Vladimir M. Subbotin
602 Samuel Drive, Madison, USA
Posters-Accepted Abstracts: J Cancer Sci Ther
Insufficient drug uptake by solid tumors remains the major problem for systemic chemotherapy. Although anticancer drug effects are dose-dependent, dose-escalationhas resulted in limited survival benefit with increased toxicities. Loco-regional treatments, offering dramatically higher drug concentrations in tumor tissues while minimizing systemic toxicity, thought to be a solution, but survival benefits are still not sufficient. We have proposed that the main obstacle preventing local drug extraction by the tumor cells is the hydrophilic nature of the drug formulations themselves, which prevents partitioning through membrane lipid bilayer. To overcome this obstacle we have developed an approach for drug hydrophobization in which the drug is linked to a hydrophobic moiety by highly labile chemical linkages [termed rapidly reversible hydrophobization (RRH)]: From: Budker VG, Monahan SD, Subbotin VM. Loco-regional cancer drug therapy: present approaches and rapidly reversible hydrophobization (RRH) of therapeutic agents as the future direction. Drug Discovery Today, 2014,19,12:1855-70. http://www.sciencedirect.com/science/article/pii/S1359644614003365 Using this approach, we demonstrated in mouse models that RRH prodrugs were taken up by practically all cells in liver tumors. The RRH prodrugs also demonstrated surface penetration into ovarian tumors to a depth of 25�30 cell layers within seconds following treatment. From studied animal models it became apparent that RRH methodology is capable of overcoming an increased interstitial fluid pressure in solid tumors, which is one of the main obstacles in solid cancer therapy. Although we have tried our approach only in two tumor models, the results in combination with targeting of normal tissues suggest potential broad applications.
Cancer Science & Therapy received 3968 citations as per Google Scholar report
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