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Utilization of Wolinella succinogenes asparaginase to treat diseases associated with asparagine dependence

a technology of asparagine dependence and wolinella succinogenes, which is applied in the direction of drug compositions, peptide/protein ingredients, immunological disorders, etc., can solve the problems of life-threatening coagulopathy, pronounced immunosuppression, and wide range of host, and achieves potent anti-neoplastic activity and high efficacy

Inactive Publication Date: 2002-08-01
DURDEN DONALD L
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

Wollinella succinogenes asparaginase provides a therapeutically effective and immunologically distinct alternative, reducing host toxicity and immunosuppression, enabling complete treatment courses for diseases like leukemia and autoimmune disorders with minimal adverse effects.

Problems solved by technology

While these asparaginases possess potent anti-leukemic activity, clinical utilization of the aforementioned microbial asparaginases resulted in a wide range of host toxicity (e.g., hepatic, renal, splenic, pancreatic dysfunction and blood coagulation) and pronounced immunosuppression (see Ohno, R.
Although some investigators have reported that low dosages of E. coli asparaginase result in limited hepatotoxic complications, sensitive indicators of hepatic function in some patients receiving low dosages, however, still reveals significant hepatic disease which may result in life-threatening coagulopathy (see Crowther, D., Asparaginase and human malignant disease, 229 Nature 168 (1971)).
However, the significance of these in vitro studies is somewhat limited because the in vivo fates of asparaginases and the homeostatic control of asparagine and glutamine may result in a modification of the immunosuppressive effects of anti-neoplastic asparaginases.
Another significant problem associated with the use of microbial asparaginases is that patients treated with E. coli and E. carotovora asparaginases frequently develop neutralizing antibodies of the IgG and IgM immunoglobulin class (see, e.g, Cheung, N.
The development of antibodies directed against E. coli (EC) asparaginase and the modified PEG-asparaginase in patients is associated with neutralization of the enzymatic activity of both the EC and PEG-asparaginases in vivo, thus potentially resulting in an adverse clinical prognosis.

Method used

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  • Utilization of Wolinella succinogenes asparaginase to treat diseases associated with asparagine dependence
  • Utilization of Wolinella succinogenes asparaginase to treat diseases associated with asparagine dependence
  • Utilization of Wolinella succinogenes asparaginase to treat diseases associated with asparagine dependence

Examples

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Animals and Cell Lines

[0089] The murine model animals utilized in these experiments were Balb / C or C3H mice of 9 to 12 weeks in age (Jackson Laboratories, Bar Harbor, Me.).

[0090] The therapeutic activity of L-asparaginases was determined utilizing the 6C3HED Gardner's lymphosarcoma (Gardner, W. U., Cancer Res., vol. 4: 73 (1944)) and P1798 lymphosarcoma cell lines (ATCC) which as ascites tumors in C3H and Balb / cc mice, respectively. Alternately, the two lymphosarcoma cell lines were cultured in RPMI 1640 medium supplemented with 10% fetal calf serum. The 6C3HED Gardner's lymphosarcoma originated in the thymus of C3H mice which were initially given high doses of estradiol. The lymphosarcoma was subsequently perpetuated by serial transplantation in the C3H mice.

example 3

Isolation of W. succinogenes Genomic DNA

[0091] Genomic DNA from W. succinogenes was extracted from bacteria grown in basal medium. Typically, bacterial cells from a 50 ml of culture were collected by centrifugation and resuspended by gentle vortexing in 1.5 ml TE buffer (pH 7.0). To the cell suspension was added 15 .mu.l of 10% SDS to give a final concentration of 0.1% and 3 .mu.l of a 20 mg / ml stock solution of proteinase K. The mixture was then incubated at 37.degree. C. for approximately 60 minutes, followed by several phenol / chloroform extractions. The genomic DNA was ethanol precipitated and collected by centrifugation. The W. succinogenes genomic DNA so isolated was sufficiently pure to use in high stringency PCR amplification.

example 4

PCR Amplification of W. succinogenes Asparaginase Sequences

[0092] The nucleotide sequence of a 2.5 kb Hind III fragment containing the 993 nucleotide coding region of W. succinogenes asparaginase was published in 1995. See GenBank accession number X89215. The elucidation of this sequence facilitated the synthesis of primers specific for PCR amplification of the gene coding, for the W. succinogenes enzyme. As illustrated in FIG. 1, the forward and reverse W. succinogenes asparaginase-specific PCR primers forward and reverse had the following sequences:

1 5'-TCCGGATCCAGCGCCTCTGTTTTGATGGCT-3' Forward PCR Primer [SEQ ID NO. 1] (BamHI] Restriction Site Underlined) 5'-TGGGAATTCGGTGGAGAAGATCTTTTGGAT-3' Reverse PCR Primer [SEQ ID NO. 2] (EcoR1 Site Restriction Underlined)

[0093] It should be noted that the genomic W. succinogenes asparaginase coding sequence does not naturally contain either a BamH1 or EcoR1 restriction site. However, PCR amplification utilizing these aforementioned primers i...

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Abstract

Described herein are methods for producing recombinant forms of asparaginase derived from Wollinella succinogenes. In addition, methods for covalent modification of proteins, including asparaginases, by acylation are also provided. Certain embodiments provide for epitopic-labeling of the amino terminus of W. succinogenes asparaginase. Additional embodiments concern methods for the therapeutic utilization of the native, homotetrameric form of W. succinogenes asparaginase, as well as the use of epitopically-labeled or non-epitopically-labeled recombinant W. succinogenes asparaginase (or a covalently modified analog thereof) in the therapeutic treatment of malignant and non-malignant hematological disease and other diseases where asparagine depletion or deprivation would be efficacious or which respond to asparagine depletion or deprivation, as well as their potential utilization in the therapeutic treatment of autoimmune diseases such as rheumatoid arthritis, AIDS, and SLE.

Description

[0001] This application claims priority to U.S. provisional patent application 60 / 049,085, filed Jun. 9, 1997, which is hereby incorporated in its entirety.[0002] The present invention relates to methodologies for the production of microbial enzymes, particularly native and recombinant Wollinella succinogenes asparaginase and its analogs, which possesses potent in vitro and in vivo activity against diseases correlated with asparagine dependence. In addition, the present invention also relates to methods for the utilization of recombinant microbial enzymes in the treatment of diseases which respond to asparagine depletion, including various hematologic, autoimmune, and infectious diseases.BACKGROUND OF INVENTION[0003] The references cited below are not admitted to be prior art to the inventions described herein.[0004] Asparaginases are enzymes which catalyze the deamidation of L-asparagine (asparaginase activity) and L-glutamine (glutaminase activity). See Cantor, P. S. & Schimmell, ...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61K38/00A61K38/50A61P37/06C12N9/82
CPCA61K38/50C12N9/82A61P35/00A61P37/00A61P37/06
Inventor DURDEN, DONALD L.
Owner DURDEN DONALD L
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