Anti-HBXIP antibody [EPR11531(B)] - BSA and Azide free

Supplementary info

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

Activity summary

HBXIP also known as Hepatitis B X-interacting protein or LAMTOR5 is a protein with a mass of approximately 18 kDa. HBXIP binds to the HIV-1 protease and is involved in the activation of diverse cellular processes. It predominantly expresses in heart kidney liver and skeletal muscle tissues. The protein's mechanical role involves interacting with the hepatitis B virus X protein (HBx) enhancing the replication of hepatitis B virus particles.

Biological function summary

HBXIP impacts multiple cellular functions in a complex manner. It participates in the regulation of centrosome dynamics and cell division. HBXIP interacts with proteins such as survivin in a complex that plays a role in mitosis. HBXIP also influences gene expression by modulating estrogen receptor signaling. These functions make HBXIP a significant component in cellular growth control.

Pathways

HBXIP engages in cell cycle regulation and apoptosis. It affects the mTOR signaling pathway important for cell growth and metabolism. Within this context HBXIP acts alongside proteins like mTOR and RHEB influencing nutrient and energy status in the cell. Furthermore its interaction with the p53 pathway highlights its role in controlling cell survival and the response to DNA damage.

Associated diseases and disorders

HBXIP displays connections to cancer and viral infections. In cancer HBXIP overexpression correlates with tumor progression and poor patient prognosis commonly seen in breast cancer. Through its influence on nuclear factor-kB (NF-kB) HBXIP associates with inflammatory responses tied to cancer progression. Additionally its relationship with hepatitis B viral oncogenesis highlights a link between HBXIP and liver disorders signaling interaction with the viral HBx protein as a point of mechanism.