• Journal of Life Science
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• v.19 no.12
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• pp.1743-1749
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• 2009

The purpose of this study was to investigate the effects of cucumber beverage intake on fluid-regulating hormones and CRP in amateur marathoners between the ages of 47~49. Among research subjects, 8 male middle-aged marathoners who have completed the full marathon course over 5 times and who have run for over 50 months were selected. In two marathon races, they received firstly water and secondly cucumber beverage: 10 ml before the race, 50 ml every 5 km, and 200 ml after the race, adding up to 10 drinks and 710 ml in total amount of beverage taken. For statistics, one-way ANOVA within the group was conducted through SPSS 12.0; for post-examination, Duncan was utilized; and for inter-group examination, an independent t-test was used. Before, right after, and after the marathon, the cucumber beverage intake group had a significantly decreased serum ADH concentration compared to the water intake group. Both the cucumber beverage and water intake groups had significantly increased serum rennin levels before, right after, and after the marathon. Both the cucumber beverage and water intake groups had significantly increased aldosterone before, right after, and after the marathon. CRP levels didn't show change. In conclusion, intake of cucumber beverage during a marathon race was found to help with fluid-regulating hormones. This research has attempted to continue to study the influence on hormones that control body fluids.

• BMB Reports
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• v.56 no.4
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• pp.209-215
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• 2023

Maintaining internal homeostasis and regulating innate behaviors are essential for animal survival. In various animal species, a highly conserved neuroendocrine system integrates sensory inputs and regulates physiological responses to environmental and internal changes. Diuretic hormones 44 and 31, which are homologs of mammalian corticotropin-releasing factor (CRF) and calcitonin gene-related peptide (CGRP), respectively, control body fluid secretion in Drosophila. These neuropeptides and their receptors have multiple physiological roles, including the regulation of body-fluid secretion, sleep:wake cycle, internal nutrient-sensing, and CO₂-dependent response. This review discusses the physiological and behavioral roles of DH44 and DH31 signaling pathways, consisting of neuroendocrine cells that secrete DH44 or DH31 peptides and their receptor-expressing organs. Further research is needed to understand the regulatory mechanisms of the behavioral processes mediated by these neuroendocrine systems.