Disclosed herein are methods for treating cancers in a subject. The method includes determining the plasma level of arginine in the subject, followed by administering to the subject an arginine deprivation therapy alone or in combination with an anti-cancer agent based on the determined plasma level of arginine. According to some embodiments of the present disclosure, the anti-cancer agent is selected from the group consisting of FOLFOX, docetaxel, cisplatin, pemetrexed, pembrolizumab, and a combination thereof.

An arginine deiminase mutant with improved enzyme activity and temperature stability and application thereof were provided, belonging to the technical field of genetic engineering and enzyme engineering. The arginine deiminase mutant is proline, namely Gly292 Pro, mutated from glycine near an enzyme active center. A wild-type arginine deiminase arcA coding gene is molecularly modified by a site-directed mutation technique to obtain a mutant enzyme ADIG292P, which has glycine at position 292 of an amino acid sequence of the wild type arginine deiminase mutated to proline. The arginine deiminase, modified by site-directed mutation, of the present invention has 1.5 times of increase in enzyme activity and 5.43 times of increase in half-life period at 40 C. compared with the wild-type enzyme, which solves the problems of low catalytic ability and temperature stability during the catalytic synthesis of citrulline using arginine deiminase, and lays a foundation for industrial production of efficient synthesis of citrulline and medication application.

The present invention relates generally to methods of treating cancer with arginine deiminase, and in particular pegylated arginine deiminase.

Disclosed is a method for producing L-citrulline using recombinant Corynebacterium crenatum cells as whole-cell biocatalysts. The present invention provides a recombinant C. crenatum that expresses an exogenous arginine deiminase gene from Lactobacillus brevis. The recombinant C. crenatum SDNN403 is used as biocatalysts for converting L-arginine to produce L-citrulline. Using the method of the invention, the concentration of L-citrulline reached 301.4 g/L after a 48 hr conversion reaction, and the molar conversion rate reached 99.9%.

Use of erythrocytes containing arginine deirainase for the preparation of a medicinal product for lowering the plasma concentration of arginine in vivo. The use relates in particular to the treatment of arginine-dependent tumors, such as hepatocarcinoma and malignant melanoma, or inhibition of the synthesis of nitric oxide, and the prevention and/or treatment of septic shock.

Antibodies, and antigen-binding fragments, which specifically bind to argininosuccinate synthase, and related compositions, kits, and methods of use, which are useful as companion diagnostics to identify suitable subjects for arginine deprivation or depletion therapies such as ADI-PEG 20 and other arginine deiminase (ADI) polypeptide-based therapies.

Methods and compositions therefor of treating GAMT deficiency or guanidino acetate (GAA) toxicity in a subject comprising administration of an arginine depleting enzyme. An therapeutic formulation can include an arginase, an arginine deiminase or a combination thereof and optionally other compounds, and can be adapted for intravenous or subcutaneous administration to a subject.

Biosensor systems for detecting levels of nitrogen-containing molecules are provided. Further provided are biosensor system components and various detection platforms, methods, and kits.

The invention provides methods for improving efficiency of fermentation by arginine supplementation, and genetically modified bacterium for use therefor. More particularly the invention provides methods for (i) increasing the production ATP intensive products with arginine supplementation, (ii) increasing utilization of arginine by a C1-fixing bacterium; and (iii) providing C1-fixing bacterium with optimized arginine de-aminase pathways.

The present invention relates to medical devices in the form of mucoadhesive films for the release of live lactic bacteria and bifidobacteria (probiotics) and/or for the release and maintenance of their pharmacologically useful enzyme activities.