SEMAX (Semaforin-1) – 11 MG

SEMAX, also known as Semaforin-1, is a peptide derived from the human semaphorin protein family. In the research community, it is studied for its potential effects on cellular signaling, angiogenesis, and neuronal guidance. This product is intended for academic and laboratory investigations only.

Research Context

Semaphorins are a diverse group of proteins involved in various biological processes, including axon guidance during embryonic development, immune response regulation, and vascular remodeling. Semaforin-1, in particular, has been examined for its role in modulating inflammatory responses, endothelial cell signaling, and the interaction between immune cells and neural tissues. Due to its structural and functional similarities to other semaphorins, SEMAX may offer insights into mechanisms underlying neurodegenerative diseases, cardiovascular research, and tissue engineering.

Research Overview

Early studies in in vitro models have suggested that SEMAX may influence the migration of endothelial cells and the expression of pro-angiogenic factors. Research in animal models has explored its potential effects on wound healing, immune modulation, and neuroprotection under specific experimental conditions. However, its precise physiological role remains an area of ongoing investigation, and these findings are not yet fully validated in human or clinical contexts.

Key Research Focus Areas

• Endothelial Cell Migration and Angiogenesis: Investigations into how SEMAX may affect vascular development and repair processes in experimental settings.
• Neuroprotective and Neurodegenerative Mechanisms: Exploration of potential roles in axon guidance, synaptic plasticity, and disease models such as Alzheimer’s or Parkinson’s.
• Immune and Inflammatory Response Regulation: Analysis of SEMAX’s impact on macrophage polarization, cytokine signaling, and chronic inflammation in preclinical studies.
• Tissue Regeneration and Wound Healing: Observations on its potential contributions to wound repair and scar formation under controlled experimental conditions.

Safety and Compliance Statement

This product is supplied for research purposes exclusively and is not intended for human or animal consumption. It is essential to adhere to all applicable laboratory protocols, regulatory guidelines, and institutional review procedures during its use. Researchers should conduct all experiments in accordance with established ethical standards and safety protocols to minimize potential risks associated with peptide-based materials. Due to its biological activity, improper handling may pose hazards, including allergic reactions or unintended biological effects. Always verify the product’s stability, purity, and storage conditions before use.

For research use only. Not for human or animal consumption.