Summary
Osteoporosis is an age and gender-related condition characterised by reduced bone mass, impaired micro-architecture and increased risk of low-trauma fractures. Osteoporosis-related fractures are a major health concern and impose a huge economic burden on European health care systems. In the young, bone adapts its mass and architecture in response to strains engendered by mechanical loading. However, this response in blunted in the aged. We have shown that the anabolic response to load is similarly impaired in an age and gender-related manner in mice. Counter-intuitively, this response can be “rescued” in aged female mice if short periods of loading are imposed against a background of disuse rather than activity. We hypothesise that this “rescue” involves increased recruitment of bone forming osteoblasts.
The primary objective of this proposal is, to establish whether the age and gender-related decline in bone’s adaptive response to mechanical loading in mice can be attributed to insufficient recruitment of osteoblasts necessary to form new bone and, if so, whether this deficiency can be “rescued” by appropriate manipulation of bones’ loading environment.
To achieve the objectives in this proposal, we will investigate bones from aged male and female mice, which have been subjected to mechanical loading with or without prior disuse. These will be compared with similarly treated bones of young mice. Our studies should further elucidate the mechanisms underlying the age-related decline in bones’ adaptive response to mechanical loading. We hope that these studies could identify novel therapeutic targets to augment bones’ natural anabolic response to physical activity/loading. This could be of particular relevance in maintaining bone mass in situations of aging, paralysis or even space flight. The proposal will strengthen the CV of the applicant and further collaboration between European laboratories.
The primary objective of this proposal is, to establish whether the age and gender-related decline in bone’s adaptive response to mechanical loading in mice can be attributed to insufficient recruitment of osteoblasts necessary to form new bone and, if so, whether this deficiency can be “rescued” by appropriate manipulation of bones’ loading environment.
To achieve the objectives in this proposal, we will investigate bones from aged male and female mice, which have been subjected to mechanical loading with or without prior disuse. These will be compared with similarly treated bones of young mice. Our studies should further elucidate the mechanisms underlying the age-related decline in bones’ adaptive response to mechanical loading. We hope that these studies could identify novel therapeutic targets to augment bones’ natural anabolic response to physical activity/loading. This could be of particular relevance in maintaining bone mass in situations of aging, paralysis or even space flight. The proposal will strengthen the CV of the applicant and further collaboration between European laboratories.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/657178 |
| Start date: | 01-04-2015 |
| End date: | 31-03-2017 |
| Total budget - Public funding: | 195 454,80 Euro - 195 454,00 Euro |
Cordis data
Original description
Osteoporosis is an age and gender-related condition characterised by reduced bone mass, impaired micro-architecture and increased risk of low-trauma fractures. Osteoporosis-related fractures are a major health concern and impose a huge economic burden on European health care systems. In the young, bone adapts its mass and architecture in response to strains engendered by mechanical loading. However, this response in blunted in the aged. We have shown that the anabolic response to load is similarly impaired in an age and gender-related manner in mice. Counter-intuitively, this response can be “rescued” in aged female mice if short periods of loading are imposed against a background of disuse rather than activity. We hypothesise that this “rescue” involves increased recruitment of bone forming osteoblasts.The primary objective of this proposal is, to establish whether the age and gender-related decline in bone’s adaptive response to mechanical loading in mice can be attributed to insufficient recruitment of osteoblasts necessary to form new bone and, if so, whether this deficiency can be “rescued” by appropriate manipulation of bones’ loading environment.
To achieve the objectives in this proposal, we will investigate bones from aged male and female mice, which have been subjected to mechanical loading with or without prior disuse. These will be compared with similarly treated bones of young mice. Our studies should further elucidate the mechanisms underlying the age-related decline in bones’ adaptive response to mechanical loading. We hope that these studies could identify novel therapeutic targets to augment bones’ natural anabolic response to physical activity/loading. This could be of particular relevance in maintaining bone mass in situations of aging, paralysis or even space flight. The proposal will strengthen the CV of the applicant and further collaboration between European laboratories.
Status
CLOSEDCall topic
MSCA-IF-2014-EFUpdate Date
28-04-2024
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