Effects of whey protein on skeletal muscle microvascular and mitochondrial plasticity following 10 weeks of exercise training in men with type 2 diabetes
Effects of whey protein on skeletal muscle microvascular and mitochondrial plasticity following 10 weeks of exercise training in men with type 2 diabetes
Skeletal muscle microvascular dysfunction and mitochondrial rarefaction feature in type 2 diabetes mellitus (T2DM) linked to low tissue glucose disposal rate (GDR). Exercise training and milk protein supplementation independently promote microvascular and metabolic plasticity in muscle associated with improved nutrient delivery, but combined effects are unknown. In a randomised-controlled trial, 24 men (55.6 y, SD 5.7) with T2DM ingested whey protein drinks (protein/carbohydrate/fat: 20/10/3 g; WHEY) or placebo (carbohydrate/fat: 30/3 g; CON) before/after 45 mixed-mode intense exercise sessions over 10 weeks, to study effects on insulin-stimulated (hyperinsulinemic clamp) skeletal-muscle microvascular blood flow (mBF) and perfusion (near-infrared spectroscopy), and histological, genetic, and biochemical markers (biopsy) of microvascular and mitochondrial plasticity. WHEY enhanced insulin-stimulated perfusion (WHEY-CON 5.6%; 90% CI -0.1, 11.3), while mBF was not altered (3.5%; -17.5, 24.5); perfusion, but not mBF, associated (regression) with increased GDR. Exercise training increased mitochondrial (range of means: 40%-90%) and lipid density (20%-30%), enzyme activity (20%-70%), capillary:fibre ratio (∼25%), and lowered systolic (∼4%) and diastolic (4%-5%) blood pressure, but without WHEY effects. WHEY dampened PGC1α -2.9% (90% compatibility interval: -5.7, -0.2) and NOS3 -6.4% (-1.4, -0.2) expression, but other messenger RNA (mRNA) were unclear. Skeletal muscle microvascular and mitochondrial exercise adaptations were not accentuated by whey protein ingestion in men with T2DM. ANZCTR Registration Number: ACTRN12614001197628. Novelty: Chronic whey ingestion in T2DM with exercise altered expression of several mitochondrial and angiogenic mRNA. Whey added no additional benefit to muscle microvascular or mitochondrial adaptations to exercise. Insulin-stimulated perfusion increased with whey but was without impact on glucose disposal.
Adaptation, Physiological/drug effects, Adult, Aged, Beverages, Diabetes Mellitus, Type 2/physiopathology, Dietary Supplements, Exercise, Humans, Male, Microcirculation/drug effects, Middle Aged, Mitochondria/drug effects, Muscle, Skeletal/drug effects, Whey Proteins/administration & dosage
915-924
Gaffney, Kim
a351dca2-3ea6-4646-ac2c-ee0e5bb36170
Lucero, Adam
384aaf6e-c71c-444a-a32e-68b47472dc1a
Macartney-Coxson, Donia
4b3c514e-31b9-429d-bb8d-cbd350e8a118
Clapham, Jane
f7792fd2-0cc0-4d49-8b76-4adf970b97d7
Whitfield, Patricia
6a71dcfd-aaf7-4b33-969f-455da6f8644f
Palmer, Barry R.
29ad5dcd-8dba-4a11-afd7-5102eacbe9ad
Wakefield, StJohn
eadb6b47-0960-48d2-8ac0-352aa855ad76
Faulkner, James
b2bd38c9-667c-42e8-ad1e-6df58d1e3f7a
Stoner, Lee
fc664371-fcdc-412d-b2c2-1c1ce983b95e
Rowlands, David S.
41b6e4ef-c53d-4dbb-8131-68f60a78cda1
16 February 2021
Gaffney, Kim
a351dca2-3ea6-4646-ac2c-ee0e5bb36170
Lucero, Adam
384aaf6e-c71c-444a-a32e-68b47472dc1a
Macartney-Coxson, Donia
4b3c514e-31b9-429d-bb8d-cbd350e8a118
Clapham, Jane
f7792fd2-0cc0-4d49-8b76-4adf970b97d7
Whitfield, Patricia
6a71dcfd-aaf7-4b33-969f-455da6f8644f
Palmer, Barry R.
29ad5dcd-8dba-4a11-afd7-5102eacbe9ad
Wakefield, StJohn
eadb6b47-0960-48d2-8ac0-352aa855ad76
Faulkner, James
b2bd38c9-667c-42e8-ad1e-6df58d1e3f7a
Stoner, Lee
fc664371-fcdc-412d-b2c2-1c1ce983b95e
Rowlands, David S.
41b6e4ef-c53d-4dbb-8131-68f60a78cda1
Gaffney, Kim, Lucero, Adam, Macartney-Coxson, Donia, Clapham, Jane, Whitfield, Patricia, Palmer, Barry R., Wakefield, StJohn, Faulkner, James, Stoner, Lee and Rowlands, David S.
(2021)
Effects of whey protein on skeletal muscle microvascular and mitochondrial plasticity following 10 weeks of exercise training in men with type 2 diabetes.
Applied Physiology, Nutrition, and Metabolism, 46 (8), .
(doi:10.1139/apnm-2020-0943).
Abstract
Skeletal muscle microvascular dysfunction and mitochondrial rarefaction feature in type 2 diabetes mellitus (T2DM) linked to low tissue glucose disposal rate (GDR). Exercise training and milk protein supplementation independently promote microvascular and metabolic plasticity in muscle associated with improved nutrient delivery, but combined effects are unknown. In a randomised-controlled trial, 24 men (55.6 y, SD 5.7) with T2DM ingested whey protein drinks (protein/carbohydrate/fat: 20/10/3 g; WHEY) or placebo (carbohydrate/fat: 30/3 g; CON) before/after 45 mixed-mode intense exercise sessions over 10 weeks, to study effects on insulin-stimulated (hyperinsulinemic clamp) skeletal-muscle microvascular blood flow (mBF) and perfusion (near-infrared spectroscopy), and histological, genetic, and biochemical markers (biopsy) of microvascular and mitochondrial plasticity. WHEY enhanced insulin-stimulated perfusion (WHEY-CON 5.6%; 90% CI -0.1, 11.3), while mBF was not altered (3.5%; -17.5, 24.5); perfusion, but not mBF, associated (regression) with increased GDR. Exercise training increased mitochondrial (range of means: 40%-90%) and lipid density (20%-30%), enzyme activity (20%-70%), capillary:fibre ratio (∼25%), and lowered systolic (∼4%) and diastolic (4%-5%) blood pressure, but without WHEY effects. WHEY dampened PGC1α -2.9% (90% compatibility interval: -5.7, -0.2) and NOS3 -6.4% (-1.4, -0.2) expression, but other messenger RNA (mRNA) were unclear. Skeletal muscle microvascular and mitochondrial exercise adaptations were not accentuated by whey protein ingestion in men with T2DM. ANZCTR Registration Number: ACTRN12614001197628. Novelty: Chronic whey ingestion in T2DM with exercise altered expression of several mitochondrial and angiogenic mRNA. Whey added no additional benefit to muscle microvascular or mitochondrial adaptations to exercise. Insulin-stimulated perfusion increased with whey but was without impact on glucose disposal.
This record has no associated files available for download.
More information
Accepted/In Press date: 26 January 2021
e-pub ahead of print date: 16 February 2021
Published date: 16 February 2021
Keywords:
Adaptation, Physiological/drug effects, Adult, Aged, Beverages, Diabetes Mellitus, Type 2/physiopathology, Dietary Supplements, Exercise, Humans, Male, Microcirculation/drug effects, Middle Aged, Mitochondria/drug effects, Muscle, Skeletal/drug effects, Whey Proteins/administration & dosage
Identifiers
Local EPrints ID: 498312
URI: http://eprints.soton.ac.uk/id/eprint/498312
ISSN: 1715-5320
PURE UUID: 129c10a4-d25c-4d2a-8167-bb5c8011d2b9
Catalogue record
Date deposited: 14 Feb 2025 17:43
Last modified: 15 Feb 2025 03:35
Export record
Altmetrics
Contributors
Author:
Kim Gaffney
Author:
Adam Lucero
Author:
Donia Macartney-Coxson
Author:
Jane Clapham
Author:
Patricia Whitfield
Author:
Barry R. Palmer
Author:
StJohn Wakefield
Author:
James Faulkner
Author:
Lee Stoner
Author:
David S. Rowlands
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics