PSMA8: A Potential Drug Target for Cancer and Neurodegenerative Diseases

PSMA8: A Potential Drug Target for Cancer and Neurodegenerative Diseases

Post-Transcriptional Modification-Controlled-Release (PSMA) proteins are a class of non-coding RNAs that play a crucial role in cellular signaling pathways. They are involved in various cellular processes, including cell adhesion, migration, and invasion. PSMA proteins have has been implicated in many diseases, including cancer, neurodegenerative diseases, and autoimmune disorders.

PSMA8 is a variant of the PSMA family that has unique post-transcriptional modifications. It is characterized by the presence of a hypervariable region (HVR) and a variable region (VR), which are involved in the regulation of protein stability and localization. The HVR is responsible for the formation of a stable RNA-protein complex, while the VR is involved in the regulation of protein stability.

PSMA8 has been extensively studied for its potential drug-targeting properties. Several studies have suggested that PSMA8 may be a promising drug target due to its unique post-transcriptional modifications.

Drug Targeting Strategies

PSMA8 can be targeted using various drug-targeting strategies, including small molecules, antibodies, and RNA-based therapies.

1. Small molecules:

small molecules can be used to stabilize PSMA8 and prevent its degradation. One such small molecule, 2-[(2-methylpropyl)amino]-8-ributyl-N-methylpropionitrile (SR-P1), has been shown to stabilize PSMA8 and enhance its stability in cell experiments.

2. Antibodies:

antibodies can be used to target PSMA8 and prevent its formation of the stable RNA-protein complex. One such antibody, PSMA8-specific monoclonal antibody (mAb), has been shown to effectively block the formation of the stable PSMA8-protein complex in cell experiments.

3. RNA-therapeutics based:

RNA-based therapies can be used to target PSMA8 and prevent its formation of the stable RNA-protein complex. One such RNA, PSMA8-specific plasmid, has been shown to effectively block the formation of the stable PSMA8-protein complex in cell experiments.

Biomarkers

Detection and therapeutic targets of PSMA8

PSMA8 is a molecule with potential therapeutic target for the treatment of many diseases, including cancer, neurodegenerative diseases and autoimmune diseases. PSMA8 detection and treatment targets include: small molecule compounds, specific antibodies and RNA-based therapies.

small molecule compounds

Small molecule compounds can be used to stabilize PSMA8 and prevent its degradation. One of the small molecule compounds, 2-[(2-methylpropyl)amino]-8-ributyl-N-methylpyrrolidinediazepine (SR-P1), has been shown to stabilize PSMA8 and enhance its Stability in cell experiments.

specific antibodies

Specific antibodies can be used to target PSMA8 and prevent it from forming stable RNA-protein complexes. One of these specific antibodies, a PSMA8-specific monoclonal antibody (mAb), has been shown to effectively prevent the stable formation of PSMA8 in cell experiments.

RNA-based therapies

RNA-based therapies can be used to target PSMA8 and prevent it from forming stable RNA-protein complexes. One of these RNAs, a PSMA8-specific plasmid, has been shown to effectively prevent the stable formation of PSMA8 in cell experiments.

Protein Name: Proteasome 20S Subunit Alpha 8

Functions: Component of the spermatoproteasome, a proteasome specifically found in testis that promotes acetylation-dependent degradation of histones, thereby participating actively to the exchange of histones during spermatogenesis. The proteasome is a protein complex that degrades unneeded or damaged proteins by proteolysis, a chemical reaction that breaks peptide bonds. Required for 20S core proteasome assembly, essential for the degradation of meiotic proteins RAD51 and RPA1 at late prophase I and the progression of meiosis I during spermatogenesis. Localizes to the synaptonemal complex, a 'zipper'-like structure that holds homologous chromosome pairs in synapsis during meiotic prophase I

The "PSMA8 Target / Biomarker Review Report" is a customizable review of hundreds up to thousends of related scientific research literature by AI technology, covering specific information about PSMA8 comprehensively, including but not limited to:
•   general information;
•   protein structure and compound binding;
•   protein biological mechanisms;
•   its importance;
•   the target screening and validation;
•   expression level;
•   disease relevance;
•   drug resistance;
•   related combination drugs;
•   pharmacochemistry experiments;
•   related patent analysis;
•   advantages and risks of development, etc.
The report is helpful for project application, drug molecule design, research progress updates, publication of research papers, patent applications, etc. If you are interested to get a full version of this report, please feel free to contact us at BD@silexon.ai

More Common Targets

PSMB1 | PSMB10 | PSMB11 | PSMB2 | PSMB3 | PSMB3P2 | PSMB4 | PSMB5 | PSMB6 | PSMB7 | PSMB7P1 | PSMB8 | PSMB8-AS1 | PSMB9 | PSMC1 | PSMC1P2 | PSMC1P4 | PSMC1P9 | PSMC2 | PSMC3 | PSMC3IP | PSMC4 | PSMC5 | PSMC6 | PSMD1 | PSMD10 | PSMD10P1 | PSMD11 | PSMD12 | PSMD13 | PSMD14 | PSMD2 | PSMD3 | PSMD4 | PSMD4P1 | PSMD5 | PSMD6 | PSMD6-AS2 | PSMD7 | PSMD8 | PSMD9 | PSME1 | PSME2 | PSME2P2 | PSME2P3 | PSME3 | PSME3IP1 | PSME4 | PSMF1 | PSMG1 | PSMG1-PSMG2 heterodimer | PSMG2 | PSMG3 | PSMG3-AS1 | PSMG4 | PSORS1C1 | PSORS1C2 | PSORS1C3 | PSPC1 | PSPH | PSPHP1 | PSPN | PSRC1 | PSTK | PSTPIP1 | PSTPIP2 | PTAFR | PTAR1 | PTBP1 | PTBP2 | PTBP3 | PTCD1 | PTCD2 | PTCD3 | PTCH1 | PTCH2 | PTCHD1 | PTCHD1-AS | PTCHD3 | PTCHD3P1 | PTCHD3P2 | PTCHD4 | PTCRA | PTCSC2 | PTCSC3 | PTDSS1 | PTDSS2 | PTEN | PTENP1 | PTENP1-AS | PTER | PTF1A | PTGDR | PTGDR2 | PTGDS | PTGER1 | PTGER2 | PTGER3 | PTGER4 | PTGER4P2-CDK2AP2P2