Hypergravity and microgravity exhibited reversal effects on the bone and muscle mass in mice.
Tsukasa TominariRyota IchimaruKeita TaniguchiAkane YumotoMasaki ShirakawaChiho MatsumotoKenta WatanabeMichiko HirataYoshifumi ItohDai ShibaChisato MiyauraMasaki InadaPublished in: Scientific reports (2019)
Spaceflight is known to induce severe systemic bone loss and muscle atrophy of astronauts due to the circumstances of microgravity. We examined the influence of artificially produced 2G hypergravity on mice for bone and muscle mass with newly developed centrifuge device. We also analyzed the effects of microgravity (mostly 0G) and artificial produced 1G in ISS (international space station) on mouse bone mass. Experiment on the ground, the bone mass of humerus, femur and tibia was measured using micro-computed tomography (μCT), and the all bone mass was significantly increased in 2G compared with 1G control. In tibial bone, the mRNA expression of bone formation related genes such as Osx and Bmp2 was elevated. The volume of triceps surae muscle was also increased in 2G compared with 1G control, and the mRNA expression of myogenic factors such as Myod and Myh1 was elevated by 2G. On the other hand, microgravity in ISS significantly induced the loss of bone mass on humerus and tibia, compared with artificial 1G induced by centrifugation. Here, we firstly report that bone and muscle mass are regulated by the gravity with loaded force in both of positive and negative on the ground and in the space.
Keyphrases
- bone loss
- bone mineral density
- computed tomography
- bone regeneration
- soft tissue
- postmenopausal women
- skeletal muscle
- type diabetes
- body composition
- drug delivery
- magnetic resonance
- metabolic syndrome
- endothelial cells
- early onset
- bone marrow
- left ventricular
- high fat diet induced
- image quality
- insulin resistance
- hypertrophic cardiomyopathy