Recombinant Human Adrenomedullin/ADM protein (Fc Chimera)

Supplementary info

This supplementary information is collated from multiple sources and compiled automatically.

Activity summary

The adrenomedullin (ADM) protein alternatively known as protein n20 is a peptide hormone with a mass of approximately 6 kilodaltons. It is mainly expressed in the adrenal medulla but you can also find it in various tissues including the heart lungs and kidneys. ADM is involved in multiple physiological processes operating as a vasodilator and playing a role in blood pressure regulation. The presence of ADM in endothelial and smooth muscle cells emphasizes its role in vascular function.

Biological function summary

Adrenomedullin contributes to homeostasis and cellular growth. It is not a part of a complex but interacts with specific receptors like the calcitonin receptor-like receptor (CRLR) and receptor activity-modifying proteins (RAMPs). These interactions activate signaling cascades that contribute to mitogenesis and angiogenesis highlighting ADM's role in cellular protection and tissue repair. ADM's activity extends to immune modulation and fluid-electrolyte balance.

Pathways

Adrenomedullin shows involvement in signaling pathways like the cAMP and MAPK pathways. It interacts closely with proteins such as RAMP2 and RAMP3 which define its receptor heterodimers in a tissue-dependent manner. ADM influences cellular responses by promoting vasodilation and modulating inflammatory responses fitting integrally into vascular homeostasis and immune functions.

Associated diseases and disorders

ADM relates to cardiovascular and inflammatory diseases. It shows altered expression levels in conditions such as heart failure and sepsis. In these diseases ADM interacts with molecules like endothelin-1 which affect vascular tone and endothelial function. Understanding ADM's role can lead to potential therapeutic strategies targeting its pathways in cardiovascular and inflammatory pathologies.