Strategies for Optimizing the Serum Persistence of Engineered Human Arginase I for Cancer Therapy

Overview

Journal J Control Release

Specialty Pharmacology

Date 2011 Oct 18

PMID 22001609

Citations 12

Authors

Everett Stone

Lynne Chantranupong

Candice Gonzalez

Jamye ONeal

Mridula Rani

Carla VanDenBerg

George Georgiou

Affiliations

Soon will be listed here.

Abstract

Systemic L-arginine depletion following intravenous administration of l-arginine hydrolyzing enzymes has been shown to selectively impact tumors displaying urea cycle defects including a large fraction of hepatocellular carcinomas, metastatic melanomas and small cell lung carcinomas. However, the human arginases display poor serum stability (t(1/2)=4.8h) whereas a bacterial arginine deiminase evaluated in phase II clinical trials was reported to be immunogenic, eliciting strong neutralizing antibody responses. Recently, we showed that substitution of the Mn(2+) metal center in human Arginase I with Co(2+) (Co-hArgI) results in an enzyme that displays 10-fold higher catalytic efficiency for L-Arg hydrolysis, 12-15 fold reduction in the IC(50) towards a variety of malignant cell lines and, importantly a t(1/2)=22h in serum. To investigate the utility of Co-hArgI for L-Arg depletion therapy in cancer we systematically investigated three strategies for enhancing the persistence of the enzyme in circulation: (i) site specific conjugation of Co-hArgI engineered with an accessible N-terminal Cys residue to 20kDa PEG-maleimide (Co-hArgI-C(PEG-20K)); (ii) engineering of the homotrimeric Co-hArgI into a linked, monomeric 110kDa polypeptide (Co-hArgI x3) and (iii) lysyl conjugation of 5kDa PEG-N-hydroxysuccinimide (NHS) ester (Co-hArgI-K(PEG-5K)). Surprisingly, even though all three formulations resulted in proteins with a predicted hydrodynamic radius larger than the cut-off for renal filtration, only Co-hArgI amine conjugated to 5kDa PEG remained in circulation for sufficiently long durations. Using Co-hArgI-K(PEG-5K) labeled with an end-terminal fluorescein for easy detection, we demonstrated that following intraperitoneal administration at 6mg/kg weight, a well tolerated dose, the circulation t(1/2) of the protein in Balb/c mice is 63±10h. Very low levels of serum L-Arg (<5μM) could be sustained for over 75h after injection, representing a 9-fold increase in pharmacodynamic efficacy relative to similarly prepared Mn(2+)-containing hArgI conjugated to 5kDa PEG-NHS ester (Mn-hArgI-K(PEG-5K)). The favorable pharmacokinetic and pharmacodynamic properties of Co-hArgI-K(PEG-5K) reported here, coupled with its human origin which should reduce the likelihood of adverse immune responses, make it a promising candidate for cancer therapy.

Citing Articles

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