Melatonin Has Potential to Prevent Bone Loss Among Astronauts

by Ramya Rachamanti on  September 4, 2019 at 4:01 PM Drug News
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Bone density decreases among astronauts in outer space with mcirogravity due to loss of calcium from bones, especially after a long stay. Mechanism of bone loss was investigated using gold fish scales by 53 scientists from 33 institutions, led by scientists of Kanazawa University, Tokyo Medical and Dental University, Okayama University and University of Toyama.
Melatonin Has Potential to Prevent Bone Loss Among Astronauts
Melatonin Has Potential to Prevent Bone Loss Among Astronauts

Gold fish scale contains hydroxyapatite, a fundamental element of bone, and its bone matrix of two layers (osseous layer: a thin, well-calcified external layer; a fibrillary layer: a thick, partially calcified layer). A scale also has cells corresponding to osteoblasts and osteoclasts.

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Scales protect the surface of the fish body and play a role as a reservoir of calcium. With freshwater fish, the latter function is noteworthy; when salmon swim upstream to lay eggs, it is known that their scales get smaller in order to supply calcium to the eggs. To achieve this, osteoclasts release calcium from the scales.

In addition, ground-basis experiments reveal that the responses of scales to hormones and extra-gravity due to centrifugation are very similar to those of mammalian bones. Furthermore, cultured scales may be considered to be an excellent experimental model for research of bone metabolism in outer space since scales are readily available and they can be used for experiments for about 10 days at a low temperature (4ºC) without exchanging culture media.

Results

Upon removal of a scale from fish skin, a new scale is regenerated. In this study, regenerated scales were used since their osteoblast and osteoclast activities are high. First it was shown that was produced in scale osteoblasts and that melatonin synthesis decreased in space due to reduced expression of acetylserotonin O-methyltransferase, an enzyme important in melatonin synthesis.

Further, melatonin functions in outer space were investigated by comparing scales cultured in a media supplemented with melatonin and those without. This experiment revealed that after a three-day culture in melatonin-free media, a number of osteoclasts fused together to form multinucleated, active osteoclasts.

These active osteoclasts widened the grooves of a scale's osseous layer and enhanced bone resorption of scales. Moreover, the expression level of the Rankl*2 gene, a factor enhancing bone resorption, was elevated while the expression level of the Calcitonin*3 gene, a hormone suppressing bone resorption, was repressed.

In contrast, in scales cultured in a media supplemented with melatonin, the expression level of Rankl was found to be repressed while calcitonin expression was at a normal level, which coincided with suppressed gene expression levels for osteoclast functions.

To our knowledge, no investigations have so far been performed on melatonin levels in outer space. We believe that one of the mechanisms of bone resorption under microgravity conditions could be a decrease of melatonin level to suppress calcitonin secretion.

In fact, other research groups reported that the blood calcitonin level of a monkey decreased in outer space and that the calcitonin level in the blood of human subjects decreased after 120 days on a head-down tilt bed rest, a pseudo-microgravity experimental model.

The present research group confirmed in ground-basis experiments that scale osteoblasts produced calcitonin and that melatonin enhanced calcitonin secretion. Due to the limitation of rocket load, experiments on morphological changes of osteoclasts due to melatonin were not possible in outer space at this time; however, ground-basis experiments indicated suppression of morphological changes of activated osteoclasts by melatonin by using a three-dimensional clinostat, which produces pseudo-microgravity conditions.

A research paper with these results was published in a high impact factor journal based on life science experiments performed in the Japanese Experiment Module for the first time.

As above, investigation of melatonin action on bones in outer space, which had been neglected so far, revealed that melatonin suppresses bone resorption by stimulating osteoblasts to secret calcitonin.

Future prospects

The present study indicates the possibility that melatonin could serve as a prophylactic drug to prevent bone loss of astronauts during their missions. Melatonin is expected to be used as a preventive and curative drug for loss of bones of astronauts in the future. The present research group performs in-space experiments on the functions of new melatonin derivatives on scales, which may lead to drug discovery of bone diseases.

Source: Eurekalert

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