NUCLEOTIDE-METABOLISM AND CHROMOSOME ALTERATIONS IN HUMAN-MALIGNANT MELANOMA XENOGRAFTS

  • Authors:
    • V BARDOT
    • C LUCCIONI
    • AM DUTRILLAUX
    • D BLANCHO
    • J BEAUMATIN
    • B DUTRILLAUX
  • View Affiliations

  • Published online on: September 1, 1995     https://doi.org/10.3892/ijo.7.3.547
  • Pages: 547-554
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Abstract

The karyotypes of human melanomas exhibit multiple chromosome alterations. Recurrent deletions of 9p, 10q and 14q arms, which carry genes encoding for enzymes of purine metabolism, were also found in human gliomas, another neuroectodermal tumor previously studied for both cytogenetics and nucleotides metabolism. Postulating that this metabolism might also be modified in melanomas, the activities of eleven enzymes involved in catabolic and synthetic pathways of purine metabolism were measured, in addition to two enzymes of the pyrimidine synthesis. Assays were performed on six melanoma mestastases, five nodal and one cutaneous, after transplantation into nude mice. The purine metabolism was characterized by a more active catabolic than synthetic pathway, a possible imbalance between de novo and salvage pathways for adenylates synthesis, rather in favor of the de novo pathway, and a more active adenylate than guanylate synthesis. The skin metastasis exhibited quite different cytogenetic and metabolic patterns, when compared to the nodal metastases. Considering the relationships between cytogenetic and metabolic data, low activities of methylthioadenosine phosphorylase, adenosine kinase, adenosine monophosphate deaminase, nucleoside phosphorylase and 5'-nucleotidase were observed in melanomas, as well as frequent losses of 9p, 10q, Ip, 14q and 6q arms respectively carrying genes encoding for these enzymes, most of these rearrangements were confirmed by chromosome painting. The two enzymes exhibiting the highest activities were adenosine deaminase and adenylosuccinate lyase, encoded by genes mapped on chromosomes 20 and 22 respectively, frequently in excess in melanomas. Thus, for these tumors, the metabolic pattern roughly parallels the cytogenetic profile, even if the absence of case to case correlation suggests that gene dosage effect, if it occurs, is not the only parameter involved. The main enzymatic and cytogenetic difference between melanomas and gliomas, concerns both adenylosuccinate lyase activity and the balance of chromosome 22, high in melanomas and low in gliomas.

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September 1995
Volume 7 Issue 3

Print ISSN: 1019-6439
Online ISSN:1791-2423

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Spandidos Publications style
BARDOT V, LUCCIONI C, DUTRILLAUX A, BLANCHO D, BEAUMATIN J and DUTRILLAUX B: NUCLEOTIDE-METABOLISM AND CHROMOSOME ALTERATIONS IN HUMAN-MALIGNANT MELANOMA XENOGRAFTS. Int J Oncol 7: 547-554, 1995.
APA
BARDOT, V., LUCCIONI, C., DUTRILLAUX, A., BLANCHO, D., BEAUMATIN, J., & DUTRILLAUX, B. (1995). NUCLEOTIDE-METABOLISM AND CHROMOSOME ALTERATIONS IN HUMAN-MALIGNANT MELANOMA XENOGRAFTS. International Journal of Oncology, 7, 547-554. https://doi.org/10.3892/ijo.7.3.547
MLA
BARDOT, V., LUCCIONI, C., DUTRILLAUX, A., BLANCHO, D., BEAUMATIN, J., DUTRILLAUX, B."NUCLEOTIDE-METABOLISM AND CHROMOSOME ALTERATIONS IN HUMAN-MALIGNANT MELANOMA XENOGRAFTS". International Journal of Oncology 7.3 (1995): 547-554.
Chicago
BARDOT, V., LUCCIONI, C., DUTRILLAUX, A., BLANCHO, D., BEAUMATIN, J., DUTRILLAUX, B."NUCLEOTIDE-METABOLISM AND CHROMOSOME ALTERATIONS IN HUMAN-MALIGNANT MELANOMA XENOGRAFTS". International Journal of Oncology 7, no. 3 (1995): 547-554. https://doi.org/10.3892/ijo.7.3.547