Insulin does not stimulate β-alanine transport into human skeletal muscle

Gonçalves, Lívia de Souza; Kratz, Caroline; Santos, Lívia; Carvalho, Victor Henrique; Sales, Lucas Peixoto; Nemezio, Kleiner; Longobardi, Igor; Riani, Luiz; Lima, Marcelo Miranda de Oliveira; Saito, Tiemi; Fernandes, Alan Lins; Rodrigues, J. Antunes; James, Ruth; Sale, Craig; Gualano, Bruno; Geloneze, Bruno; Medeiros, Marisa Helena Gennari de; Artioli, Guilherme Giannini

doi:10.1152/ajpcell.00550.2019

Cited by 10 publications

(17 citation statements)

References 44 publications

(57 reference statements)

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“…It is likely that these large amounts of BA are required because the incorporation of ingested BA into the muscle is very low, with ∼3-6% of ingested BA estimated to contribute toward MCarn accumulation (Stegen et al, 2013;Blancquaert et al, 2015). BA uptake into the muscle seems to be rapid and efficient, however the ability of carnosine synthase to incorporate it into MCarn is far slower (Bakardjiev and Bauer, 1994;de Souza Goncalves et al, 2020) and so the remaining BA is likely to be converted toward other processes such as transamination or oxidation (Blancquaert et al, 2016). Despite this inefficiency in the use of supplemental BA to synthesize MCarn, very large increases, to the order of 200%, have been reported (Saunders et al, 2017b).…”

Section: Introductionmentioning

confidence: 99%

The Muscle Carnosine Response to Beta-Alanine Supplementation: A Systematic Review With Bayesian Individual and Aggregate Data E-Max Model and Meta-Analysis

et al. 2020

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Section: Introductionmentioning

confidence: 99%

The Muscle Carnosine Response to Beta-Alanine Supplementation: A Systematic Review With Bayesian Individual and Aggregate Data E-Max Model and Meta-Analysis

et al. 2020

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“…Whereas TauT is a high-specificity, low capacity β-alanine transporter (which needs to be coupled with a Na and Cl ions) [ 75 ] and likely saturated at high concentration of systemic β-alanine, PAT1, on the contrary, is a low-specificity, high-capacity transporter probably less saturable. Although some studies have suggested that TauT plays a dominant role in β-alanine muscle cell uptake, it has also been suggested the existence of additional uptake mechanisms: after intravenous infusion of β-alanine at saturable level, exceeding the maximum transport capacity of TauT in humans a 2.5–3-fold increase in muscle β-alanine was achieved compared to a 1.5-fold increase when sub-saturating amounts were administered [ 43 ]. This would support the idea that higher concentrations would achieve greater muscle uptake, even beyond the transport capacity of TauT.…”

Section: Discussionmentioning

confidence: 99%

“…Likewise. Another study showed that paresthesia intensity was already decreasing albeit higher concentrations (~4-fold) were reached at later time points after intravenous infusion [ 43 ]. This behavior is similar to the one found in the current study and supports the findings that paresthesia intensity is not well correlated with plasma peak concentration, it is highly variable and tolerance may be developed.…”

Section: Discussionmentioning

confidence: 99%

“…Dose selection was aimed to provide the highest amount of β-alanine in a single dose without eliciting paresthesia, reducing the number of intakes per day, which would be expected to improve compliance and adherence in chronic supplementation [ 42 ]. A previous intravenous infusion study of 9.16 ± 0.78 g at a mean rate of 60.6 ± 5.7 mg/min during 150 min (3.6 g/h and 39.7% of the total amount per hour) of β alanine elicited mild transient paresthesia, which disappeared for all subjects after the infusion was completed [ 43 ]. Therefore, we should aim to keep below this limit.…”

Section: Methodsmentioning

confidence: 99%

“…A previous in vitro release assay test on the test product was performed and showed an estimated release rate of 16.68% per hour during a total of 6 h [ 44 ]. Thus, we estimated that an 8 g dose would yield approximately 1.33 g per hour (approximately half the amount compared to the previously mentioned study [ 43 ]), which may result in similar or unperceived paresthesia within the expected intersubject variability [ 24 ].…”

Section: Methodsmentioning

confidence: 99%

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Increased Bioavailability of β-Alanine by a Novel Controlled-Release Powder Blend Compared to a Slow-Release Tablet

et al. 2021

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Background: β-Alanine is a sport supplement with increasing popularity due to its consistent ability to improve physical performance, with the downside of requiring several weeks of supplementation as imposed to the maximum daily and single dose tolerated without side effects (i.e., paresthesia). To date, the only alternative to overcome this problem has been use of a sustained-release tablet, while powders are the most commonly used format to deliver several grams of amino acids in a single dose. In this study we assessed the bioavailability, pharmacokinetics and paresthesia effect of β-alanine after administration in a novel controlled-released powder blend (test) versus a sustained-release tablet (reference). Methods: Twelve subjects (25.6 ± 3.2 y, 50% female) participated in a randomized, single-blind, crossover study. Each participant was administered orally the test (β-alanine 8 g, l-histidine 300 mg, carnosine 100 mg) or the reference product (10 tablets to reach β-alanine 8 g, Zinc 20 mg) with a 1-week washout period. β-Alanine plasma concentrations (0–8 h) were determined by LC-MS/MS and model-independent pharmacokinetic analysis was carried out. Paresthesia intensity was evaluated using a Visual Analog Score (VAS) and the categorical Intensity Sensory Score (ISS). Results: The CMAX and AUC0→∞ increased 1.6- and 2.1-fold (both p < 0.001) in the test product, respectively, which yielded 2.1-fold higher bioavailability; Ka decreased in the test (0.0199 ± 0.0107 min−1) versus the reference (0.0299 ± 0.0121 min−1) product (p = 0.0834) as well as V/F and Cl/F (both p < 0.001); MRT0→last increased in the test (143 ± 19 min) versus reference (128 ± 16 min) formulation (p = 0.0449); t1/2 remained similar (test: 63.5 ± 8.7 min, reference: 68.9 ± 9.8 min). Paresthesia EMAX increased 1.7-fold using the VAS (p = 0.086) and the ISS (p = 0.009). AUEC increased 1.9-fold with the VAS (p = 0.107) and the ISS (p = 0.019) reflecting scale intrinsic differences. Pharmacokinetic-pharmacodynamic analysis showed a clockwise hysteresis loop without prediction ability between CMAX, AUC0→∞ and EMAX or AUEC. No side effects were reported (except paresthesia). Conclusions: The novel controlled-release powder blend shows 100% higher bioavailability of β-alanine, opening a new paradigm that shifts from chronic to short or mid-term supplementation strategies to increase carnosine stores in sports nutrition.

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Insulin stimulates β-alanine uptake in skeletal muscle cells in vitro

et al. 2021

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We evaluated whether insulin could stimulate β-alanine uptake by skeletal muscle cells in vitro. Mouse myoblasts (C2C12) (n = 3 wells per condition) were cultured with β-alanine (350 or 700 µmol·L−1), with insulin (100 µU·mL−1) either added to the media or not. Insulin stimulated the β-alanine uptake at the lower (350 µmol·L−1) but not higher (700 µmol·L−1) β-alanine concentration in culture medium, indicating that transporter saturation might blunt the stimulatory effects of insulin.

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Insulin does not stimulate β-alanine transport into human skeletal muscle

Cited by 10 publications

References 44 publications

The Muscle Carnosine Response to Beta-Alanine Supplementation: A Systematic Review With Bayesian Individual and Aggregate Data E-Max Model and Meta-Analysis

The Muscle Carnosine Response to Beta-Alanine Supplementation: A Systematic Review With Bayesian Individual and Aggregate Data E-Max Model and Meta-Analysis

Increased Bioavailability of β-Alanine by a Novel Controlled-Release Powder Blend Compared to a Slow-Release Tablet

Insulin stimulates β-alanine uptake in skeletal muscle cells in vitro

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