Gene amplifications and extrachromosomal circular DNAs: function and biogenesis

Gene amplification is an increase in the copy number of restricted chromosomal segments that contain gene(s) and frequently results in the over-expression of the corresponding gene(s). Amplification may be found in the form of extrachromosomal circular DNAs (eccDNAs) or as linear repetitive amplicon regions that are integrated into chromosomes, which may form cytogenetically observable homogeneously staining regions or may be scattered throughout the genome. eccDNAs are structurally circular and in terms of their function and content, they can be classified into various subtypes. They play pivotal roles in many physiological and pathological phenomena such as tumor pathogenesis, aging, maintenance of telomere length and ribosomal DNAs (rDNAs), and gain of resistance against chemotherapeutic agents. Amplification of oncogenes is consistently seen in various types of cancers and can be associated with prognostic factors. eccDNAs are known to be originated from chromosomes as a consequence of various cellular events such as repair processes of damaged DNA or DNA replication errors. In this review, we highlighted the role of gene amplification in cancer, the functional aspects of eccDNAs subtypes, the proposed biogenesis mechanisms, and their role in gene or segmental-DNA amplification.

Assessment of Bone Marrow Biopsy and Cytogenetic Findings in Patients with Multiple Myeloma

Objective

Multiple myeloma (MM) is a malignant condition that is characterized by the accumulation of malignant plasma cells. Although MM remains incurable, the survival of MM patients has improved considerably due to applied autologous stem cell transplantation (ASCT), novel agents, and treatment strategies. This study aimed to determine the cytogenetic characterization and bone marrow features of Turkish patients with MM.

Materials and Methods

Eighty-five MM patients were admitted to the 9 Eylul University Hospital in Turkey. Bone marrow (BM) samples MM patients were subject to cytogenetic analyses on diagnosis and during therapy as part of therapeutical and clinical evaluation. A complete cytogenetic study was performed using the G-banding technique. The Fluorescent in situ hybridization (FISH) analysis was performed using cytoplasmic immunoglobulin (cIg)-FISH. The degree of bone marrow fibrosis was determined using the histochemical stain of reticulin. We determined the percentage of bone marrow plasma cells based on the extent of CD38 staining.

Results

Eighty-five MM patients were retrospectively identified between 2015 and 2021. The median age was 63 (38-90) years. Of the 85 patients, 60 (70.6%) were male, and 25 (29.4%) were female. Seventy-two (84.7%) cases had bone marrow fibrosis at the time of diagnosis. The most common was grade-2 fibrosis, recorded in 35 patients (41.2%). About 72.9% of the patients showed more than 50% plasma cells. The FISH analysis indicated the presence of abnormal chromosomes in 37% (32/85) of the patients. The most frequent abnormality was IGH translocation (21.3%).

Conclusion

Subgroup analysis of IGH mutations is crucial in the identification of high-risk MM patients. We believe that our study will contribute to the determination of bone marrow biopsy and cytogenetic features of MM patients in our country.

Rapid identification of Helicobacter pylori and assessment of clarithromycin susceptibility from clinical specimens using FISH

Helicobacter pylori remains one of the most common bacterial infections worldwide. Clarithromycin resistance is the most important cause of H. pylori eradication failures. Effective antibiotic therapies in H. pylori infection must be rapidly adapted to local resistance patterns. We investigated the prevalence of clarithromycin resistance due to mutations in positions 2142 and 2143 of 23SrRNA gene of H. pylori by fluorescence in situ hybridisation (FISH), and compared with culture and antimicrobial susceptibility testing in 234 adult patients with dyspepsia who were enrolled. Antrum and corpus biopsy specimens were obtained for rapid urease test, histopathology and culture. Epsilometer test was used to assess clarithromycin susceptibility. H. pylori presence and clarithromycin susceptibility were determined by FISH in paraffin‐embedded biopsy specimens. We found that 164 (70.1%) patients were positive for H. pylori based on clinical criteria, 114 (69.5% CI 62.5–76.6%) were culture positive, and 137 (83.5% CI 77.8–89.2%) were FISH positive. Thus the sensitivity of FISH was significantly superior to that of culture. However specificity was not significantly different (91.4 versus 100.0%, respectively). The resistance rate to clarithromycin for both antrum and corpus was detected in H. pylori‐positive patients; 20.2% by FISH and 28.0% by E‐test.The concordance between E‐test and FISH was only 89.5% due to the presence of point mutations different from A2143G, A2142G or A2142C. We conclude that FISH is significantly more sensitive than culture and the E‐test for the detection of H. pylori and for rapid determinination of claritromycin susceptibility. The superior hybridisation efficiency of FISH is becoming an emerging molecular tool as a reliable, rapid and sensitive method for the detection and visualisation of H. pylori, especially when the management of H. pylori eradication therapy is necessary. This is particularly important for the treatment of patients with H. pylori eradication failure.

Detection of Helicobacter pylori and determination of clarithromycin susceptibility using formalin-fixed, paraffin-embedded gastric biopsy specimens by fluorescence in situ hybridization

BACKGROUND

Clarithromycin resistance and poor compliance to therapy are often responsible for Helicobacter pylori eradication therapy failure.

AIM

To evaluate fluorescence in situ hybridization (FISH) as a nonculture method to simultaneously detect H. pylori and to identify clarithromycin resistance.

METHODS

Fifty-four patients with dyspepsia (17 male, 37 female subjects; mean age, 46.5; range, 21-78 years) were studied. Two antrum and corpus biopsies were taken from each patient. Positive rapid urease test (RUT) and histopathologic examinations defined H. pylori positivity. A total of 108 formalin-fixed paraffin-embedded gastric mucosal biopsies were examined retrospectively by the FISH (seaFAST H. pylori Combi-Kit) method.

RESULTS

Forty-five patients (83.3%) were H. pylori positive and 43 (95.5%) were also positive by FISH. There were two false-positive FISH results. Fourteen patients (31.1%) had clarithromycin-susceptible strains, 4 (8.9%) resistant strains, and 27 (60%) both susceptible and resistant strains.

CONCLUSION

FISH results correlated well with H. pylori infection and were able to identify clarithromycin-susceptible and -resistant strains. This technique will be helpful in determining the bacterial density and the success of treatment where clarithromycin has been widely used in populations to increase the efficacy of the treatment and to clarify the treatment failure in vitro.

Testing of nonlinear electrofrictiophoresis in agarose gel

It was theoretically predicted earlier that if a periodic force without constant component is applied to a particle, then the particle can produce a directed drift in some direction. The effect is named nonlinear electrofrictiophoresis, because it is crucial for its appearance that the friction force depends on the particle's velocity in a nonlinear manner. We test a possibility to observe this effect when a mixture of fragments of DNA (the DNA ladder) moves in the agarose gel. For this purpose, we study the nonlinear characteristics of a DNA ladder movement in the gel. The gels with the ladder were run under various electric field strengths. It was found that the friction coefficient for each DNA fragment in the ladder depends on the migration velocity, suggesting that energy dissipation during migration is a nonlinear function of velocity. This nonlinearity makes the system under consideration suitable for observing nonlinear electrofrictiophoresis. A possible velocity of directed drift under periodic electric drive without constant component was estimated numerically for experimentally observed dependencies. The velocity appeared to be comparable with that of migration under a constant field of moderate strength. A possible mechanism of energy dissipation during movement of DNA through the gel is discussed.