In: CASI

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Publication Date: 2019-07-19

Description: Most pharmaceuticals are metabolized by the liver. The health of the liver, especially the rate of its metabolic enzymes, determines the concentration of circulating drugs as well as the duration of their efficacy. Because of the importance of the liver in drug metabolism it is important to understand the effects of spaceflight on the enzymes of the liver. Exposure to cosmic radiation is one aspect of spaceflight that can be modeled in ground experiments. This study is an effort to examine the effects of adaptive mechanisms that may be triggered by early exposure to low radiation doses. Using procedures approved by the JSC Animal Care & Use Committee, C57 male mice were exposed to Cs-137 in groups: controls, low dose (50 mGy), high dose (6Gy) and a fourth group that received both radiation doses separated by 24 hours. Animals were anesthetized and sacrificed 4 hours after their last radiation exposure. Livers were removed immediately and flash-frozen in liquid nitrogen. Tissue was homogenized, RNA extracted and purified (Absolutely RNA, Agilent). Quality of RNA samples was evaluated (Agilent Bioanalyzer 2100). Complementary DNA was prepared from high-quality RNA samples, and used to run RT-qPCR screening arrays for DNA Repair and Drug Metabolism (SuperArray, SABiosciences/Qiagen; BioRad Cfx96 qPCR System). Of 91 drug metabolism genes examined, expression of 7 was altered by at least one treatment condition. Genes that had elevated expression include those that metabolize promethazine and steroids (4-8-fold), many that reduce oxidation products, and one that reduces heavy metal exposure (greater than 200-fold). Of the 91 DNA repair and general metabolism genes examined, expression of 14 was altered by at least one treatment condition. These gene expression changes are likely homeostatic and could lead to development of new radioprotective countermeasures.

Keywords: Life Sciences (General)

Type: JSC-CN-21973 , IAA Humans in Space Symposium; Apr 11, 2011 - Apr 15, 2011; Houston, TX; United States

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