The development of new therapeutic agents is a cornerstone of modern medicine, and peptides like VAL-201 are at the forefront of this innovation. VAL-201, a peptide characterized by its high purity (99%) and presented as a white crystalline powder, is finding its place in critical areas of pharmaceutical research, particularly in the study of cancer models.

As a chemical reagent and pharmaceutical intermediate, VAL-201 offers researchers a reliable compound for various experimental applications. Its chemical properties, including its specific molecular formula and CAS registry number, ensure that it can be precisely identified and utilized in synthesis and analytical procedures. The quality of VAL-201, as supplied by manufacturers like Beijing Mesochem Technology Co., Ltd., adheres to medicine grade standards, providing a solid foundation for scientific inquiry.

The significance of VAL-201 is amplified by its performance in preclinical studies. It has shown promise as an anti-cancer agent, exhibiting notable effects in animal models for prostate and breast cancer. This efficacy is partly attributed to its function as an androgen receptor antagonist, a key mechanism in targeting certain hormone-dependent cancers. By modulating the androgen receptor pathway, VAL-201 presents a potential avenue for developing novel anti-cancer therapies.

Furthermore, VAL-201’s utility extends to understanding hormonal regulation and nutritional therapeutics, indicating its broader relevance in pharmaceutical research. Whether used in initial screening assays or as a building block for more complex drug molecules, VAL-201 provides a valuable resource for scientists working to understand and combat complex diseases.

In conclusion, VAL-201 represents a crucial peptide for contemporary pharmaceutical research. Its combination of high purity, specific biological activity as an androgen receptor antagonist, and demonstrated promise in cancer models makes it an essential component for advancing drug discovery and therapeutic development. Its role as both a chemical reagent and a pharmaceutical intermediate underscores its versatility and importance in the scientific community.