Mitogenic responsiveness of human bone cells in vitro to hormones and growth factors decreases with age

J Pfeilschifter, I Diel, U Pilz, K Brunotte… - Journal of Bone and …, 1993 - Wiley Online Library
J Pfeilschifter, I Diel, U Pilz, K Brunotte, A Naumann, R Ziegler
Journal of Bone and Mineral Research, 1993Wiley Online Library
Bone loss with aging may at least in part be due to inadequate bone formation. In this study,
we examined whether the proliferation of osteoblast‐like cells in vitro in response to local
and systemic factors might be attenuated with age. A total of 36 cultures of osteoblast‐like
cells were obtained from outgrowths of human trabecular bone. Parathyroid hormone,
growth hormone, calcitonin, transforming growth factor β, insulinlike growth factor I, and
platelet‐derived growth factor BB dose dependently increased DNA synthesis in all cultures …
Abstract
Bone loss with aging may at least in part be due to inadequate bone formation. In this study, we examined whether the proliferation of osteoblast‐like cells in vitro in response to local and systemic factors might be attenuated with age. A total of 36 cultures of osteoblast‐like cells were obtained from outgrowths of human trabecular bone. Parathyroid hormone, growth hormone, calcitonin, transforming growth factor β, insulinlike growth factor I, and platelet‐derived growth factor BB dose dependently increased DNA synthesis in all cultures. Increases in DNA synthesis with each of these factors were significantly negatively correlated with donor age in cultures obtained from the iliac crest bone of 50‐ to 70‐year‐old women. Cells from 61‐ to 70‐year‐old donors required approximately 10‐fold higher concentrations of growth factors and hormones to yield comparable increases in DNA synthesis than cells from 51‐ to 60‐year‐old donors. A significant negative correlation between age and mitogenic responsiveness to platelet‐derived growth factor and growth hormone, but not toward the other factors, was also observed in cultures from the femoral head trabecular bone of 60‐ to 90‐year‐old women. Our findings suggest that bone loss with aging may be partially due to a decreased capacity of osteoblasts to proliferate in response to systemic or locally released osteotropic factors.
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