Conditions such as osteoporosis, osteoarthritis, developmental abnormalities of the skeleton, as well as malignancies, such as multiple myeloma and breast cancer metastases, all negatively affect the musculoskeletal system. These conditions affect the health of a sizable percentage of the US population and lead to significant disability and substantial health care costs, and there is an ongoing need to better understand their causes and to support the development of more effective and well-tolerated therapies. To address this need, we propose to establish and develop a thematic and multidisciplinary Center for Musculoskeletal Disease Research (CMDR) at the University of Arkansas for Medical Sciences (UAMS). The scientific theme of the CMDR is that molecular and genetic analysis of musculoskeletal diseases, and conditions that involve the skeleton as part of their disease process, will lead to a better understanding of their causes and will support development of novel therapies. Our approach to studying these conditions will take advantage of state-of-the-art approaches to analyze the genome and transcriptome, the genetic manipulation of cells and animals, and skeletal phenotyping. A key to the success of this approach will be to increase the number of investigators whose research is aligned with the scientific theme of the Center via development of junior investigators and recruitment of new and established investigators. We will establish the CMDR on a strong foundation of musculoskeletal research and implement an Organization and Management Plan to create a self-sustaining Center of Biomedical Research Excellence (Aim 1). We will also provide multidisciplinary development and unique research opportunities to young investigators and support them to the point of independence (Aim 2). Lastly, we will create diverse teams of productive investigators by providing access to effective and useful research cores that produce significant and long-lasting benefits to the research infrastructure of UAMS and its affiliated institutions (Aim 3). The Overall Center Organization and Management Plan includes the Administrative Core, three research cores, and four research projects, led by promising junior investigators. The Administrative Core will oversee establishment and operation of the center, the three research cores, and a faculty development plan. The integrated and interactive faculty development plan will include a formal mentoring program that will guide four junior investigators to independence. The CMDR research cores include a Genetic Models Core that will use cutting-edge approaches to genetically manipulate cells and mice, a Bone Histology and Imaging Core that will analyze mouse and human hard tissues, and a Bioinformatics Core that will analyze the large datasets generated by the molecular analyses of cells from mouse and human samples. Successful implementation of this Organization and Management Plan will in the long-term lead to a self-sustaining Center of Biomedical Research Excellence that will generate novel and important results leading to more effective therapies for a variety of conditions that involve the musculoskeletal system.

Public Health Relevance

Conditions such as osteoporosis, osteoarthritis, developmental abnormalities, osteomyelitis, and malignancies, such as multiple myeloma and breast cancer negatively affect the skeleton. There is an ongoing need to better understand the causes of these diseases to support the development of more effective and well-tolerated therapies. Comprehensive analyses of the molecular changes that contribute to these conditions may lead to the development of such therapies.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Exploratory Grants (P20)
Project #
5P20GM125503-04
Application #
10117257
Study Section
Special Emphasis Panel (ZGM1)
Program Officer
Zhou, Yang
Project Start
2018-02-16
Project End
2023-01-31
Budget Start
2021-02-01
Budget End
2022-01-31
Support Year
4
Fiscal Year
2021
Total Cost
Indirect Cost
Name
University of Arkansas for Medical Sciences
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
122452563
City
Little Rock
State
AR
Country
United States
Zip Code
72205
Piccolo, Brian D; Graham, James L; Stanhope, Kimber L et al. (2018) Diabetes-Associated Alterations in the Cecal Microbiome and Metabolome are Independent of Diet or Environment in the UC Davis Type 2-Diabetes Mellitus Rat Model. Am J Physiol Endocrinol Metab :
Rasche, Leo; Angtuaco, Edgardo J; Alpe, Terri L et al. (2018) The presence of large focal lesions is a strong independent prognostic factor in multiple myeloma. Blood 132:59-66
Xiong, Jinhu; Almeida, Maria; O'Brien, Charles A (2018) The YAP/TAZ transcriptional co-activators have opposing effects at different stages of osteoblast differentiation. Bone 112:1-9
Wongsurawat, Thidathip; Athipanyasilp, Niracha; Jenjaroenpun, Piroon et al. (2018) Case of Microcephaly after Congenital Infection with Asian Lineage Zika Virus, Thailand. Emerg Infect Dis 24:
Xiong, Jinhu; Cawley, Keisha; Piemontese, Marilina et al. (2018) Soluble RANKL contributes to osteoclast formation in adult mice but not ovariectomy-induced bone loss. Nat Commun 9:2909
Zimmerman, Sarah M; Heard-Lipsmeyer, Melissa E; Dimori, Milena et al. (2018) Loss of RANKL in osteocytes dramatically increases cancellous bone mass in the osteogenesis imperfecta mouse (oim). Bone Rep 9:61-73
Rasche, L; Alapat, D; Kumar, M et al. (2018) Combination of flow cytometry and functional imaging for monitoring of residual disease in myeloma. Leukemia :
Jenkins, Samir V; Vang, Kieng B; Gies, Allen et al. (2018) Sample storage conditions induce post-collection biases in microbiome profiles. BMC Microbiol 18:227
O'Brien, Charles A; Morello, Roy (2018) Modeling Rare Bone Diseases in Animals. Curr Osteoporos Rep 16:458-465
Ambrogini, Elena; Que, Xuchu; Wang, Shuling et al. (2018) Oxidation-specific epitopes restrain bone formation. Nat Commun 9:2193

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