Molecular Mechanisms Underlying Osteocyte Apoptosis and the Associated Osteoclastogenesis in Cx43-Deficiency and Aging

Old age is associated with increased bone fragility and risk of fracture as a result of skeletal alterations, including low bone density and cortical thinning. Further, apoptotic osteocytes accumulate in old mice and humans. We have previously shown that mice lacking osteocytic connexin (Cx) 43 (Cx43ΔOt) exhibit a phenotype similar to that of the aging skeleton, with elevated osteocyte apoptosis and an associated increase in osteoclastogenesis. These findings suggest that osteocyte apoptosis results in the release of factors that recruit osteoclasts to bone surfaces close to areas that contain apoptotic osteocytes. However, the specific chemotactic signals, the events mediating their release, and the mechanisms of their action remain unknown. Consistent with this notion, we also found that HMGB1 released by Cx43-deficient (Cx43def) MLO-Y4 osteocytic cells enhances osteoclastogenesis in part by increasing osteocytic RANKL, which promotes osteoclastogenesis, and, at the same time, directly stimulating osteoclastogenesis. Further, expression of the pro-survival microRNA (miR), miR21, is low in Cx43def cells and bones from old female mice, and low miR21 levels increase osteocyte apoptosis. However, surprisingly, mice lacking miR21 (miR21ΔOt) have decreased osteoclast number and activity even under conditions of elevated osteocyte apoptosis; suggesting that osteocytic miR21 may mediate osteoclast precursor recruitment/survival induced by apoptotic osteocytes. However, whether HMGB1/miR21 are released by osteocytes, and if the HMGB1 receptors, receptor for advanced glycation end products (RAGE) and/or tolllike receptor (TLR4) are involved in osteoclast recruitment in Cx43ΔOt and old mice is unknown. The overall objectives of this series of studies were to elucidate the mechanisms

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Year

Entry

2005

Bellido T, Ali AA, Gubrij I, Plotkin LI, Fu Q, O’Brien CA, Manolagas SC, Jilka RL. Chronic elevation of parathyroid hormone in mice reduces expression of sclerostin by osteocytes: a novel mechanism for hormonal control of osteoblastogenesis. Endocrinology. November 2005;146(11):4577-4583.

2013

Dallas SL, Prideaux M, Bonewald LF. The osteocyte: an endocrine cell … and more. Endocr Rev. October 2013;34(4):658-690.

2004

Kalajzic I, Braut A, Guo D, Jiang X, Kronenberg MS, Mina M, Harris MA, Harris SE, Rowe DW. Dentin matrix protein 1 expression during osteoblastic differentiation, generation of an osteocyte GFP-transgene. Bone. July 2004;35(1):74-82.

2011

Zimmermann EA, Schaible E, Bale H, Barth HD, Tang SY, Reichert P, Busse B, Alliston T, Ager JW III, Ritchie RO. Age-related changes in the plasticity and toughness of human cortical bone at multiple length scales. Proc Natl Acad Sci USA. August 30, 2011;108(35):14416-14421.

2008

Allen MR, Reinwald S, Burr DB. Alendronate reduces bone toughness of ribs without significantly increasing microdamage accumulation in dogs following 3 years of daily treatment. Calcif Tiss Int. May 2008;82(5):354-360.