(205e) Advances in Engineering a Human Cystathionine-?-Lyase for Systemic L?Methionine Depletion Cancer Therapy | AIChE

(205e) Advances in Engineering a Human Cystathionine-?-Lyase for Systemic L?Methionine Depletion Cancer Therapy

Authors 

Paley, O. M. - Presenter, University of Texas Austin
Lu, W. C., University of Texas Austin
Stone, E. M., University of Texas at Austin
Georgiou, G., The University of Texas at Austin



It has been known for nearly a half century that many human tumors are much more sensitive than normal tissues to L-methionine (L-Met) starvation. More recently, systemic L-Met depletion by administration of Pseudomonas putida methionine-γ-lyase (MGL) could effectively inhibit human tumors xenografted in mice. However, bacterial-derived MGLs are unstable in serum (t1/2 = 1.9 ± 0.2 h) and are highly immunogenic in primates. Since the human genome does not encode a human MGL enzyme, we created de novo a methionine degrading enzyme by reengineering the structurally homologous pyridoxal phosphate-dependent human enzyme cystathionine-γ-lyase (hCGL). hCGL degrades L-cystathionine but displays no promiscuous activity toward L-Met. Rational design and scanning saturation mutagenesis led to the generation of a variant containing three amino acid substitutions (hCGL-NLV) that degraded L-Met with a kcat/KM of 5.6 × 102 M−1 s−1 and displayed a serum deactivation t1/2 = 30 ± 3 h (PEGylated). In vitro, the cytotoxicity of hCGL-NLV toward neuroblastoma cell lines was essentially indistinguishable from that of the P. putida MGL. Furthermore, intravenous administration hCGL-NLV was able to sufficiently deplete serum L-Met to retard growth of neuroblastoma xenografts in a mouse model.  In order to minimize dose requirement, we further engineered hCGL-NLV to identify next generation variants with improved kinetics. The current best variant has a five-fold higher kcat/KM as compared to hCGL-NLV and an improved in vitro cytotoxicity profile, with no appreciable loss of stability. We are currently testing this new variant with a variety of cancer cell lines as well as determining its PK/PD and efficacy in a mouse model.

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