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Intraarterial O-6-Benzylguanine Enables the Specific Therapy of Nitrosourea-Resistant Intracranial Human Glioma Xenografts in Athymic Rats With 1,3-Bis(2-Chloroethyl)-1-Nitrosourea

  1. Author:
    Kurpad, S. N.
    Dolan, M. E.
    McLendon, R. E.
    Archer, G. E.
    Moschel, R. C.
    Pegg, A. E.
    Bigner, D. D.
    Friedman, H. S.

  2. Author Address

    Bigner DD DUKE UNIV MED CTR DEPT PATHOL DURHAM, NC 27710 USA DUKE UNIV MED CTR DEPT PATHOL DURHAM, NC 27710 USA CASE WESTERN RESERVE UNIV DEPT NEUROL SURG CLEVELAND, OH 44106 USA UNIV CHICAGO HEMATOL ONCOL SECT CHICAGO, IL 60637 USA NCI FREDERICK CANC RES & DEV CTR ABL BASIC RES PROGRAM FREDERICK, MD 21702 USA PENN STATE UNIV MILTON S HERSHEY MED CTR DEPT CELLULAR & MOL PHYSIOL HERSHEY, PA 17033 USA DUKE UNIV MED CTR PREUSS LAB BRAIN TUMOR RES DURHAM, NC 27710 USA DUKE UNIV MED CTR DEPT PEDIAT DURHAM, NC 27710 USA
    1. Year: 1997
  2. Journal: Cancer Chemotherapy and Pharmacology
    1. 39
    2. 4
    3. Pages: 307-316
  4. Type of Article: Article
  1. Abstract:

    The prognosis for patients with malignant gliomas continues to be dismal. The high degree of resistance of gliomas to nitrosourea-based chemotherapy is one major factor in poor treatment outcome. The identification of O-6-alkylguanine-DNA alkyltransferase (AGAT) as a major determinant of nitrosourea resistance has resulted in the development of several agents to inactivate this repair protein and counteract tumor cell resistance. However, a major problem in preclinical trials has been the marked nitrosourea dose limitations imposed by the prior administration of AGAT-depleting agents. We investigated the AGAT depletion and selective enhancement of BCNU activity of intraarterial (i.a.) O-6-benzylguanine (O(6)BG) in the human malignant glioma xenograft D-456 MG growing intracranially (i.c.) in athymic rats. Whereas i.a. O(6)BG at 2.5 mg/kg produced 100% inhibition of D-456 MG AGAT i.c. activity 8 h after administration, intraperitoneal (i.p.) O(6)BG at this dose produced only 40% inhibition, requiring-dose escalation to 10 mg/kg to produce 100% AGAT depletion. Prior administration of i.p. O(6)BG (10 mg/kg) and i.a. O(6)BG (2.5 mg/kg) limited maximum tolerated intravenous (i.v.) BCNU doses (37.5 mg/kg when given alone) to 6.25 and 25 mg/kg, respectively. Higher doses of BCNU alone or in combination with O(6)BG produced histopathologic evidence of cerebral and hepatic toxicity. Therapy experiments revealed a significantly improved median survival for rats treated with O(6)BG i.a. (2.5 mg/kg) plus BCNU i.v. (25 mg/kg, days 61 and 59 in duplicate experiments) compared with saline (day 21, P = 0.001), O(6)BG i.a. or i.p. (days 22 and 23, P = 0.001), BCNU i.v. (37.5 mg/kg, day 29, P = 0.001), and O(6)BG i.p. (10 mg/kg) plus BCNU i.v. (6.25 mg/kg, day 37, P < 0.001). Therefore, O(6)BG i.a., by virtue of rapid AGAT depletion and selective uptake into i.c. tumors, offers significant potential for regional chemomodulation of AGAT-mediated nitrosourea resistance in malignant human gliomas with concomitant reduction of systemic toxicity. [References: 49]

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