Litcius/Paper detail

Prion therapeutics: Lessons from the past

Kyu Hwan Shim, Niti Sharma, Seong Soo A. An

2022Prion26 citationsDOIOpen Access PDF

Abstract

and unfortunately, almost none of them proved effective in the clinical studies, most likely due to toxicity and lack of permeability. Recently, encouraging results from a prion-protein monoclonal antibody, PRN100, were presented in the first human trial on CJD patients, which gives a hope for better future for the discovery of other new molecules to treat prion diseases. In this comprehensive review, we have re-visited the history and discussed various classes of anti-prion agents, their structure, mode of action, and toxicity. Understanding pathogenesis would be vital for developing future treatments for prion diseases. Based on the outcomes of existing therapies, new anti-prion agents could be identified/synthesized/designed with reduced toxicity and increased bioavailability, which could probably be effective in treating prion diseases.

Topics & Concepts

ScrapiePrion proteinGene isoformIn vivoToxicityTransmissible spongiform encephalopathyMonoclonal antibodyBiologyNeurodegenerationVirologyAntibodyPharmacologyMedicineDiseaseImmunologyBiochemistryPathologyBiotechnologyGeneInternal medicinePrion Diseases and Protein MisfoldingNeurological diseases and metabolismNuclear Receptors and Signaling