Optokinetic nystagmus and after-nystagmus during a 6 hour bedrest study.

CONCLUSIONS: A lengthy alteration of gravity direction produced different effects on the intrinsic horizontal and vertical optokinetic oculomotor systems. OBJECTIVE: To examine both optokinetic nystagmus (OKN) and optokinetic after-nystagmus (OKAN) in a 6 h 6 degrees head-down bedrest study, in which the subjects were kept lying under simulated micro-gravity conditions. SUBJECTS AND METHODS: In six normal healthy adults, we repeatedly (five times) and comparatively studied OKN and OKAN evoked by horizontal and vertical stimuli. Stage 1 was an upright sitting position. During the 6 h bedrest condition, we studied OKN and OKAN in 90 degrees recumbent lateral positions (stages 2, 3, and 4). In stage 5 the subject returned to an upright position. RESULTS: We confirmed that the change in gravity direction had various effects on the condition of OKN and OKAN. Also, we found that it took more than 3 h to reach a desirable level of systemic adaptive modification to the unique environmental condition. We considered that the early change was basically due to the changes in sensory inputs through the otolith organs, and the latter changes represented the adaptive process of the spatial orientation system. During the tilt, the occurrence rates of both horizontal and vertical OKANs were decreased; however, the conditions of these changes were different.

Correction: Effects of a Closed Space Environment on Gene Expression in Hair Follicles of Astronauts in the International Space Station.

[This corrects the article DOI: 10.1371/journal.pone.0150801.].

Effects of a Closed Space Environment on Gene Expression in Hair Follicles of Astronauts in the International Space Station.

Adaptation to the space environment can sometimes pose physiological problems to International Space Station (ISS) astronauts after their return to earth. Therefore, it is important to develop healthcare technologies for astronauts. In this study, we examined the feasibility of using hair follicles, a readily obtained sample, to assess gene expression changes in response to spaceflight adaptation. In order to investigate the gene expression changes in human hair follicles during spaceflight, hair follicles of 10 astronauts were analyzed by microarray and real time qPCR analyses. We found that spaceflight alters human hair follicle gene expression. The degree of changes in gene expression was found to vary among individuals. In some astronauts, genes related to hair growth such as FGF18, ANGPTL7 and COMP were upregulated during flight, suggesting that spaceflight inhibits cell proliferation in hair follicles.

Changes of bone morphology in response to hindlimb suspension of rats.

Effects of chronic hindlimb suspension or exposure to 2-G from postnatal day 4 to month 3 followed by ambulation recovery on the floor on the morphology of hindlimb bones were investigated in rats. The dorsi-flexion of the ankle was inhibited in the suspended group and such phenomena were not recovered at all. The mean weight and length of femur, tibia, and fibula were less than the cage controls at the end of suspension, but gradually increased during recovery. However, they were still less than those of the age-matched controls even after 3-month recovery. External bending of shaft and rotation of distal end of tibia were observed in the suspended group and these phenomena were not recovered at all. These morphological changes caused the inhibition of dorsi-flexion of ankle joints. The electromyogram activities of ankle plantar-flexors, soleus, plantaris, lateral gastrocnemius, were inhibited and those of dorsi-flexor, tibialis anterior, were increased during suspension. Typical changes in bone morphology were not induced by exposure to 2-G. It was suggested that gravitational unloading during developing period causes irreversible inhibition of normal bone growth. It was also indicated that the suspension-related changes in bone morphology may be caused by abnormal mechanical stress due to the altered mobilization of hindlimb muscles.

Effects of gravitational loading on rat soleus muscle fibers following hindlimb suspension.

Effects of 16 days of hindlimb suspension and 16 days of ambulation recovery at 1-G or 2-G environment on the characteristics of soleus muscle fibers were studied in male Wistar Hannover rats. The mean cross-sectional area and myonuclear number in isolated single fibers at the termination of suspension were approximately 30% and 25% of the controls, respectively. Satellite cells were distributed evenly throughout the fiber length in the control. However, the number of satellite cells distributed at the middle of the fiber was less in the unloaded rats immediately after the termination of suspension. Both the numbers of quiescent and mitotic active satellite cell per fiber were approximately 57% less immediately after the termination of suspension than controls. The number of satellite cells at the end of fibers was increased first during the early phase of reloading. Subsequently, the number at the middle was gradually increased. The myonuclear number per fiber was also less (approximately 25%) in the unloaded than the age-matched control at the termination of suspension, but was increased following the recovery. Although the mean in vivo sarcomere length of the soleus muscle was shortened in response to plantarflexion of ankle joint, the length at the certain ankle joint angle was increased after 16 days of suspension due to sarcomere remodeling. The length at the proximal and distal, rather than the middle, portion of the fiber was stretched in both reloaded and control rats in response to dorsiflexion of the ankle joint. But it was noted that the magnitude of stretch was greater in the unloaded rats. It is suggested that the fiber end is more stimulated rapidly than the middle portion by the load applied to the muscle during the ambulation recovery.

[Changes in postural control mechanism after a long-time tilt].

In order to investigate the time-dependent dynamics of otolith organ-spinomotor function, we analyzed postural control biomechanically, in eight healthy adult volunteers, using a dynamic posturography (EquiTest System), before and after a four-hours lateral head and body tilt (90 degrees). After the tilt, a half of the subjects exhibited some changes. Their equilibrium scores decreased; i.e., the dependence on their vestibular inputs decreased, but in contrast, those on the visual and the somatosensory inputs increased. These changes were diminished by repeating the tests along the time course. The present findings confirmed [correction of comfirmed] the importance of vestibular gravity information for the maintenance of delicate postural stability.

Effects of gravitational loading levels on protein expression related to metabolic and/or morphologic properties of mouse neck muscles.

The effects of 3 months of spaceflight (SF), hindlimb suspension, or exposure to 2G on the characteristics of neck muscle in mice were studied. Three 8-week-old male C57BL/10J wild-type mice were exposed to microgravity on the International Space Station in mouse drawer system (MDS) project, although only one mouse returned to the Earth alive. Housing of mice in a small MDS cage (11.6 × 9.8-cm and 8.4-cm height) and/or in a regular vivarium cage was also performed as the ground controls. Furthermore, ground-based hindlimb suspension and 2G exposure by using animal centrifuge (n = 5 each group) were performed. SF-related shift of fiber phenotype from type I to II and atrophy of type I fibers were noted. Shift of fiber phenotype was related to downregulation of mitochondrial proteins and upregulation of glycolytic proteins, suggesting a shift from oxidative to glycolytic metabolism. The responses of proteins related to calcium handling, myofibrillar structure, and heat stress were also closely related to the shift of muscular properties toward fast-twitch type. Surprisingly, responses of proteins to 2G exposure and hindlimb suspension were similar to SF, although the shift of fiber types and atrophy were not statistically significant. These phenomena may be related to the behavior of mice that the relaxed posture without lifting their head up was maintained after about 2 weeks. It was suggested that inhibition of normal muscular activities associated with gravitational unloading causes significant changes in the protein expression related to metabolic and/or morphological properties in mouse neck muscle.