Abstract
Bone adaptation to spaceflight results in bone loss at weight bearing sites following the absence of the stimulus represented by ground force. The rodent hindlimb unloading model was designed to mimic the loss of mechanical loading experienced by astronauts in spaceflight to better understand the mechanisms causing this disuse-induced bone loss. The model has also been largely adopted to study disuse osteopenia and therefore to test drugs for its treatment. Loss of trabecular and cortical bone is observed in long bones of hindlimbs in tail-suspended rodents. Over the years, osteocytes have been shown to play a key role in sensing mechanical stress/stimulus via the ECM-integrin-cytoskeletal axis and to respond to it by regulating different cytokines such as SOST and RANKL. Colder experimental environments (~20–22°C) below thermoneutral temperatures (~28–32°C) exacerbate bone loss. Hence, it is important to consider the role of environmental temperatures on the experimental outcomes. We provide insights into the cellular and molecular pathways that have been shown to play a role in the hindlimb unloading and recommendations to minimize the effects of conditions that we refer to as confounding factors.
Highlights
The organism continuously renews its skeleton, by constantly resorbing and building bone tissue throughout its life
We examine the involved pathways and the role played by the different bone cells
Mice with an activating point mutation in the Wingless-related integration site (Wnt) coreceptor LRP5 have high bone mass and they were found to be resistant to bone loss induced by hindlimb unloading (Niziolek et al, 2015)
Summary
The organism continuously renews its skeleton, by constantly resorbing and building bone tissue throughout its life. This review sets to explore the cellular and molecular underpinnings of the response of bone resident cells to mechanical unloading in HLU. HLU is reported to lead to a number of changes in bone structure both at the cortical and the trabecular levels.
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