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Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research
Nov, 2014;29 (11): 2307-22.

The convergence of fracture repair and stem cells: interplay of genes, aging, environmental factors and disease.

Michael Hadjiargyrou, Regis J O'Keefe
Author Information
  1. Michael Hadjiargyrou: Department of Life Sciences, New York Institute of Technology, Old Westbury, NY, USA.
PMID: 25264148 DOI: 10.1002/jbmr.2373

Abstract

The complexity of fracture repair makes it an ideal process for studying the interplay between the molecular, cellular, tissue, and organ level events involved in tissue regeneration. Additionally, as fracture repair recapitulates many of the processes that occur during embryonic development, investigations of fracture repair provide insights regarding skeletal embryogenesis. Specifically, inflammation, signaling, gene expression, cellular proliferation and differentiation, osteogenesis, chondrogenesis, angiogenesis, and remodeling represent the complex array of interdependent biological events that occur during fracture repair. Here we review studies of bone regeneration in genetically modified mouse models, during aging, following environmental exposure, and in the setting of disease that provide insights regarding the role of multipotent cells and their regulation during fracture repair. Complementary animal models and ongoing scientific discoveries define an increasing number of molecular and cellular targets to reduce the morbidity and complications associated with fracture repair. Last, some new and exciting areas of stem cell research such as the contribution of mitochondria function, limb regeneration signaling, and microRNA (miRNA) posttranscriptional regulation are all likely to further contribute to our understanding of fracture repair as an active branch of regenerative medicine.

Keywords

AGING ANIMAL MODELS CELL/TISSUE SIGNALING CELLS OF BONE GENETICALLY ALTERED MICE INJURY/FRACTURE HEALING ORTHOPAEDICS PARACRINE PATHWAYS STEM AND PROGENITOR CELLS

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Grants

  1. P50 AR054041/NIAMS NIH HHS
  2. R01 AR048681/NIAMS NIH HHS
  3. AR48681/NIAMS NIH HHS
  4. AR054041/NIAMS NIH HHS

MeSH Term

Aging
Animals
Bone Regeneration
Fractures, Bone
Gene Expression Regulation
Humans
Mice
Mice, Transgenic
MicroRNAs
Multipotent Stem Cells
Signal Transduction

Chemicals

MicroRNAs
Journal Article Research Support, N.I.H., Extramural Review
Article has an altmetric score of 2

Word Cloud

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