Usefulness of osteopontin (OPN) determinations in ovarian cancer patients who underwent first-line chemotherapy

Abstract Introduction: Currently CA 125 is a marker of choice for monitoring ovarian cancer. Nonetheless, scientists are still searching for new markers, which could provide additional information for the evaluation of treatment, especially in patients with normal CA 125 levels, despite the progression of the disease. According to the latest reports, OPN can be a potential new marker. Aim: Estimation of usefulness of OPN determinations in the monitoring of ovarian cancer patients. Material and Methods: The study included 54 ovarian cancer patients, undergoing chemotherapy. Markers were measured before, during and after treatment. The dynamics of the change of OPN levels was shown on line graphs, using Microsoft Excel programme. Statistical analysis was performed by Kaplan-Meier method and log-rank test. Results: 44% of patients from the study group were found to have low CA 125 levels. In these cases only the increase of OPN concentration indicated recurrence of the disease. In 43% of patients the high initial CA 125 and OPN levels decreased during chemotherapy and complete regression was stated in these patients. Nevertheless, in 13/17 patients a repeated increase of OPN concentration signalling the recurrence, earlier than CA 125 and clinical recurrence manifestation, was observed. In 13% of patients high initial levels of markers did not decrease during chemotherapy, which correlated with the progression of the disease. Our study showed that only the CA 125 levels had a significant influence (p=0.00063) on the disease-free survival time. Conclusions: Our data suggest a potential usefulness of the OPN determinations in estimating ovarian cancer recurrence. Nonetheless, there was no correlation between the initial OPN concentration and the disease-free survival time

The Variations’ in Genes Encoding TIM-3 and Its Ligand, Galectin-9, Influence on ccRCC Risk and Prognosis

Renal cell cancer is the most common type of kidney cancer in adults, and clear cell renal cell carcinoma (ccRCC) is the most diagnosed type. T cell immunoglobulin and mucin-domain-containing-3 (TIM-3) belongs to immunological checkpoints that are key regulators of the immune response. One of the known TIM-3 ligands is galectin-9 (LGALS9). A limited number of studies have shown an association between TIM-3 polymorphisms and cancer risk in the Asian population; however, there is no study on the role of LGALS9 polymorphisms in cancer. The present study aimed to analyze the influence of TIM-3 and LGALS9 polymorphisms on susceptibility to ccRCC and patient overall survival (OS), with over ten years of observations. Using TaqMan probes, ARMS–PCR, and RFPL-PCR, we genotyped two TIM-3 single-nucleotide polymorphisms (SNPs): rs1036199 and rs10057302, and four LGALS9 SNPs: rs361497, rs3751093, rs4239242, and rs4794976. We found that the presence of the rs10057302 A allele (AC + AA genotypes) as well as the rs4794976 T allele (GT + TT genotypes) decreased susceptibility to ccRCC by two-fold compared to corresponding homozygotes. A subgroup analysis showed the association of some SNPs with clinical features. Moreover, TIM-3 rs1036199 significantly influenced OS. Our results indicate that variations within TIM-3 and LGALS9 genes are associated with ccRCC risk and OS

The Identification of a Novel Fucosidosis-Associated FUCA1 Mutation: A Case of a 5-Year-Old Polish Girl with Two Additional Rare Chromosomal Aberrations and Affected DNA Methylation Patterns

Fucosidosis is a rare neurodegenerative autosomal recessive disorder, which manifests as progressive neurological and psychomotor deterioration, growth retardation, skin and skeletal abnormalities, intellectual disability and coarsening of facial features. It is caused by biallelic mutations in FUCA1 encoding the α-L-fucosidase enzyme, which in turn is responsible for degradation of fucose-containing glycoproteins and glycolipids. FUCA1 mutations lead to severe reduction or even loss of α-L-fucosidase enzyme activity. This results in incomplete breakdown of fucose-containing compounds leading to their deposition in different tissues and, consequently, disease progression. To date, 36 pathogenic variants in FUCA1 associated with fucosidosis have been documented. Among these are three splice site variants. Here, we report a novel fucosidosis-related 9-base-pair deletion (NG_013346.1:g.10233_10241delACAGGTAAG) affecting the exon 3/intron 3 junction within a FUCA1 sequence. This novel pathogenic variant was identified in a five-year-old Polish girl with a well-defined pattern of fucosidosis symptoms. Since it is postulated that other genetic, nongenetic or environmental factors can also contribute to fucosidosis pathogenesis, we performed further analysis and found two rare de novo chromosomal aberrations in the girl’s genome involving a 15q11.1-11.2 microdeletion and an Xq22.2 gain. These abnormalities were associated with genome-wide changes in DNA methylation status in the epigenome of blood cells