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Nalae Kang,Seok-Chun Ko,Hyun-Soo Kim,Hye-Won Yang,Ginnae Ahn,Seung-Cheol Lee,Tae-Gee Lee,Jung-Suck Lee,You-Jin Jeon 제주대학교 해양과학연구소 2020 해양과환경연구소 연구논문집 Vol.44 No.-
This study investigated the antihypertensive effects of an antioxidant peptide, Leu-Trp-His-Thr-His (LWHTH), purified from Styela clava peptic hydrolysate, to assess the bioactivity of the peptide and verify the value of S. clava as a health-promoting food. Also, the study presented structural evidence for the effects of LWHTH. The inhibitory effect of LWHTH on angiotensin I-converting enzyme (ACE) was assessed using enzyme reaction methods and the simulation methods in computational space. LWHTH inhibited ACE with an IC50 value of 16.42 – 0.45 lM. The LWHTH structure was stable, and its ACE inhibitory effect was retained under simulated gastrointestinal conditions. In silico simulations revealed that LWHTH binds the active site of ACE, with residues LW making the ACE–LWHTH complex stable and residues HTH making the complex strong. Furthermore, LWHTH significantly reduced blood pressure in spontaneously hypertensive rats. These results demonstrate that LWHTH has the potential to be a healthy functional food with antihypertensive effects. Therefore, S. clava consumption may be beneficial for human health.
Anti-fatigue activity of a mixture of seahorse (Hippocampus abdominalis) hydrolysate and red ginseng
Kang, Nalae,Kim, Seo-Young,Rho, Sum,Ko, Ju-Young,Jeon, You-Jin The Korean Society of Fisheries and Aquatic Scienc 2017 Fisheries and Aquatic Sciences Vol.20 No.3
Seahorse, a syngnathidae fish, is one of the important organisms used in Chinese traditional medicine. Hippocampus abdominalis, a seahorse species successfully cultured in Korea, was validated for use in food by the Ministry of Food and Drug Safety in February 2016; however. the validation was restricted to 50% of the entire composition. Therefore, to use H. abdominalis as a food ingredient, H. abdominalis has to be prepared as a mixture by adding other materials. In this study, the effect of H. abdominalis on muscles was investigated to scientifically verify its potential bioactivity. In addition, the anti-fatigue activity of a mixture comprising H. abdominalis and red ginseng (RG) was evaluated to commercially utilize H. abdominalis in food industry. H. abdominalis was hydrolyzed using Alcalase, a protease, and the effect of H. abdominalis hydrolysate (HH) on the muscles was assessed in C2C12 myoblasts by measuring cell proliferation and glycogen content. In addition, the mixtures comprising HH and RG were prepared at different percentages of RG to HH (20, 30, 40, 50, 60, 70, and 80% RG), and the anti-fatigue activity of these mixtures against oxidative stress was assessed in C2C12 myoblasts. In C2C12 myoblasts, $H_2O_2$-induced oxidative stress caused a decrease in viability and physical fatigue-related biomarkers such as glycogen and ATP contents. However, treatment with RG and HH mixtures increased cell viability and the content of fatigue-related biomarkers. In particular, the 80% RG mixture showed an optimum effect on cell viability and ATP synthesis activity. In this study, all results indicated that HH had anti-fatigue activity at concentrations approved for use in food by the law in Korea. Especially, an 80% RG to HH mixture can be used in food for ameliorating fatigue.
Nalae Kang,Seyeon Oh,Hyun-Soo Kim,Hyosang Ahn,Junwon Choi,Soo-Jin Heo,Kyunghee Byun,You-Jin Jeon 제주대학교 해양과학연구소 2020 해양과환경연구소 연구논문집 Vol.44 No.-
Leptin, a well-known appetite hormone, plays a role in fat metabolism in peripheral tissues including the adipose, liver, and muscle tissues. In this study, we investigated the antiobesity and fat accumulation regulatory effects of Ishophloroglucin A, derived from the brown seaweed Ishige okamurae, which acts via the leptin signaling pathway in the peripheral tissues of a high-fat-diet-induced obese mouse model. Obesity in C57BL/6J mice was induced by feeding them with a high-fat diet for 10 weeks and Ishophloroglucin A (2.5 mg/kg) was orally treated for the last 4 weeks. Body weights were monitored once per week during the experimental period. After the experiment, several serum biochemical parameters were measured using commercial kits and the white adipose, liver, and muscle tissues were observed using immunohistochemistry methods. Ishophloroglucin A significantly reduced glutamic oxaloacetic transaminase, glutamic pyruvic transaminase, and leptin level, which increase as a result of high-fat diet. Also, Ishophloroglucin A clearly activated the leptin signaling pathway in all examined peripheral tissues, reduced the adipose tissue size, and alleviated steatosis in the liver and muscle tissues. These results implied that Ishophloroglucin A treatment for 4 weeks positively induced molecular mechanisms and histologic changes related with leptin signaling. These findings suggested that constant Ishophloroglucin A treatment clearly regulates obesity and peripheral fat accumulation via the leptin signaling pathway in high-fat-diet-induced obese mice.