[논문]Royal Jelly Delays Motor Functional Impairment During Aging in Genetically Heterogeneous Male Mice

Okumura, Nobuaki; Toda, Toshihiko; Ozawa, Yusuke; Watanabe, Kenji; Ikuta, Tomoki; Tatefuji, Tomoki; Hashimoto, Ken; Shimizu, Takahiko

doi:10.3390/nu10091191

Royal Jelly Delays Motor Functional Impairment During Aging in Genetically Heterogeneous Male Mice 원문보기

Nutrients, v.10 no.9, 2018년, pp.1191 -

Okumura, Nobuaki (Institute for Bee Products and Health Science, Yamada Bee Company, Inc., Okayama 708-0393, Japan) , Toda, Toshihiko (no1780@yamada-bee.com (N.O.)) , Ozawa, Yusuke (ti1340@yamada-bee.com (T.I.)) , Watanabe, Kenji (tt0880@yamada-bee.com (T.T.)) , Ikuta, Tomoki (kh0663@yamada-bee.com (K.H.)) , Tatefuji, Tomoki (Department of Clinical Cell Biology and Medicine, Chiba University Graduate School of Medicine, Chiba 260-8670, Japan) , Hashimoto, Ken (hik_toda@proteome.jp (T.T.)) , Shimizu, Takahiko (ozawayusuke3@gmail.com (Y.O.))

Abstract ▼ AI-Helper

Aging is associated with motor disorders that decrease the quality of life (QOL). Royal jelly (RJ), used as a dietary supplement, has shown various health benefits and, therefore, it has the potential to improve the QOL during aging. We have previously developed protease enzyme-treated RJ to avoid the anaphylactic response induced by RJ supplementation. However, the effects of a lifelong treatment with RJ on normal aging have not been fully clarified. In this study, we investigated the effects of enzyme-untreated RJ (NRJ) and enzyme-treated RJ (ERJ) on the aging process focusing on motor functions, by using a genetically heterogeneous (HET) mouse model experimentally endowed with genetic diversity. We performed four different physical performance tests (grip strength, wire hang, horizontal bar, and rotarod). We showed that the age-related impairment of the motor functions was significantly delayed in RJ-treated mice. Both NRJ and ERJ were similarly effective against these types of aging-associated declines. Histological analyses revealed that the RJ treatment affected the muscle fiber size at an advanced age. We also demonstrated that age-related changes in muscle satellite cell markers and catabolic genes were affected in RJ-treated mice. These results suggest that non-protein components of RJ improved the motor function in aging mice. These findings indicate that RJ has the potential to change the QOL during aging by regulating the motor function.

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참고문헌 (50)

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Royal Jelly Delays Motor Functional Impairment During Aging in Genetically Heterogeneous Male Mice 원문보기

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