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Molecular factors relevant to the radiosensitivity of human tumours

thesis
posted on 2024-09-03, 03:50 authored by Anya Polischouk

Oncogenes, activated copies of normal cellular genes, are involved in carcinogenesis and have been suggested to be determinants of cellular radiosensitivity (RS). Mutations and gene rearrangement of c-Ha-RAS and c-MYC oncogenes were analysed in 70 biopsies and 51 blood samples from the same patients and compared with RS estimated by the clinical tumour response and by response to irradiation of tumour samples using subrenal capsule assay. We did not find a correlation between the alterations of c-Ha-RAS and/or c-MYC and RS.

DNA is considered to be a target for ionizing radiation. Efficiency of repair of DNA double-strand breaks (DSBs) has been suggested to be a determinant of cellular RS. Two human squamous cell carcinoma cell lines showing different RSs did not differ with regard to induction levels of DNA DSBs. However, the resistant cell line showed a faster rate of the first part of the repair process. The radioresistant cell line had a higher activity of the DNA dependent protein kinase (DNA-PK), an enzyme which is a component of the DNA DSB repair apparatus called non-homologous end joining - NHEJ, compared with the more radiosensitive cell line.

In order to study DNA DSB and SSB repair processes in more detail, an in vitro end-joining assay based on utilization of bacterial plasmid DNA, was developed. Using this method we showed that Ku protein, the function of which is considered to be limited to NHEJ, stimulates the repair of SSBs. The result therefore points towards the possibility of sharing of the same enzyme by two DNA repair pathways. Ku protein did not protect DNA against nuclease degradation but it did compete with the process of nuclease degradation by accelerating the repair process. Using the same system, we compared the efficiency of repair of SSBs generated by low (X-ray)- and high (nitrogen ions)- LET (linear energy transfer) radiations. High-LET irradiation has been shown to result in a higher proportion of locally multiply damaged sites (LMDSs) compared to low-LET irradiation. LMDSs are DNA lesions that are thought to be least repairable. However, in our system, X-ray and nitrogen ion-generated SSBs were repaired with the same efficiency.

The DNA is constantly inflicted by DNA damage that the cellular repair system copes with most likely in competition with nuclease activities. The constitutive level of DNA single-strand breaks (SSBs) correlated with RS in four squamous cell carcinoma cell lines (including the two described above). As imparity in DNA replication is a major source of SSBs during normal cell metabolism, DNA polymerase (pol) and DNA ligase activities were measured. DNA pol activity increased gradually with increasing RS. The ligase activity of the most radiosensitive cell line was lowest compared to the three other cell lines. Our data indicate that low ligase activity may depend on a high activity of nucleases in the cells. The results suggest that spontaneous level of SSBs may be predictable for cellular RS. The high level of SSBs may be a result of deficiency in handling of strand breaks, which consists of an imbalance between the processes that lead to introduction of DNA strand breaks and the DNA strand break repair process.

List of scientific papers

I. Polischouk AG, Scotnikova OI, Sergeeva NS, Zharinov GM, Lewensohn R, Zhivotovsky B (1997). Response to radiotherapy of human uterine cervix carcinoma is not correlated with rearrangements of the Ha-ras-1 and/or c-myc genes. Eur J Cancer. 33(6): 942-9.
https://pubmed.ncbi.nlm.nih.gov/9291819

II. Polischouk AG, Cedervall B, Ljungquist S, Flygare J, Hellgren D, Grenman R, Lewensohn R (1999). DNA double-strand break repair, DNA-PK, and DNA ligases in two human squamous carcinoma cell lines with different radiosensitivity. Int J Radiat Oncol Biol Phys. 43(1): 191-8.
https://pubmed.ncbi.nlm.nih.gov/9989526

III. Polischouk AG, Grenman R, Granath F, Lewensohn R (2001). Radiosensitivity of human squamous carcinoma cell lines is associated with amount of spontaneous DNA strand breaks. Int J Cancer. 96 Suppl: 43-53.
https://pubmed.ncbi.nlm.nih.gov/11992385

IV. Polischouk AG, Langéen M, Lewensohn R (2003). The Ku protein modulates nick ligation and repair of X-ray induced DNA single strand breaks in the cellular extracts. [Submitted]

V. Polischouk AG, Stenerlow B, Edgren MR, Lewensohn R (2003). Difference in the induction but not in the repair of X-ray- and nitrogen ion-induced DNA single strand breaks as measured using human cell extracts. [Submitted]

History

Defence date

2003-06-06

Department

  • Department of Oncology-Pathology

Publication year

2003

Thesis type

  • Doctoral thesis

ISBN-10

91-7349-508-5

Number of supporting papers

5

Language

  • eng

Original publication date

2003-05-16

Author name in thesis

Polischouk, Anya

Original department name

Department of Oncology-Pathology

Place of publication

Stockholm

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