Muscle Carnosine Metabolism and β-Alanine Supplementation in Relation to Exercise and Training

Derave, Wim; Everaert, Inge; Beeckman, Sam; Baguet, Audrey

doi:10.2165/11530310-000000000-00000

Cited by 216 publications

(216 citation statements)

References 107 publications

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“…Whilst there is general consensus in the literature for a bene cial e ect of β-alanine supplementation on high intensity exercise performance [9][10][16][17] fewer studies have examined the e ects on longer duration exercise performance. However, a recent study examined the e ects of β-alanine supplementation on cycling performance in a time trial lasting ~ 1 hr 18 .…”

Section: Introductionmentioning

confidence: 99%

Effect of β-alanine supplementation on 20 km cycling time trial performance

James

Cooper

Robertson

et al. 2014

Rev. bras. educ. fís. esporte

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The effects of β-alanine supplementation on high-intensity cycling performance and capacity have been evaluated, although the effects on longer duration cycling performance are unclear. Nineteen UK category 1 male cyclists completed four 20 km cycling time trials, two before and two after supplementation with either 6.4 g•d -1 β-alanine (n = 10; BA) or a matched placebo (n = 9; P). Performance time for the 20 km time trial and 1 km split times were recorded. There was no signifi cant effect of β-alanine supplementation on 20 km time trial performance (BA-pre 1943 ± 129 s; BA-post 1950 ± 147 s; P-pre 1989 ± 106 s; P-post 1986 ± 115 s) or on the performance of each 1 km split. The effect of β-alanine on 20 km time trial performance was deemed unclear as determined by magnitude based inferences. Supplementation with 6.4 g•d -1 of β-alanine for 4 weeks did not affect 20 km cycling time trial performance in well trained male cyclists.

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Section: Introductionmentioning

confidence: 99%

Effect of β-alanine supplementation on 20 km cycling time trial performance

James

Cooper

Robertson

et al. 2014

Rev. bras. educ. fís. esporte

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“…In humans, taking oral supplements of slow-release betaalanine tablets drives to de novo biosynthesis of carnosine, leading to increased carnosine storage in tissues [46][47][48][49][50]. Carnosines, which are secreted into the circulation by skeletal muscle cells during physical exercise, show similar beneficial effects as physical exercise on diabetic complications [14,51].…”

Section: Discussion and Future Perspectivesmentioning

confidence: 99%

“…Carnosines, which are secreted into the circulation by skeletal muscle cells during physical exercise, show similar beneficial effects as physical exercise on diabetic complications [14,51]. Enzyme measurements for CNDP1 in human sera of healthy adults and diabetic patients have provided indications for post-translational modifications of CNDP1, which influence its prolonged enzyme activity by additional glycosylation [46]. In diabetic patients with microvascular complications, non-invasive measurement of tissue carnosine concentrations by proton magnetic resonance spectroscopy (1H-MRS) shows a significant reduction of carnosine concentrations in skeletal muscles of patients with type 2 diabetes, but not in patients with type 1 diabetes [36].…”

Section: Discussion and Future Perspectivesmentioning

confidence: 99%

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2015

ICPJL

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Histidine-containing dipeptides such as carnosine (β-alanine-L-histidine) and anserine (β-alanine-L-methyl histidine) are not incorporated into proteins; instead, they are stored in peripheral skeletal muscle and other organs, including the kidney, retina, and myocardium. Carnosine has several protective functions in health and disease state. This mini review provides a current overview of the knowledge of the histidine containing dipeptides in disease accompanied by oxidative stress like diabetes and diabetic microvascular complications. It also highlights the performed experimental studies of histidine-containing dipeptides in relation to tissue damage related to (non-invasive) human studies. Finally, it describes future perspectives of the therapeutic use of histidine-containing dipeptides in health and disease.

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“…(3) e (12) lactato; (4) alanina; (5) leucina, isoleucina, acetato, glutamato, metionina, valina; (6) metionina, β-alanina, anserina, carnosina; (7) e (11) creatina; (8) anserina, carnosina, creatinina, β-alanina, taurina, betaína; (9) taurina, glicina, treonina, valina, isoleucina, leucina, glutamato, alanina, inosina; (10) anserina, metionina, betaína; (13) treonina, ATP, inosina, creatinina, carnosina, anserina; (14) Detectou-se os metabólitos anserina e carnosina, dois dipeptídeos específicos da carne (BEAUCLERCQ et al, 2016), metabolizados a partir da β-alanina (HARRIS et al, 2006;DERAVE et al, 2010;CULBERTSON et al, 2010). São encontrados naturalmente em altas concentrações no cérebro e músculo de diversos animais, bem como no homem.…”

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Metabólitos polares e a estabilidade REDOX em carne de frangos suplementados com erva-mate (<i>Ilex paraguariensis</i>)

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Muscle Carnosine Metabolism and β-Alanine Supplementation in Relation to Exercise and Training

Abstract: Running title: Carnosine and β-alanine in exercise and training Word count: 6227 2 Acknowledgements:

Cited by 216 publications

References 107 publications

Effect of β-alanine supplementation on 20 km cycling time trial performance

Effect of β-alanine supplementation on 20 km cycling time trial performance

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Metabólitos polares e a estabilidade REDOX em carne de frangos suplementados com erva-mate (<i>Ilex paraguariensis</i>)

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