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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To determine the effectiveness of retroviral-mediated purine nucleoside phosphorylase (PNP) gene transfer and expression for metabolic correction of
PNP deficiency
, we used as a gene transfer target the NSU-1 subline of murine S49 T lymphoma cells, an in vitro genetic model of
PNP deficiency
. NSU-1 cells were transduced with recombinant retroviruses that express either the murine or human PNP coding sequences under transcriptional regulation of the Moloney murine
leukemia
virus (Mo-MLV) long terminal repeat (LTR), resulting in expression of substantial levels of PNP activity. Untransduced or control virus-transduced NSU-1 cells were extremely sensitive to deoxyguanosine, a PNP substrate that is toxic for lymphoid cells. However, PNP-virus transduction of NSU-1 cells metabolically corrected the sensitivity of these cells to deoxyguanosine, resulting in near wild-type levels of growth inhibition. These results demonstrate that retroviral-mediated PNP gene transfer and expression corrects the metabolic defect observed in PNP-deficient murine lymphoid cells, suggesting that PNP gene transfer and expression in human lymphoid cells might similarly correct substrate-mediated toxicity and provide an effective genetic therapy.
...
PMID:Correction of purine nucleoside phosphorylase deficiency by retroviral-mediated gene transfer in mouse S49 T cell lymphoma: a model for gene therapy of T cell immunodeficiency. 148 2
Purine nucleoside phosphorylase (PNP; EC 2.4.2.1) deficiency is associated with a fatal T cell immunodeficiency in children, a candidate condition for gene therapy by introduction of functional PNP sequences into either T lymphocytes or more primitive progenitor cells in the bone marrow. To test the effectiveness of PNP gene transfer in T lymphocytes, a retroviral vector (LmPSN-2) was designed and constructed to express the murine PNP cDNA under transcriptional regulation of the Moloney murine
leukemia
virus long terminal repeat. LmPSN-2 was first used to mediate gene transfer and expression of electrophoretically distinct murine PNP in normal (PNP-positive) human PBL. Peripheral blood leukocytes were then obtained from a PNP deficient patient and characterized phenotypically. Despite their paucity and general mitogenic unresponsiveness, T lymphocytes from this patient were successfully grown in culture by using anti-CD3 with rIL-2 and then transduced with LmPSN-2. Elevated PNP enzyme activity was observed in the transduced cell population. Mitogenic and allogeneic responses, normally depressed in PNP-deficient patients' cells, were partially corrected in the transduced cell population relative to nontransduced cells. These results suggest the possibility of effecting improved immunologic function in PNP-deficient T lymphoid cells by retroviral-mediated gene transfer as therapy for
PNP deficiency
.
...
PMID:Correction of proliferative responses in purine nucleoside phosphorylase (PNP)-deficient T lymphocytes by retroviral-mediated PNP gene transfer and expression. 787 63
Purine nucleoside phosphorylase deficiency
leads to a dGTP-mediated T-lymphopenia, suggesting that an analogue of deoxyguanosine would be selectively effective in T-cell disease. 9-beta-D-Arabinofuranosylguanine (ara-G) is relatively resistant to hydrolysis by purine nucleoside phosphorylase and selectively toxic to T cells, but its low solubility has prevented its use in the clinic. 2-Amino-6-methoxy-arabinofuranosylpurine (GW506U) serves as the water-soluble prodrug for ara-G. A Phase I trial in patients with refractory hematological malignancies demonstrated that the clinical responses to this agent were directly related to the peak levels of ara-G 5'-triphosphate (ara-GTP) in target cells. The aim of the present study was to develop and test strategies to increase intracellular accumulation of ara-GTP in primary human
leukemia
cells of myeloid and B-lymphoid origin. Three strategies were tested. First, incubations with 100 microM ara-G for 4 h produced a linear median accumulation rate of 19 microM/h (range, 2-45 microM/h; n = 15) in lymphoid leukemia cells and 16 microM/h (range, 0.5-41 microM/h; n = 11) in myeloid leukemia cells. Saturation of ara-GTP accumulation was achieved only after 6-8 h exposure in both lymphoid and myeloid leukemia cells, suggesting a rationale for prolonged infusion. Second, a dose-dependent increase in ara-GTP accumulation was observed with incubations of 10-300 microM ara-G for 3 h. Hence, dosing regimens that achieve high plasma levels of ara-G during therapy may increase cellular levels of ara-GTP. Finally, a biochemical modulation approach using in vitro incubation of
leukemia
cells with 10 microM 9-beta-D-arabinofuranosyl-2-fluoroadenine for 3 h, followed by either 50 or 100 microM ara-G for 4 h, resulted in a statistically significant median 1.3-fold (range, 1.1-9.0-fold; P = 0.034) and 1. 8-fold (range, 0.9-10.6 fold; P = 0.018) increase in ara-GTP compared to cells incubated with ara-G alone. Extension of these studies to ex vivo incubations confirmed our in vitro findings. These strategies will be used in the design of clinical protocols to increase ara-GTP accumulation in
leukemia
cells during therapy.
...
PMID:Pharmacological and biochemical strategies to increase the accumulation of arabinofuranosylguanine triphosphatein primary human leukemia cells. 981 3
