Follistatin 344 vs GHRP-6

Binds and neutralizes myostatin (GDF-8) and activin; removes the natural brake on muscle growth allowing supraphysiological hypertrophy

Follistatin-344 is the predominant endogenous isoform of follistatin, a glycoprotein that binds and neutralizes the TGF-β superfamily members activin A and myostatin, preventing their engagement with skeletal muscle ActRII receptors and thereby relieving their inhibitory effects on muscle protein synthesis and satellite cell activation. By sequestering both myostatin and activin A simultaneously, follistatin-344 neutralizes two complementary negative regulators of muscle growth through a dual-pathway mechanism, a property that distinguishes it from agents that target only the myostatin pathway. Transgenic expression of human follistatin-344 has produced significant skeletal muscle mass increases in animal models, and a phase 1/2a gene therapy trial delivering the follistatin-344 gene via AAV to patients with Becker muscular dystrophy established initial proof of concept and safety data in a human clinical context. Follistatin-344 has not received FDA approval for any indication; exogenous administration as a recombinant protein or peptide is investigational and no human safety data exists for this route of administration outside gene therapy trial contexts. Follistatin-344 as a research compound: recombinant follistatin-344 protein is available through research biochemical suppliers as a laboratory reagent, used in cell culture and animal models to probe myostatin and activin A biology. Interest in exogenous follistatin-344 administration in performance contexts has grown from the animal model hypertrophy data; however, the protein's large molecular weight (~35 kDa glycoprotein) creates significant bioavailability challenges for subcutaneous or intramuscular routes, and no human pharmacokinetic data supports assumed tissue distribution from injection. This distinguishes it from smaller peptide-based myostatin modulators. Follistatin-344 vs myostatin propeptide: both target myostatin inhibition but through different binding mechanisms. Follistatin-344 binds activin A in addition to myostatin, providing a broader TGF-β inhibition profile. Myostatin propeptide is the endogenous inhibitory domain of the myostatin precursor protein — it is myostatin-specific but structurally derived from the same protein rather than from a binding antagonist class. Both compounds remain at the research stage for performance applications with no approved human use. Providers offering research peptides in the performance and muscle recovery category are listed in the PeptideBase directory.

Ghrelin receptor agonist; stimulates pituitary GH release and increases appetite via hypothalamic ghrelin pathways

GHRP-6 (growth hormone-releasing peptide 6) is a synthetic hexapeptide GH secretagogue that acts as an agonist at the ghrelin receptor (GHS-R1a) in pituitary somatotrophs and the hypothalamus, stimulating GH release through a mechanism that is synergistic with but distinct from endogenous growth hormone-releasing hormone (GHRH). Like other GHRP-class peptides, it engages hypothalamic arcuate nucleus circuits to potentiate GHRH-driven GH pulses and partially suppress somatostatin inhibitory tone; it was among the first GHRP-class compounds characterized pharmacologically and has been used extensively as a research tool for probing the GH secretory axis. Clinical studies have demonstrated dose-dependent GH release following GHRP-6 administration in human subjects, and the GHRP pharmacological class has been characterized across multiple studies documenting pituitary and hypothalamic mechanisms of action. GHRP-6 is not FDA-approved for any indication; it has been studied as a pharmacological tool and provocative GH stimulation agent but has not been evaluated for safety or efficacy in performance enhancement or muscle building outside research protocols. GHRP-6 dosage in research contexts: studies have used subcutaneous and intravenous doses typically in the range of 100–300 mcg per injection. In research protocols, GHRP-6 is often administered 2–3 times daily — before meals, before training, or before sleep — to leverage the body's natural GH pulse windows. GHRP-6 produces a pronounced appetite stimulation effect (a direct ghrelin-mimetic consequence) that is stronger than what is observed with more selective GHRPs such as ipamorelin; this characteristic is relevant to research contexts studying GH secretion alongside energy intake regulation. GHRP-6 vs GHRP-2: both are non-selective GHRPs producing GH alongside cortisol and prolactin co-stimulation, but GHRP-6 is noted for more pronounced ghrelin-like appetite stimulation, while GHRP-2 produces greater GH output per unit dose in some comparative studies. Neither offers the selectivity profile of ipamorelin, which emerged from subsequent GHRP research specifically to reduce off-target hormonal effects. GHRP-6 is administered by subcutaneous injection following reconstitution with bacteriostatic water. Providers offering GHRP-class secretagogues are listed in the PeptideBase directory.