Nucleoside-catabolizing Enzymes in Mycoplasma-infected Tumor Cell Cultures Compromise the Cytostatic Activity of the Anticancer Drug Gemcitabine*

Background: Gemcitabine is used to treat solid tumors. Some mycoplasmas preferentially colonize tumors in patients. Results: Mycoplasma-encoded cytidine deaminase and pyrimidine nucleoside phosphorylase compromise the cytostatic/antitumor activity of gemcitabine in mycoplasma-infected tumor cell cultures and xenografts in mice. Conclusion: Tumor-associated mycoplasmas may decrease the therapeutic efficiency of gemcitabine. Significance: Current treatment of mycoplasma-infected tumors with gemcitabine may be suboptimal. The intracellular metabolism and cytostatic activity of the anticancer drug gemcitabine (2′,2′-difluoro-2′-deoxycytidine; dFdC) was severely compromised in Mycoplasma hyorhinis-infected tumor cell cultures. Pronounced deamination of dFdC to its less cytostatic metabolite 2′,2′-difluoro-2′-deoxyuridine was observed, both in cell extracts and spent culture medium (i.e. tumor cell-free but mycoplasma-containing) of mycoplasma-infected tumor cells. This indicates that the decreased antiproliferative activity of dFdC in such cells is attributed to a mycoplasma cytidine deaminase causing rapid drug catabolism. Indeed, the cytostatic activity of gemcitabine could be restored by the co-administration of tetrahydrouridine (a potent cytidine deaminase inhibitor). Additionally, mycoplasma-derived pyrimidine nucleoside phosphorylase (PyNP) activity indirectly potentiated deamination of dFdC: the natural pyrimidine nucleosides uridine, 2′-deoxyuridine and thymidine inhibited mycoplasma-associated dFdC deamination but were efficiently catabolized (removed) by mycoplasma PyNP. The markedly lower anabolism and related cytostatic activity of dFdC in mycoplasma-infected tumor cells was therefore also (partially) restored by a specific TP/PyNP inhibitor (TPI), or by exogenous thymidine. Consequently, no effect on the cytostatic activity of dFdC was observed in tumor cell cultures infected with a PyNP-deficient Mycoplasma pneumoniae strain. Because it has been reported that some commensal mycoplasma species (including M. hyorhinis) preferentially colonize tumor tissue in cancer patients, our findings suggest that the presence of mycoplasmas in the tumor microenvironment could be a limiting factor for the anticancer efficiency of dFdC-based chemotherapy. Accordingly, a significantly decreased antitumor effect of dFdC was observed in mice bearing M. hyorhinis-infected murine mammary FM3A tumors compared with uninfected tumors.

[1]  R. Wong,et al.  Macrophages mediate gemcitabine resistance of pancreatic adenocarcinoma by upregulating cytidine deaminase , 2014, Oncogene.

[2]  S. Schmidl,et al.  Mycoplasma Pneumoniae Thymidine Phosphorylase , 2014, Nucleosides, nucleotides & nucleic acids.

[3]  J. Balzarini,et al.  Mycoplasma hyorhinis–Encoded Purine Nucleoside Phosphorylase: Kinetic Properties and Its Effect on the Cytostatic Potential of Purine-Based Anticancer Drugs , 2013, Molecular Pharmacology.

[4]  M. Amit,et al.  Macrophages increase the resistance of pancreatic adenocarcinoma cells to gemcitabine by upregulating cytidine deaminase , 2013, Oncoimmunology.

[5]  F. Marincola,et al.  Commensal Bacteria Control Cancer Response to Therapy by Modulating the Tumor Microenvironment , 2013, Science.

[6]  Eric Vivier,et al.  The Intestinal Microbiota Modulates the Anticancer Immune Effects of Cyclophosphamide , 2013, Science.

[7]  M. Tangney,et al.  Bacteria and tumours: causative agents or opportunistic inhabitants? , 2013, Infectious Agents and Cancer.

[8]  S. Goodison,et al.  Complete Genome Sequence of Mycoplasma hyorhinis Strain SK76 , 2013, Genome Announcements.

[9]  O. Bayrak,et al.  Can mycoplasma contribute to formation of prostate cancer? , 2013, International Urology and Nephrology.

[10]  N. Sugimoto,et al.  TAS-102 monotherapy for pretreated metastatic colorectal cancer: a double-blind, randomised, placebo-controlled phase 2 trial. , 2012, The Lancet. Oncology.

[11]  F. Gago,et al.  Characterization of pyrimidine nucleoside phosphorylase of Mycoplasma hyorhinis: implications for the clinical efficacy of nucleoside analogues. , 2012, The Biochemical journal.

[12]  M. Glickman,et al.  Inhibition of Mycobacterial Infection by the Tumor Suppressor PTEN* , 2012, The Journal of Biological Chemistry.

[13]  G. Giamouzis,et al.  Bacterial and fungal microflora in surgically removed lung cancer samples , 2011, Journal of cardiothoracic surgery.

[14]  S. Goodison,et al.  Detection of antibodies directed at M. hyorhinis p37 in the serum of men with newly diagnosed prostate cancer , 2011, BMC Cancer.

[15]  E. Klein,et al.  Association of Mycoplasma hominis infection with prostate cancer , 2011, Oncotarget.

[16]  Wenbin Liu,et al.  Mycoplasma hyorhinis infection in gastric carcinoma and its effects on the malignant phenotypes of gastric cancer cells , 2010, BMC gastroenterology.

[17]  Takuma Sasaki,et al.  Influence of Cytidine Deaminase on Antitumor Activity of 2′-Deoxycytidine Analogs In Vitro and In Vivo , 2010, Drug Metabolism and Disposition.

[18]  J. Balzarini,et al.  Improvement of purine and pyrimidine antimetabolite-based anticancer treatment by selective suppression of mycoplasma-encoded catabolic enzymes. , 2009, The Lancet. Oncology.

[19]  W. Parker Enzymology of purine and pyrimidine antimetabolites used in the treatment of cancer. , 2009, Chemical reviews.

[20]  J. Balzarini,et al.  The cytostatic activity of pyrimidine nucleosides is strongly modulated by Mycoplasma hyorhinis infection: Implications for cancer therapy. , 2008, Biochemical pharmacology.

[21]  E. Mini,et al.  Cellular pharmacology of gemcitabine. , 2006, Annals of oncology : official journal of the European Society for Medical Oncology.

[22]  DL Mager,et al.  Bacteria and cancer: cause, coincidence or cure? A review , 2006, Journal of Translational Medicine.

[23]  S. Seeber,et al.  Resistance to cytarabine and gemcitabine and in vitro selection of transduced cells after retroviral expression of cytidine deaminase in human hematopoietic progenitor cells , 2005, Leukemia.

[24]  H. Onay,et al.  Can mycoplasma-mediated oncogenesis be responsible for formation of conventional renal cell carcinoma? , 2005, Urology.

[25]  Ken B. Waites,et al.  Mycoplasma pneumoniae and Its Role as a Human Pathogen , 2004, Clinical Microbiology Reviews.

[26]  H. Bulut,et al.  Does Mycoplasma sp. play role in small cell lung cancer? , 2004, Lung cancer.

[27]  J. Mackey,et al.  Nucleoside analogues and nucleobases in cancer treatment. , 2002, The Lancet. Oncology.

[28]  C. Shou,et al.  Mycoplasma infections and different human carcinomas. , 2001, World journal of gastroenterology.

[29]  M. Heinemann,et al.  Decontamination of a Mycoplasma-infected Chlamydia pneumoniae strain by pulmonary passage in SCID mice. , 2000, International journal of medical microbiology : IJMM.

[30]  N. Suzuki,et al.  Structure and activity of specific inhibitors of thymidine phosphorylase to potentiate the function of antitumor 2'-deoxyribonucleosides. , 2000, Biochemical pharmacology.

[31]  Y. Naot,et al.  Molecular Biology and Pathogenicity of Mycoplasmas , 1998, Microbiology and Molecular Biology Reviews.

[32]  W. Patton,et al.  Assessment of archived paraffin-embedded cervical condyloma tissues for mycoplasma-conserved DNA using sensitive PCR-ELISA. , 1998, Gynecologic oncology.

[33]  P. Chan,et al.  Prevalence of mycoplasma conserved DNA in malignant ovarian cancer detected using sensitive PCR-ELISA. , 1996, Gynecologic oncology.

[34]  C. A. Blau,et al.  Forced expression of cytidine deaminase confers resistance to cytosine arabinoside and gemcitabine. , 1996, Experimental hematology.

[35]  A. Harris,et al.  Increased sensitivity to the prodrug 5'-deoxy-5-fluorouridine and modulation of 5-fluoro-2'-deoxyuridine sensitivity in MCF-7 cells transfected with thymidine phosphorylase. , 1995, British Journal of Cancer.

[36]  Benjamin Rs Gemcitabine: a modulator of intracellular nucleotide and deoxynucleotide metabolism. , 1995 .

[37]  D. Ross,et al.  Molecular effects of 2',2'-difluorodeoxycytidine (Gemcitabine) on DNA replication in intact HL-60 cells. , 1994, Biochemical pharmacology.

[38]  L. Montagnier,et al.  Identification of Mycoplasma pirum genes involved in the salvage pathways for nucleosides , 1993, Journal of bacteriology.

[39]  W. Plunkett,et al.  Modulation of deoxycytidylate deaminase in intact human leukemia cells. Action of 2',2'-difluorodeoxycytidine. , 1992, Biochemical pharmacology.

[40]  L. Hertel,et al.  Action of 2',2'-difluorodeoxycytidine on DNA synthesis. , 1991, Cancer research.

[41]  D. Budman,et al.  Therapy of refractory/relapsed acute leukemia with cytosine arabinoside plus tetrahydrouridine (an inhibitor of cytidine deaminase)--a pilot study. , 1991, Leukemia.

[42]  Y Z Xu,et al.  Inhibition of ribonucleotide reduction in CCRF-CEM cells by 2',2'-difluorodeoxycytidine. , 1990, Molecular pharmacology.

[43]  T. Holme,et al.  Elimination of mycoplasmas from mouse myeloma cells by intraperitoneal passage in mice and by antibiotic treatment. , 1989, Hybridoma.

[44]  J. Davis,et al.  Purine and Pyrimidine Metabolism in Mollicutes Species , 1988 .

[45]  V. Heinemann,et al.  Comparison of the cellular pharmacokinetics and toxicity of 2',2'-difluorodeoxycytidine and 1-beta-D-arabinofuranosylcytosine. , 1988, Cancer research.

[46]  L. R. Finch,et al.  Uptake and utilization of deoxynucleoside 5'-monophosphates by Mycoplasma mycoides subsp. mycoides , 1984, Journal of bacteriology.

[47]  E. Shevach,et al.  Mycoplasma contamination: a hazard of screening hybridoma supernatants for inhibition of [3H]thymidine incorporation. , 1984, Journal of immunological methods.

[48]  E. De Clercq,et al.  Strategies for the measurement of the inhibitory effects of thymidine analogs on the activity of thymidylate synthase in intact murine leukemia L1210 cells. , 1984, Biochimica et biophysica acta.

[49]  T. Seno,et al.  Single-step selection of mouse FM3A cell mutants defective in thymidylate synthetase , 1980, Somatic cell genetics.

[50]  N. Nakano Establishment of cell lines in vitro from a mammary ascites tumor of mouse and biological properties of the established lines in a serum containing medium. , 1966, The Tohoku journal of experimental medicine.

[51]  J. Pollack,et al.  The comparative metabolism of the mollicutes (Mycoplasmas): the utility for taxonomic classification and the relationship of putative gene annotation and phylogeny to enzymatic function in the smallest free-living cells. , 1997, Critical reviews in microbiology.

[52]  V. Heinemann,et al.  Gemcitabine: a modulator of intracellular nucleotide and deoxynucleotide metabolism. , 1995, Seminars in oncology.

[53]  M. Merkenschlager,et al.  Rate of incorporation of radiolabelled nucleosides does not necessarily reflect the metabolic state of cells in culture: effects of latent mycoplasma contamination. , 1988, Immunology.

[54]  F. Sinigaglia,et al.  Inhibition of [3H]thymidine incorporation by Mycoplasma arginini‐infected cells due to enzymatic cleavage of the nucleoside , 1985, European journal of immunology.