[Oxidative stress, rRNA genes, and antioxidant enzymes in pathogenesis of schizophrenia and autism: modeling and clinical advices].

Ribosomal genes (RG), or genes for rRNA, are represented by multiple tandem repeats in eukaryotic genomes, and just a part of them is transcriptionally active. The quantity of active copies is a stable genome feature which determines the cell's capability for rapid synthesis of proteins, necessary to cope with stress conditions. Low number of active RG copies leads to reduced stress resistance and elevated risk of multifactorial disorders (MFD). Oxidative stress (OS) in the brain cells is believed to be involved in the pathogenesis of infantile autism (IA) and schizophrenia, i.e., MFDs with a manifested genetic predisposition. With autism, OS markers are found almost in every research, whilst with schizophrenia, the OS data are contradictory. Earlier, in a sample of patients with schizophrenia, we have found significantly higher quantity of active RG copies than at the average in healthy population. Here we have estimated the number of active RG copies in a sample of patients with IA (n = 51) and revealed significantly lower mean value than in healthy population. A novel mathematical model of the dynamic pattern of OS has been proposed. The model is realized as an ordinary differential equation system, supposing induction of antioxidant protection enzymes being mediated by reactive oxygen species (ROS), with the subsequent decrease of ROS content in a cell. The rate of synthesis of antioxidant protection enzymes is limited by the ribosome synthesis rate which depends on the number of active RG copies. Analysis of the model showed that the system always approaches a single stable equilibrium point along a damped oscillation trajectory, which in some degree resembles the dynamics of 'predator-prey' interaction in Lotka-Volterra model. The stationary ROS level inversely depends on the number of active RG copies. Our study explains the inconsistency of clinical data of OS in schizophrenia and suggests a novel criterion for discriminative cytogenetic diagnostics of schizophrenia and IA, as well as allows to assume that antioxidant therapy should be effective only for children with low number of active RG copies.

[Determination of genome dose of active ribosome genes and several quantitative parameters of extracellular dna in test-subjects of the experiment with 7-day immersion].

Genome dose of active ribosome genes (ARG), average of nucleolus argyrophil structures in lymphocyte nuclei, levels of extracellular DNA (DNA(e)) concentrations and ratio of antibodies to total DNA (AB(DNA)) and ribosomal DNA (AB(DNA-rib)), and nuclease activity were determined in peripheral blood of 8 volunteered subjects (21-26 y.o.) in the experiment with 7-d DI. Results of the investigation revealed a broad individual variability ensued from heterogeneity of the group of the test-subjects as to ARG values. There was an inverse negative relationship between ARG values and increment of the ribosome genes activity index. Part of the subjected exhibited increased DNA(e) levels on completion of the experiment, whereas the others decreased the parameter demonstrating individual character of body reaction. No correlation was established between DNA(e) content and nuclease activity in blood. Concentrations of AB(DNA) and DNA AB(DNA-rib) before and after immersion were essentially unchanged; however, they were higher as compared with the control group of blood-donors. Diversity of subjects' reactions was accounted to the broad range of ARG values. Therefore, selection of test-subjects for ground-based simulation experiments should be conducted with due consideration of the parameter.

[Elements of structural organization of the transcribed area of the ribosomal repeat (rDNA) in human peripheral blood lymphocytes]. / Elementy strukturnoi organizatsii transkribiruemoi oblasti ribosomnogo povtora (rDNK) v limfotsitakh perifericheskoi krovi cheloveka.

The rDNA transcribed region (TR) was tested for accessibility to RsaI recognizing 15 TR sites, DNase I, and photoinducible arylazide (N-(4-azido-2-hydroxybenzoyl)-N,N'-diaminoheptane acetate) in isolated nuclei and, with arylazide, in intact cells. Arylazide entered cells well and did not appreciably affect the chromatin structure. Its photolysis products efficiently modified DNA in accessible sites. Single-strand breaks made by DNase I were not transformed in double-stranded in rDNA TR, suggesting the necessity of denaturing electrophoresis for such an analysis. About 70% of all rDNA copies proved poorly inaccessible to endonucleases and arylazide, the accessibility being higher in their 18S and 5.8S rRNA gene regions than in the regions of the external transcribed spacers (ETSs) and the 28S rRNA gene. Proteinase K disrupted this structure, and the corresponding copies were extracted from nuclei. This explained why in situ hybridization occasionally fails to reveal rDNA in the nucleolar fibrillar center (FC) on electron microscopic preparations. In other rDNA copies, TR (excluding 5'-ETS) was accessible to nucleases and arylazide. These copies were not extracted from nuclei treated with proteinase K. Some of their RsaI sites were protected by tightly bound proteins. Seven such regions were identified in TR. Possible association of the molecular structure, nucleolar location, and functional state of rDNA is discussed.

[Quantitative analysis of repetitive sequences in human genomic DNA and detection of an elevated ribosomal repeat copy number in patients with schizophrenia (the results of molecular and cytogenetic analysis)]. / Kolichestvennoe opredelenie povtoriaiushchikhsia posledovatel'nostei v genomnoi DNK cheloveka. Obnaruzhenie uvelichennogo kolichestva ribosomnykh povtorov v genomakh bol'nykh shizofreniei (rezul'taty molekuliarnogo i tsitogeneticheskogo analizov).

A modified version of quantitating repetitive sequences in genomic DNA was developed to allow comparisons for numerous individual genomes and simultaneous analysis of several sequences in each DNA specimen. The relative genomic content of ribosomal repeats (rDNA) was estimated for 75 individuals, including 33 healthy donors (HD) and 42 schizophrenic patients (SP). The rDNA copy number in HD was 427 +/- 18 (mean SE) per diploid nucleus, ranging 250-600. In SP, the rDNA copy number was 494 +/- 15 and ranged 280-670, being significantly higher than in HD. The two samples did not differ in contents of sequences hybridizing with probes directed to a subfraction of human satellite III or to the histone genes. Cytogenetic analysis (silver staining of metaphase chromosomes) showed that the content of active rRNA genes in nucleolus organizer regions is higher in SP compared with HD. The possible causes of the elevated rRNA gene dosage in SP were considered. The method employed was proposed for studying the polymorphism for genomic content of various repeats in higher organisms, including humans.