(‐)‐Epicatechin maintains endurance training adaptation in mice after 14 days of detraining

The purpose of this study was to determine whether (‐)‐epicatechin (mainly found in cocoa) could attenuate detraining effects in the hindlimb muscles of mice. Thirty‐two male mice were randomized into 4 groups: control, trained, trained with 14 d of detraining and vehicle (DT‐14‐W), and trained with...

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Veröffentlicht in:	The FASEB journal 2012-04, Vol.26 (4), p.1413-1422
Hauptverfasser:	Hüttemann, Maik, Lee, Icksoo, Malek, Moh H.
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Sprache:	eng
Schlagworte:	Adaptation, Physiological - physiology angiogenesis Animals Catechin - chemistry Catechin - pharmacology Electron Transport Complex I - physiology Electron Transport Complex III - physiology Electron Transport Complex IV - metabolism Electron Transport Complex IV - physiology exercise flavanol Hindlimb - anatomy & histology Male Mice Mice, Inbred C57BL Mitochondria - metabolism muscle physiology Muscle, Skeletal - drug effects Muscle, Skeletal - physiology Oxygen Consumption - physiology Physical Conditioning, Animal - physiology Physical Endurance - drug effects Physical Endurance - physiology Random Allocation Research Communications Thrombospondin 1 - metabolism Vascular Endothelial Growth Factor A - metabolism
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description	The purpose of this study was to determine whether (‐)‐epicatechin (mainly found in cocoa) could attenuate detraining effects in the hindlimb muscles of mice. Thirty‐two male mice were randomized into 4 groups: control, trained, trained with 14 d of detraining and vehicle (DT‐14‐W), and trained with 14 d of detraining and (‐)‐epicatechin [DT‐14‐(‐)‐Epi]. DT‐14‐(‐)‐Epi received (‐)‐epicatechin (1.0 mg/kg 2×/d), whereas water was given to the DT‐14‐W group. The latter 3 groups performed 5 wk of endurance training 5×/wk. Hindlimb muscles were harvested, and Western blots, as well as enzyme analyses, were performed. Training significantly increased capillary‐to‐fiber ratio (ã 78.8%), cytochrome‐c oxidase (ã 35%), and activity (ã 144%) compared to controls. These adaptations returned to control levels for the DT‐14‐W group, whereas the DT‐14‐(‐)‐Epi group was able to maintain capillary‐to‐fiber ratio (ã44%), CcO protein expression (ã45%), and activity (ã108%) above control levels. In addition, the increase in capillarity was related to decreased protein expression of thrombospondin‐1, an antiangiogenic regulator. Furthermore, there were no significant differences in endurance capacity between the trained and DT‐14‐(‐)‐Epi groups. Our data suggest that (‐)‐epicatechin may be a suitable compound to maintain exercise‐induced improved capillarity and mitochondrial capacity, even when exercise regimens are discontinued.—Hüttemann, M., Lee, I., Malek, M. H. (‐)‐Epicatechin maintains endurance training adaptation in mice after 14 d of detraining. FASEB J. 26, 1413‐1422 (2012). www.fasebj.org
doi_str_mv	10.1096/fj.11-196154
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Thirty‐two male mice were randomized into 4 groups: control, trained, trained with 14 d of detraining and vehicle (DT‐14‐W), and trained with 14 d of detraining and (‐)‐epicatechin [DT‐14‐(‐)‐Epi]. DT‐14‐(‐)‐Epi received (‐)‐epicatechin (1.0 mg/kg 2×/d), whereas water was given to the DT‐14‐W group. The latter 3 groups performed 5 wk of endurance training 5×/wk. Hindlimb muscles were harvested, and Western blots, as well as enzyme analyses, were performed. Training significantly increased capillary‐to‐fiber ratio (ã 78.8%), cytochrome‐c oxidase (ã 35%), and activity (ã 144%) compared to controls. These adaptations returned to control levels for the DT‐14‐W group, whereas the DT‐14‐(‐)‐Epi group was able to maintain capillary‐to‐fiber ratio (ã44%), CcO protein expression (ã45%), and activity (ã108%) above control levels. In addition, the increase in capillarity was related to decreased protein expression of thrombospondin‐1, an antiangiogenic regulator. Furthermore, there were no significant differences in endurance capacity between the trained and DT‐14‐(‐)‐Epi groups. Our data suggest that (‐)‐epicatechin may be a suitable compound to maintain exercise‐induced improved capillarity and mitochondrial capacity, even when exercise regimens are discontinued.—Hüttemann, M., Lee, I., Malek, M. H. (‐)‐Epicatechin maintains endurance training adaptation in mice after 14 d of detraining. 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Thirty‐two male mice were randomized into 4 groups: control, trained, trained with 14 d of detraining and vehicle (DT‐14‐W), and trained with 14 d of detraining and (‐)‐epicatechin [DT‐14‐(‐)‐Epi]. DT‐14‐(‐)‐Epi received (‐)‐epicatechin (1.0 mg/kg 2×/d), whereas water was given to the DT‐14‐W group. The latter 3 groups performed 5 wk of endurance training 5×/wk. Hindlimb muscles were harvested, and Western blots, as well as enzyme analyses, were performed. Training significantly increased capillary‐to‐fiber ratio (ã 78.8%), cytochrome‐c oxidase (ã 35%), and activity (ã 144%) compared to controls. These adaptations returned to control levels for the DT‐14‐W group, whereas the DT‐14‐(‐)‐Epi group was able to maintain capillary‐to‐fiber ratio (ã44%), CcO protein expression (ã45%), and activity (ã108%) above control levels. In addition, the increase in capillarity was related to decreased protein expression of thrombospondin‐1, an antiangiogenic regulator. Furthermore, there were no significant differences in endurance capacity between the trained and DT‐14‐(‐)‐Epi groups. Our data suggest that (‐)‐epicatechin may be a suitable compound to maintain exercise‐induced improved capillarity and mitochondrial capacity, even when exercise regimens are discontinued.—Hüttemann, M., Lee, I., Malek, M. H. (‐)‐Epicatechin maintains endurance training adaptation in mice after 14 d of detraining. FASEB J. 26, 1413‐1422 (2012). www.fasebj.org</description><subject>Adaptation, Physiological - physiology</subject><subject>angiogenesis</subject><subject>Animals</subject><subject>Catechin - chemistry</subject><subject>Catechin - pharmacology</subject><subject>Electron Transport Complex I - physiology</subject><subject>Electron Transport Complex III - physiology</subject><subject>Electron Transport Complex IV - metabolism</subject><subject>Electron Transport Complex IV - physiology</subject><subject>exercise</subject><subject>flavanol</subject><subject>Hindlimb - anatomy & histology</subject><subject>Male</subject><subject>Mice</subject><subject>Mice, Inbred C57BL</subject><subject>Mitochondria - metabolism</subject><subject>muscle physiology</subject><subject>Muscle, Skeletal - drug effects</subject><subject>Muscle, Skeletal - physiology</subject><subject>Oxygen Consumption - physiology</subject><subject>Physical Conditioning, Animal - physiology</subject><subject>Physical Endurance - drug effects</subject><subject>Physical Endurance - physiology</subject><subject>Random Allocation</subject><subject>Research Communications</subject><subject>Thrombospondin 1 - metabolism</subject><subject>Vascular Endothelial Growth Factor A - metabolism</subject><issn>0892-6638</issn><issn>1530-6860</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kcFOGzEQhq2qqIS0t56RbwWpS2fsXdt7QaJRUpCQemh7trxeLzjaeMN6Q5Ubj8Az8iQ4CongwmE00synf37NT8hXhDOEUvxo5meIGZYCi_wDGWHBIRNKwEcyAlWyTAiuDslRjHMAQEDxiRwyhrIsWDEi-uTp4fE01XTprRmcvfWBLowPQ6pIXahXvQnW0aFPAx9uqKnNcjCD7wLdoD7tTDO4nmJOa7OOtGto7Xb4Z3LQmDa6Ly99TP7Npn8nl9n1719Xk4vrzOalFBkq5DyXjNscpWGsggJzqCqsnACrGmuZghKVlSr5ltKaSpmaQVWAkhYaPibnW93lqlq42rqQHLR62fuF6de6M16_3QR_q2-6e805ihIwCXx7Eei7u5WLg174aF3bmuC6VdRleiOHgstEft-Stu9i7F2zv4KgN5HoZq4R9TaShB-_draHdxkkQG6B_75163fF9OzPTwZMAOQAgj8DOkOZQA</recordid><startdate>201204</startdate><enddate>201204</enddate><creator>Hüttemann, Maik</creator><creator>Lee, Icksoo</creator><creator>Malek, Moh H.</creator><general>Federation of American Societies for Experimental Biology</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>5PM</scope></search><sort><creationdate>201204</creationdate><title>(‐)‐Epicatechin maintains endurance training adaptation in mice after 14 days of detraining</title><author>Hüttemann, Maik ; Lee, Icksoo ; Malek, Moh H.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c4976-181334723c417a22b05140bb1be60c8fcc280918c7895277cab8ad20b5087c0f3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2012</creationdate><topic>Adaptation, Physiological - physiology</topic><topic>angiogenesis</topic><topic>Animals</topic><topic>Catechin - chemistry</topic><topic>Catechin - pharmacology</topic><topic>Electron Transport Complex I - physiology</topic><topic>Electron Transport Complex III - physiology</topic><topic>Electron Transport Complex IV - metabolism</topic><topic>Electron Transport Complex IV - physiology</topic><topic>exercise</topic><topic>flavanol</topic><topic>Hindlimb - anatomy & histology</topic><topic>Male</topic><topic>Mice</topic><topic>Mice, Inbred C57BL</topic><topic>Mitochondria - metabolism</topic><topic>muscle physiology</topic><topic>Muscle, Skeletal - drug effects</topic><topic>Muscle, Skeletal - physiology</topic><topic>Oxygen Consumption - physiology</topic><topic>Physical Conditioning, Animal - physiology</topic><topic>Physical Endurance - drug effects</topic><topic>Physical Endurance - physiology</topic><topic>Random Allocation</topic><topic>Research Communications</topic><topic>Thrombospondin 1 - metabolism</topic><topic>Vascular Endothelial Growth Factor A - metabolism</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Hüttemann, Maik</creatorcontrib><creatorcontrib>Lee, Icksoo</creatorcontrib><creatorcontrib>Malek, Moh H.</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>PubMed Central (Full Participant titles)</collection><jtitle>The FASEB journal</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Hüttemann, Maik</au><au>Lee, Icksoo</au><au>Malek, Moh H.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>(‐)‐Epicatechin maintains endurance training adaptation in mice after 14 days of detraining</atitle><jtitle>The FASEB journal</jtitle><addtitle>FASEB J</addtitle><date>2012-04</date><risdate>2012</risdate><volume>26</volume><issue>4</issue><spage>1413</spage><epage>1422</epage><pages>1413-1422</pages><issn>0892-6638</issn><eissn>1530-6860</eissn><abstract>The purpose of this study was to determine whether (‐)‐epicatechin (mainly found in cocoa) could attenuate detraining effects in the hindlimb muscles of mice. Thirty‐two male mice were randomized into 4 groups: control, trained, trained with 14 d of detraining and vehicle (DT‐14‐W), and trained with 14 d of detraining and (‐)‐epicatechin [DT‐14‐(‐)‐Epi]. DT‐14‐(‐)‐Epi received (‐)‐epicatechin (1.0 mg/kg 2×/d), whereas water was given to the DT‐14‐W group. The latter 3 groups performed 5 wk of endurance training 5×/wk. Hindlimb muscles were harvested, and Western blots, as well as enzyme analyses, were performed. Training significantly increased capillary‐to‐fiber ratio (ã 78.8%), cytochrome‐c oxidase (ã 35%), and activity (ã 144%) compared to controls. These adaptations returned to control levels for the DT‐14‐W group, whereas the DT‐14‐(‐)‐Epi group was able to maintain capillary‐to‐fiber ratio (ã44%), CcO protein expression (ã45%), and activity (ã108%) above control levels. In addition, the increase in capillarity was related to decreased protein expression of thrombospondin‐1, an antiangiogenic regulator. Furthermore, there were no significant differences in endurance capacity between the trained and DT‐14‐(‐)‐Epi groups. Our data suggest that (‐)‐epicatechin may be a suitable compound to maintain exercise‐induced improved capillarity and mitochondrial capacity, even when exercise regimens are discontinued.—Hüttemann, M., Lee, I., Malek, M. H. (‐)‐Epicatechin maintains endurance training adaptation in mice after 14 d of detraining. FASEB J. 26, 1413‐1422 (2012). www.fasebj.org</abstract><cop>Bethesda, MD, USA</cop><pub>Federation of American Societies for Experimental Biology</pub><pmid>22179525</pmid><doi>10.1096/fj.11-196154</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adaptation, Physiological - physiology angiogenesis Animals Catechin - chemistry Catechin - pharmacology Electron Transport Complex I - physiology Electron Transport Complex III - physiology Electron Transport Complex IV - metabolism Electron Transport Complex IV - physiology exercise flavanol Hindlimb - anatomy & histology Male Mice Mice, Inbred C57BL Mitochondria - metabolism muscle physiology Muscle, Skeletal - drug effects Muscle, Skeletal - physiology Oxygen Consumption - physiology Physical Conditioning, Animal - physiology Physical Endurance - drug effects Physical Endurance - physiology Random Allocation Research Communications Thrombospondin 1 - metabolism Vascular Endothelial Growth Factor A - metabolism
title	(‐)‐Epicatechin maintains endurance training adaptation in mice after 14 days of detraining
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