Research-grade peptide stacks combining complementary compounds for targeted research applications.
Peptide Stacks
Research Compounds in Multi-Peptide Stacks
Pre-bundled research stacks pair complementary peptides into protocols researchers commonly investigate together. Each combination targets overlapping pathways or distinct mechanisms within a single research area, ranging from tissue repair to metabolic regulation. The compounds in this category have been documented across hundreds of preclinical studies covering synergistic mechanisms, cumulative effects, and shared receptor activity. All stacks ship in their component vials, individually labeled, for laboratory protocol flexibility.
Wolverine Stack
Pairs BPC-157 with TB-500 to probe complementary tissue repair mechanisms. BPC-157 has been studied for angiogenesis and growth factor expression, while TB-500 research has focused on cell migration and actin sequestration.
Skinny Fit Stack
Combines GLP-1 Sema with MOTS-c and AOD-9604 to investigate three distinct metabolic pathways: incretin signaling, mitochondrial energy regulation, and lipolytic activity. Each compound has been examined in models of fat metabolism and energy balance.
Skinny Fit Max
A premium metabolic stack featuring GLP-3 Reta, a triple receptor agonist acting on GLP-1, GIP, and glucagon pathways, combined with MOTS-c and AOD-9604. Preclinical research has examined the triple agonist mechanism for broader metabolic effects than single agonists.
Energizer Bunny
Combines NAD+, Semax, and CJC-1295 Ipamorelin to investigate cellular energy production, neurotrophic signaling, and pulsatile growth hormone secretion within a single research protocol. Three distinct mechanisms with overlapping downstream effects on vitality and recovery research.
Spartan Strong
Pairs CJC-1295 Ipamorelin with Tesamorelin to probe two distinct growth hormone secretagogue pathways. Research has examined cumulative GHRH receptor activation and pulsatile vs sustained GH release patterns in preclinical models.
Longevity Research Panel
Combines NAD+, Epithalon, and MOTS-c to investigate three distinct hallmarks of biological aging. NAD+ addresses sirtuin-mediated regulation, Epithalon targets telomere attrition, and MOTS-c modulates mitochondrial signaling through AMPK pathways.
Skin and Collagen Research Protocol
Pairs GHK-Cu with Epithalon for combined ECM remodeling and cellular senescence research in dermal aging models. GHK-Cu stimulates fibroblast collagen synthesis while Epithalon extends fibroblast replicative capacity through telomerase activation.
Cognitive Research Stack
Combines Semax, Pinealon, and NAD+ for multi-target CNS research. Semax provides acute neurotrophic signaling via BDNF and NGF upregulation, Pinealon modulates neuronal gene expression and chromatin, and NAD+ supports sirtuin-mediated epigenetic regulation in neurons.
Immune Support Research Stack
Pairs Thymosin Alpha-1 with BPC-157 for combined immune modulation and cytoprotective repair research. Thymosin Alpha-1 modulates T-cell differentiation and dendritic cell signaling, while BPC-157 provides tissue protection during inflammatory responses.
Comprehensive Recovery Research Protocol
Combines BPC-157, TB-500, and GHK-Cu for three-mechanism tissue repair research. Each compound targets a distinct phase of the repair cascade: angiogenesis, cellular migration, and ECM remodeling.
Featured Research Protocol
Longevity Research Panel: An advanced protocol combining NAD+, Epithalon, and MOTS-c to investigate convergent mechanisms in cellular aging. Researchers have studied each compound separately for sirtuin activation, telomerase modulation, and mitochondrial biogenesis. This panel surfaces those overlapping pathways within a single research workflow.
Explore the Research
All compounds ≥98% HPLC verified with published COA documentation.