Multi-Axis Reprogramming of Muscle-Metabolic Crosstalk by HiLo Platinum™ Restores Strength in Prediabetes via Mitochondrial Activation and Gut Microbiome Remodeling.

Abstract

Prediabetes is increasingly recognized as a risk factor for sarcopenia, driven by chronic low-grade inflammation, insulin resistance, and impaired anabolic signaling. Nutritional interventions containing whey protein, hydroxymethylbutyrate (HMB), glucosamine, and micronutrients may offer a multi-target strategy to counteract muscle deterioration. This study aimed to evaluate the efficacy of HiLo Platinum&#x2122; supplementation in attenuating muscle strength decline in a prediabetic rat model, with integrated analysis of metabolic biomarkers and gut microbiome profiles. A randomized preclinical trial was conducted using male Sprague Dawley rats assigned to four groups: normal diet (ND), prediabetic control induced by cholesterol- and fat-enriched diet with fructose (CFEDF), and two treatment groups receiving low-dose (0.63 g/kg BW) or high-dose (1.26 g/kg BW) HiLo Platinum&#x2122;. The intervention lasted six weeks. Muscle strength was assessed via a four-limb grip strength test (reverse hang time and holding impulse). Biomarkers related to inflammation, mitochondrial function, and anabolic signaling (TNF-&#x3b1;, IL-10, PGC-1&#x3b1;, IGF-1, SIRT-1, AMPK, mTOR, and myostatin), lipid profile, and blood glucose were analyzed. Gut microbiome composition and diversity were evaluated using taxonomic profiling and multivariate analyses. HiLo Platinum&#x2122; supplementation significantly improved muscle strength, evidenced by increased reverse hang time and holding impulse (< 0.001). Both doses reduced blood glucose and improved lipid profiles, including increased HDL and decreased LDL, triglycerides, and total cholesterol. Anti-inflammatory effects were observed with reduced TNF-&#x3b1; and elevated IL-10 levels. Mitochondrial and metabolic regulators (PGC-1&#x3b1;, SIRT-1, AMPK) and anabolic mediators (IGF-1) were significantly upregulated, while mTOR levels decreased. Gut microbiome analysis revealed increased genus richness (Chao1 index) and distinct microbial shifts associated with improved metabolic and inflammatory markers. HiLo Platinum&#x2122; effectively mitigates prediabetes-induced muscle strength decline through integrated modulation of inflammatory pathways, mitochondrial function, metabolic homeostasis, and gut microbiome composition. These findings support its potential as a nutritional therapeutic strategy for preventing sarcopenia in prediabetic conditions, although further studies are needed to evaluate long-term effects and implications on muscle hypertrophy.