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Anti-Pseudomonas Immunotherapy and Targeted Drug Delivery
Phone: (858) 784-2517
Email: kaufmann@scripps.edu
Phone: (858) 210-3701
Email: hji@sorrentotherapeutics.com
Address:
Type: Nonprofit College or University
DESCRIPTION provided by applicant Antibody therapy for serious bacterial infections using polyclonal immune antitoxin or anti capsule horse serum actually predates small molecule antibiotic use However for reasons of safety convenient empirical use and cost the development of broader spectrum antibiotics rapidly supplanted the use of immune serum But drug resistance is quickly reducing the number of effective antibiotics available for treatment of severe bacterial infections while advances in human monoclonal antibody mAb technologies have led to reconsideration of immunotherapies Therefore passive immunotherapies could be effective in preventing or treating high risk infections caused by drug resistant bacterial pathogens such as Pseudomonas aeruginosa a highly adaptable opportunistic bacterium Our target antigens for this proposal the outer membrane proteins OprF and OprI were chosen because of sequence conservation among clinical isolates and their use as vaccine antigens in several clinical trials Sorrento Therapeutics Inc has developed proprietary technologies namely its G MAB R library for selection of fully human antibodies as well as andquot antibody formulated drug conjugateandquot AfDC methodology for generation of targeted micelles We propose to generate and evaluate anti OpfF I mAbs as well as AfDCs i e colistin sulfate azithromycin containing micelles linked to selected anti P aeruginosa mAbs The studies will be performed together with our academic collaborator Dr Daniel Wozniak Ohio State University The most promising mAbs and AfDCs will be thoroughly evaluated in vitro and in vivo for their ability to prevent and or treat local as well as systemic P aeruginosa infection Specifically the projects of our STTR Advanced Technology Phase I grant application are Project In vitro evaluation and prioritization of the selected human anti OprF I mAbs Project Generation and in vitro evaluation of anti Pseudomonas AfDCs Project In vivo evaluation of mAbs AfDCs in murine and porcine P aeruginosa infection models The proposed product a fully human anti P aeruginosa mAb immunotherapy or an AfDC as targeted antibiotic delivery vehicle would be an effective and safe stand alone and or member of a andquot cocktailandquot therapeutic option for prevention or treatment of P aeruginosa infections PUBLIC HEALTH RELEVANCE Advances in human monoclonal antibody mAb technologies might enable development of passive immunotherapies for prevention or treatment of high risk infections caused by drug resistant bacteria such as Pseudomonas aeruginosa Our proposed product will be a fully human anti P aeruginosa mAb immunotherapy or an antibody mediated targeted antibiotic delivery vehicle as effective and safe stand alone and or member of a andquot cocktailandquot therapeutic option for prevention or treatment of P aeruginosa infections
* Information listed above is at the time of submission. *