The present invention provides methods for detecting and treating cancer. In some embodiments, levels of ISG15 are determined, and topoisomerase I and II inhibitors as well as other DNA-damaging agents plus agents that increase the expression of ISG15 are selected and administered.
Compositions And Methods For Detecting Proteinopathies
Board of Supervisors of Louisiana State University and Agricultural and Mechanical College - New Orleans LA
International Classification:
A61K 31/52 G01N 33/68
Abstract:
ATM kinase is shown to regulate proteasome-mediated protein turnover through suppression of the expression of the ubiquitin-like protein ISG15 (Interferon Stimulated Gene 15). Silencing of the ISG15 pathway restored both the ubiquitin and autophagy pathways, and the UV-mediated degradation of their substrates in A-T cells. The ATM kinase negatively regulates the ISG15 pathway, and the constitutively elevated ISG15 pathway induces proteinopathy in A-T cells, and in A-T patients. These findings indicate that proteasome-mediated protein degradation is impaired in A-T cells due to elevated expression of the ISG15 conjugation pathway, which contributes to progressive neurodegeneration in A-T patients. The ISG15 pathway is a new target for both detection and treatment of A-T. Inhibitors if ISG15 expression can be used to inhibit or attenuate neurodegeneration in A-T patients. In addition, an inhibitor of the early phase of autophagy, 3-MA, was shown to be effective in decreasing the impaired proteasome-mediated protein degradation in A-T cells, and thus would be effective in decreasing the neurodegeneration in A-T patients.
Therapeutic And Diagnostic Method For Ataxia-Telangiectasia
ATM kinase is shown to regulate proteasome-mediated protein turnover through suppression of the expression of the ubiquitin-like protein ISG15 (Interferon Stimulated Gene 15). Silencing of the ISG15 pathway restored both the ubiquitin and autophagy pathways, and the UV-mediated degradation of their substrates in A-T cells. The ATM kinase negatively regulates the ISG15 pathway, and the constitutively elevated ISG15 pathway induces proteinopathy in A-T cells, and in A-T patients. These findings indicate that proteasome-mediated protein degradation is impaired in A-T cells due to elevated expression of the ISG15 conjugation pathway, which contributes to progressive neurodegeneration in A-T patients. The ISG15 pathway is a new target for both detection and treatment of A-T Inhibitors if ISG15 expression can be used to inhibit or attenuate neurodegeneration in A-T patients. In addition, an inhibitor of the early phase of autophagy, 3-MA, was shown to be effective in decreasing the impaired proteasome-mediated protein degradation in A-T cells, and thus would be effective in decreasing the neurodegeneration in A-T patients.