Review
This review paper examines MOTS-c, a mitochondrial-derived microprotein (mitokine) encoded within the 12S rRNA gene, and its potential role in inflammatory lung diseases. The authors synthesize available experimental and clinical literature to explore how MOTS-c influences metabolic homeostasis, oxidative stress, inflammation, autophagy, cell death pathways (including apoptosis, ferroptosis, and pyroptosis), mitochondrial dysfunction, and immune responses. Key findings reported across the reviewed studies include: reduced circulating MOTS-c levels in various forms of acute respiratory distress; attenuation of lung injury following exogenous MOTS-c administration in preclinical models; a partial mechanistic link between remote ischemic preconditioning and MOTS-c release; decreased MOTS-c concentrations in chronic conditions such as COPD, obstructive sleep apnea, and asthma; and preliminary observations of elevated MOTS-c in lung cancer, tentatively attributed to NRF2-mediated antioxidant responses. The authors conclude that MOTS-c holds promise as both a biomarker and therapeutic candidate in respiratory medicine, while acknowledging that current evidence is largely preclinical and that well-designed translational and multicenter clinical trials are needed to confirm any clinical utility. Limitations include the heterogeneity of reviewed study designs and the early-stage, preliminary nature of much of the evidence.
Journal of translational medicine · Jun 2026DOI ↗ Review
This narrative review examines the pharmacological mechanisms, safety profiles, and regulatory status of twelve peptides commonly marketed in sports medicine contexts, spanning both FDA-approved compounds (e.g., tesamorelin/Egrifta) and unapproved "gray market" substances (e.g., BPC-157, CJC-1295, TB-500, ipamorelin, and others). The authors note that while many unapproved peptides show promising tissue repair and metabolic effects in animal models, rigorous human safety and efficacy data are largely absent. The review highlights a growing direct-to-consumer gray market operating outside regulatory oversight and discusses the potential for serious patient harm. Notably, the authors address the placebo effect as a possible mediator of perceived peptide efficacy and examine how social media may amplify this effect. A clinician-oriented framework is proposed to guide evidence-based patient discussions about peptide use for musculoskeletal healing and athletic performance, including consideration of alternative treatments. Key limitations include the narrative (non-systematic) review methodology and the inherently limited and heterogeneous evidence base for most compounds discussed, particularly in human populations.
Sports medicine (Auckland, N.Z.) · Apr 2026DOI ↗ ReviewPreprint
This narrative review examines the pharmacological mechanisms, safety profiles, and regulatory status of twelve peptides commonly encountered in sports medicine and athletic performance contexts, including both approved agents (e.g., tesamorelin/Egrifta, sermorelin) and unapproved "gray market" compounds (e.g., BPC-157, CJC-1295, TB-500, ipamorelin, AOD-9604, FS-344, GHK-Cu, MOTS-C, SS-31, and thymosin beta-4). The authors note that while many unapproved peptides show promising tissue repair and metabolic outcomes in animal models, rigorous human safety and efficacy data remain scarce. The review highlights the emergence of a direct-to-consumer gray market operating outside regulatory oversight and the potential for serious patient harm. It further discusses the placebo effect as a potential mediator of perceived peptide efficacy, and how social media may amplify this effect. The authors provide a clinical framework to guide patient-provider discussions and promote evidence-based practice for musculoskeletal healing. Key limitations include the narrative (non-systematic) review design, reliance on preclinical literature for most unapproved compounds, and the absence of head-to-head human trials for the majority of agents discussed.
Unknown journal · Apr 2026DOI ↗ ReviewPreprint
This review paper examines the pharmacological mechanisms, safety profiles, and regulatory status of both approved and unapproved peptide therapies relevant to sports medicine, musculoskeletal injury recovery, and athletic performance enhancement. The compounds reviewed span a wide spectrum — from FDA-approved agents such as tesamorelin and sermorelin, to gray-market compounds including BPC-157, TB-500, CJC-1295, Ipamorelin, AOD-9604, FS-344, GHK-Cu, MOTS-C, and SS-31. The authors note that while many unapproved peptides show promising results in preclinical and animal models — including favorable tissue repair and metabolic effects — rigorous human safety and efficacy data remain scarce. The review highlights a growing direct-to-consumer gray market operating outside regulatory oversight and discusses how social media may amplify perceived benefits through placebo-related mechanisms. The paper also offers a clinical framework to guide patient conversations and support evidence-based decision-making. Key limitations include the inherent constraints of a narrative review design, reliance on heterogeneous preclinical data for unapproved compounds, and the absence of controlled human trials for most of the highlighted peptides.
Unknown journal · Dec 2025DOI ↗