Partner: Anna Korycińska

University of Lodz (PL)

Ostatnie publikacje
1.Sliwinska A., Sitarek P., Toma M., Czarny P., Synowiec E., Krupa R., Wigner P., Bialek K., Kwiatkowski D., Korycinska A., Majsterek I., Szemraj J., Galecki P., Sliwinski T., Decreased expression level of BER genes in Alzheimer's disease patients is not derivative of their DNA methylation status, PROGRESS IN NEURO-PSYCHOPHARMACOLOGY & BIOLOGICAL PSYCHIATRY, ISSN: 0278-5846, DOI: 10.1016/j.pnpbp.2017.07.010, Vol.79, pp.311-316, 2017

Streszczenie:

Background: Neurodegeneration in Alzheimer's disease can be caused by accumulation of oxidative DNA damage resulting from altered expression of genes involved in the base excision repair system (BER). Promoter methylation can affect the profile of BER genes expression. Decreased expression of BER genes was observed in the brains of AD patients.
Aim of the study: The aim of our study was to compare the expression and methylation profiles of six genes coding for proteins involved in BER, namely: hOGG1, APE1, MUTYH, NEIL1, PARP1 and XRCC1, in the peripheral blood cells of AD patients and healthy volunteers.
Methods: The study consisted of 100 persons diagnosed with Alzheimer's disease according to DSM-IV criteria, and 110 healthy volunteers. DNA and total RNA were isolated from venous blood cells. Promoter methylation profiles were obtained by High Resolution Melting (HRM) analysis of bisulfide converted DNA samples. Real-time PCR with TaqMan probes was employed for gene expression analysis.
Results: APE1, hOGG1, MUTYH, PARP1 and NEIL1 were significantly (p < 0.001) down-regulated in the lymphocytes of AD patients, as compared to healthy volunteers. Expression of XRCC1 didn't differ significantly between both groups. We did not find any differences in the methylation pattern of any of the investigated BER genes.
Conclusions: The methylation status of promoters is not associated with downregulation of BER genes. Our results show that downregulation of BER genes detected in peripheral blood samples could reflect the changes occurring in the brain of patients with AD, and may be a useful biomarker of this disease.

Słowa kluczowe:

Alzheimer's disease, DNA base excision repair genes, Gene expression, Promoter methylation

Afiliacje autorów:

Sliwinska A.-Medical University of Lodz (PL)
Sitarek P.-Medical University of Lodz (PL)
Toma M.-University of Lodz (PL)
Czarny P.-Medical University of Lodz (PL)
Synowiec E.-University of Lodz (PL)
Krupa R.-University of Lodz (PL)
Wigner P.-University of Lodz (PL)
Bialek K.-University of Lodz (PL)
Kwiatkowski D.-other affiliation
Korycinska A.-University of Lodz (PL)
Majsterek I.-Medical University of Lodz (PL)
Szemraj J.-Medical University of Lodz (PL)
Galecki P.-Medical University of Lodz (PL)
Sliwinski T.-University of Lodz (PL)
35p.
2.Kwiatkowski D., Czarny P., Toma M., Korycinska A., Sowinska K., Gałecki P., Bachurska A., Bielecka-Kowalska A., Szemraj J., Maes M., Śliwiński T., Association between single nucleotide polymorphisms of hOGG1, NEIL1, APEX1, FEN1, LIG1 and LIG3 genes and Alzheimer’s disease risk, NEUROPSYCHOBIOLOGY, ISSN: 0302-282X, DOI: 10.1159/000444643, Vol.73, No.2, pp.98-107, 2016

Streszczenie:

Background: One of the factors that contribute to Alzheimer's disease (AD) is the DNA damage caused by oxidative stress and inflammation that occurs in nerve cells. It has been suggested that the risk of AD may be associated with an age dependent reduction of the DNA repair efficiency. Base excision repair (BER) is, among other things, a main repair system of oxidative DNA damage. One of the reasons for the reduced efficiency of this system may be single-nucleotide polymorphisms (SNP) of the genes encoding its proteins. Methods: DNA for genotyping was obtained from the peripheral blood of 281 patients and 150 controls. In the present study, we evaluated the impact of 8 polymorphisms of 6 BER genes on the AD risk. We analyzed the following SNP: c.-468T>G and c.444T>G of APEX1, c.*50C>T and c.*83A>C of LIG3, c.977C>G of OGG1, c.*283C>G of NEIL1, c.-441G>A of FEN1, and c.-7C>T of LIG1. Results: We showed that the LIG1 c.-7C>T A/A and LIG3 c.*83A>C A/C variants increased, while the APEX1 c.444T>G G/T, LIG1 c.-7C>T G/, LIG3 c.*83A>C C/C variants reduced, the AD risk. We also evaluated the relation between gene-gene interactions and the AD risk. We showed that combinations of certain BER gene variants such as c.977C>Gxc.*50C>T CC/CT, c./111T>Gxc.*50C>T GG/CT, c.-468T>Gxc.*50C>T GG/CT, c.-441G>Ac.*50C>Txc.*50C>T GG/CT, c.*83A>Cx c.*50C>T CT/AC, and c.-7C>Txc.*50C>T CT/GG can substantially positively modulate the risk of AD. Conclusions: In conclusion, we revealed that polymorphisms of BER genes may have a significant effect on the AD risk, and the presence of polymorphic variants may be an important marker for AD.

Słowa kluczowe:

Alzheimer's disease, Base excision repair, Polymorphisms

Afiliacje autorów:

Kwiatkowski D.-other affiliation
Czarny P.-Medical University of Lodz (PL)
Toma M.-University of Lodz (PL)
Korycinska A.-University of Lodz (PL)
Sowinska K.-University of Lodz (PL)
Gałecki P.-Medical University of Lodz (PL)
Bachurska A.-Medical University of Lodz (PL)
Bielecka-Kowalska A.-Non-Public Medical Center “Akoria” (PL)
Szemraj J.-Medical University of Lodz (PL)
Maes M.-Deakin University (AU)
Śliwiński T.-University of Lodz (PL)
25p.
3.Śliwińska A., Kwiatkowski D., Czarny P., Milczarek J., Toma M., Korycinska A., Szemraj J., Śliwiński T., Genotoxicity and cytotoxicity of ZnO and Al2O3 nanoparticles, TOXICOLOGY MECHANISMS AND METHODS, ISSN: 1537-6516, DOI: 10.3109/15376516.2015.1006509, Vol.25, No.3, pp.176-183, 2015

Streszczenie:

Objectives: Metal oxide nanoparticles (ZnO-NPs and Al2O3-NPs) are used in many fields, including consumer products and biomedical applications. As a result, exposure to these NPs is highly frequent, however, no conclusive information on their potential cytotoxicity and genotoxicity mechanisms are available. For this reason, we studied cytotoxic and genotoxic effects of ZnO-NPs and Al2O3-NPs on human peripheral blood lymphocytes.

Materials and methods: We obtained our goals by using MTT assay, Annexin V-FITC flow cytometry, and alkaline, neural and pH 12.1 versions of comet assay.

Results: Exposure of lymphocytes to both NPs for 24 h slightly decreased viability of lymphocytes at >= 0.5 mM. For the first time, we revealed using the comet assays that both ZnO-NPs and Al2O3-NPs caused a concentration-dependent increase of DNA single-strand breaks, but not alkali-labile sites. Treatment with DNA glycosylases showed that the NPs induced oxidative DNA damage. DNA damage caused by both nanoparticles at 0.05 mM was removed within 120 min, however lymphocytes did not repair DNA damage induced by 0.5 mM NPs. Studied nanoparticles did not induce apoptosis in lymphocytes.

Conclusion: Our results suggest that ZnO-NPs and Al2O3-NPs at concentration up to 0.5 mM did not exhibit cytotoxic effect but may exert genotoxic effect on lymphocytes, at least partially by the generation of oxidative DNA damage and strand breaks.

Słowa kluczowe:

DNA repair, oxidative DNA damage, single and double strand breaks

Afiliacje autorów:

Śliwińska A.-Medical University of Lodz (PL)
Kwiatkowski D.-other affiliation
Czarny P.-Medical University of Lodz (PL)
Milczarek J.-University of Lodz (PL)
Toma M.-University of Lodz (PL)
Korycinska A.-University of Lodz (PL)
Szemraj J.-Medical University of Lodz (PL)
Śliwiński T.-University of Lodz (PL)
15p.