新一代超微姜黄素可提高跑步机运动疲劳大鼠的肌肉耐力并减少肌肉损伤。

Next-Generation Ultrasol Curcumin Boosts Muscle Endurance and Reduces Muscle Damage in Treadmill-Exhausted Rats.

作者信息

Sahin Emre, Orhan Cemal, Erten Fusun, Er Besir, Acharya Manutosh, Morde Abhijeet A, Padigaru Muralidhara, Sahin Kazim

机构信息

Department of Animal Nutrition, Faculty of Veterinary Medicine, Bingol University, Bingol 12000, Turkey.

Department of Animal Nutrition, Faculty of Veterinary Medicine, Firat University, Elazig 23119, Turkey.

出版信息

Antioxidants (Basel). 2021 Oct 26;10(11):1692. doi: 10.3390/antiox10111692.

DOI:10.3390/antiox10111692

PMID:34829562

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8614663/

Abstract

Curcumin positively affects performance during exercise and subsequent recovery. However, curcumin has limited bioavailability unless consumed in larger doses. In the current study, we examined the impact of a new formulation of curcumin, Next-Generation Ultrasol Curcumin (NGUC), which is relatively more bioavailable than natural curcumin on exhaustion time, grip strength, muscle damage parameters, and serum and muscle proteins. A total of 28 rats were randomly grouped as control (C, non-supplemented), exercise (E, non-supplemented), E+NGUC100 (supplemented with 100 mg/kg BW NGUC), and E+NGUC200 (supplemented with 200 mg/kg NGUC). Grip strength and exhaustion time were increased with NGUC supplementation ( < 0.0001). Creatine kinase (CK), lactate dehydrogenase (LDH), lactic acid (LA), myoglobin, malondialdehyde (MDA) concentrations were reduced in serum, and muscle tissue in NGUC supplemented groups ( < 0.05). In contrast, NGUC supplementation elevated the antioxidant enzyme levels compared to the non-supplemented exercise group ( < 0.01). Additionally, inflammatory cytokines were inhibited with NGUC administration ( < 0.05). NGUC decreased PGC-1α, p-4E-BP1, p-mTOR, MAFbx, and MuRF1 proteins in muscle tissue ( < 0.05). These results indicate that NGUC boosts exercise performance while reducing muscle damage by targeting antioxidant, anti-inflammatory, and muscle mass regulatory pathways.

摘要

姜黄素对运动期间的表现及随后的恢复有积极影响。然而，姜黄素的生物利用度有限，除非服用更大剂量。在本研究中，我们检测了一种新型姜黄素制剂——新一代超溶姜黄素（NGUC）的影响，它比天然姜黄素的生物利用度相对更高，检测其对力竭时间、握力、肌肉损伤参数以及血清和肌肉蛋白的影响。总共28只大鼠被随机分组为对照组（C，未补充）、运动组（E，未补充）、E + NGUC100（补充100 mg/kg体重的NGUC）和E + NGUC200（补充200 mg/kg的NGUC）。补充NGUC后握力和力竭时间增加（<0.0001）。补充NGUC的组血清和肌肉组织中的肌酸激酶（CK）、乳酸脱氢酶（LDH）、乳酸（LA）、肌红蛋白、丙二醛（MDA）浓度降低（<0.05）。相比之下，与未补充的运动组相比，补充NGUC提高了抗氧化酶水平（<0.01）。此外，给予NGUC可抑制炎症细胞因子（<0.05）。NGUC降低了肌肉组织中PGC-1α、p-4E-BP1、p-mTOR、MAFbx和MuRF1蛋白水平（<0.05）。这些结果表明，NGUC通过靶向抗氧化、抗炎和肌肉质量调节途径提高运动表现，同时减少肌肉损伤。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/36e1/8614663/0b477917ad13/antioxidants-10-01692-g001.jpg

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新一代超微姜黄素可提高跑步机运动疲劳大鼠的肌肉耐力并减少肌肉损伤。

Next-Generation Ultrasol Curcumin Boosts Muscle Endurance and Reduces Muscle Damage in Treadmill-Exhausted Rats.

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