V. M. Mikhailov

Dynamics of γH2AX formation and elimination in mammalian cells after X-irradiation

Phosphorylation of the replacement histone H2AX occurs in megabase chromatin domains around DNA double-strand breaks (DSBs), and this modification called γH2AX can be used as an effective marker for DSB repair and DNA damage response. In this study, we examined a bystander effect (BE) in locally irradiated embryonic human fibroblasts. Using fluorescence microscopy, we found that BE could be observed 1 h after X-ray irradiation (IR) and was completely eliminated 24 h after IR. Using immunohistochemistry and immunoblotting, we also studied kinetics of γH2AX formation and elimination in Syrian hamster and mouse tissues after whole body IR of animals. Analysis of hamster tissues at different times after IR at the dose 5 Gy showed that γH2AX-associated fluorescence in heart was decreased slowly with about a half level remaining 24 h after IR; at the same time, in brain, the level of γH2AX was about 3 times increased over the control level, and in liver, γH2AX level decreased to control values. We also report that in mouse heart the level of γH2AX measured by immunoblotting is lower than in brain, kidney and liver at different times after IR at the dose 3 Gy. Our observations indicate that there are significant variations in dynamics of γH2AX formation and elimination between non-proliferating mammalian tissues. These variations in γH2AX dynamics in indicated organs partially correlated with the expression level of the major kinase genes involved in H2AX phosphorylation (ATM and DNA-PK).

Mesenchymal stem cells with irreversibly arrested proliferation stimulate decidua development in rats

Stem cell transplantation, which is based on the application of mesenchymal stem/stromal cells (MSCs), is a rapidly developing approach to the regenerative therapy of various degenerative disorders characterized by brain and heart failure, as well as skin lesions. In comparison, the use of stem cell transplantations to treat infertility has received less attention. One of the causes of miscarriages and fetal growth delay is the loss of the decidual reaction of endometrial cells. The present study modeled decidualization processes in pseudopregnant rats. For cell transplantation experiments, the rats were transplanted with MSCs established from endometrial fragments in menstrual blood (eMSCs). These cells express common MSC markers, are multipotent and are able to differentiate into various tissue lineages. Cell therapy frequently requires substantial cell biomass, and cultivation of MSCs may be accompanied by significant changes to their properties, including malignant transformation. In order to minimize the potential for malignant transformation, the proliferation of eMSCs was irreversibly suppressed by irradiation and mitomycin C treatment. Transplantation of the rats with viable, non-proliferating eMSCs stimulated the development of all elements of decidual tissue. Conversely, transplantation of the rats with cells killed using 95% ethanol did not result in the development of decidual tissue. The present study demonstrated the potential for applying eMSCs to the cellular therapy of infertility associated with endometrial disorders characterized by decidualization insufficiency and implantation failure. In addition, the transplantation of viable but non-proliferating cells ensured that their oncogenic potential was limited.

Characterization of amyloid deposits found in internal organs of mdx mice

The mdx mouse strain is the most widely used experimental model of Duchenne muscular dystrophy (DMD). Although it was previously shown that muscle biopsy specimens obtained from patients with different types of muscular dystrophy contain amyloid, no available publications have analyzed the presence of amyloid aggregates in tissues of DMD patients or mdx mice. The objective of the present work was to verify whether the internal organs of mdx mice might accumulate amyloid. The study was performed in the myocardium, kidney, and liver specimens obtained from male and female mdx mice aged from 2 to 18 months. Using histochemical staining with Congo red, amyloid aggregates were detected in mouse organs studied, and their morphology and location were analyzed. Mass spectrometry data suggest that the most probable components of amyloid aggregates found in mdx mice are vitronectin and apolipoprotein A-II.

Exogenous NADP increases the level of histone H2AX phosphorylation in mouse heart cells after ionizing radiation

Phosphorylation of replacement histone H2AX occurs in megabase chromatin domains around DNA double-strand breaks (DSBs), and this modification called γ-H2AX can be used as an effective marker for DSBs repair and DNA damage response. Using Western blotting and immunohistochemistry techniques we have studied here the influence of exogenous nicotinamide adenine dinucleotide phosphate (NADP), which can potentially increase the level of intracellular NAD+, on the level of γ-H2AX formation in mouse heart cells after ionizing radiation (IR). We have found that injection of NADP in different doses immediately after IR causes an increased level of γ-H2AX in mouse heart cells 20 min after IR at the dose of 3 Gy compared to control mice after IR exposure. It indicates that there could be a relationship between intracellular NAD+ content and DNA damage response in vivo.

Fluorene Derivative Disodium Salt as a New Fluorescent Dye for Identification of Amyloid Deposits in Myocardium of mdx Mice

The aim of this study was to develop a new method for the detection of amyloid deposits in laboratory animals using an analogue of Congo red synthesized on the basis of diaminofluorene. The analogue is disodium salt of 2,7-(1-amino-4-sulfo-2-naphthylazo)fluorene (DSNAF). Myocardial samples from mdx mice of both sexes aged 1–1.5 years (n = 8) were used as the material for this study. The main result of this study was the development of an optimal protocol for amyloid staining with DSNAF. It has been shown that the sensitivity and specificity of amyloid detection by this method is comparable with Congo-red staining. The clear advantages of using DSNAF are stability of staining, high fluorescence intensity of amyloid deposits, and total lack of background fluorescence, which greatly simplifies the procedure of quantitative evaluation of obtained results. The method of amyloid staining with DSNAF is characterized by simplicity and good reproducibility. Further research will show the possibility to apply this method for diagnosis of amyloidosis in the practice of clinical research.

Methods for the Detection of DNA Damage

Abstract This chapter integrates methods of detection of different kinds of DNA damage in cells and tissues. These methods have been used in experimental research, clinical trials, and conventional clinical assays over the past few decades. The most commonly used techniques were developed on the basis of DNA damage-induced modification of histone H2AX and DNA repair proteins involved in different mechanisms of DNA lesion elimination. A special attention is paid to immunological methods of monitoring DNA damage and repair in single cells. These methods are considered to be most sensitive for the detection of low levels of DNA damage and could be used for the estimation of radiation health risk, for cancer diagnostics and the determination of the effectivity of cellular response to chemotherapy.

The weak combined magnetic field, tuned to ion parametric resonance for Ca2+, stimulates dystrophin synthesis in the skeletal muscles of mdx mice subjected to cell therapy

The possibility of using bone marrow stem cells for treatment of Duchenne muscular dystrophy is intensely studied. Mdx mice are the most widely used laboratory model of Duchenne muscular dystrophy. One approach of cell therapy of muscular dystrophy is substitution of bone marrow in mdx mice after their X-ray irradiation. However, this method does not allow one to increase significantly dystrophin synthesis in muscular fibers of mdx mice. To improve the effect of transplanted cells on muscle regeneration, we additionally treated mdx mice subjected to transplantation of bone marrow cells with a weak combined magnetic field tuned to ion parametric resonance for Ca2+ (Ca2+-CMF). We found that, in irradiated chimeric 3 and 5 Gy mdx mice, additional treatment with Ca2+-CMF for 1 month resulted in significant increases in the portions of dystrophin-positive muscle fibers, by 15.8 and 18.3%, respectively, as compared to the control groups. Furthermore, the share of muscle fibers without centrally located nuclei also increased. We suggest that the magnetic field with these parameters may stimulate functioning of nuclei of donor cells, which were incorporated into muscle fibers.

The effect of NADP+ on cardiomyocyte electrophysiological properties of C57BL/6 and mdx mice

We have studied the influence of NADP+ on routine electrocardiography (ECG) in 6-month-old C57BL/6 and mdx mice. The animals were anesthetized by ether before ECG recording. ECG registration was carried out at a speed of 100 mm/s. The first ECG recording was made before intraperitoneal NADP+ injection in a dose of 13 or 80 mg/kg. The second ECG recording was made 10 min after NADP+ injection. Anesthesia was then terminated. The mice were occasionally anesthetized 45–60 min later, and the third ECG was recorded 1 h after injection of NADP+. ECG recording was carried out at a speed of 100 mm/s in standard leads I, II, and III and unipolar leads AvR, AvL, and AvF. Values of standard ECG characteristics, such as the P wave and the intervals PQ, QT, RR, and the QRS complex, were measured in milliseconds in standard lead II. We did not observe any differences between ECG magnitudes of 2- to 3-month-old C57BL/6 and mdx mice during trial experiments. Mice of both strains had a sinus rhythm in their heart rate. The QRS complex in mdx mice had a tendency to be larger than in C57BL/6 mice. Heart rates fluctuated between 722 ± 22 and 681 ± 21 beats per minute. The effect of NADP+ was studied in 6-month-old male mice. The increase in the RR interval and the decline in heart rate from 697 ± 21 to 461 ± 23 and 491 ± 28 beats per min for C57BL/6 mice (p < 0.01) and from 722 ± 28 beats per minute to 454 ± 31 beats per min for mdx mice were registered 10 min after NADP+ injection at a dose of 80 mg/kg. The increase in the RR interval can be explained by an increase in the QT interval. A statistically significant reduction in the QT interval leading to a diminished RR interval was observed in mdx mice 1 h after NADP+ injection. NADP+ at a dose of 13 mg/kg did not significantly change the ECG properties in mdx mice. ECG of mdx mice was characterized by negative repolarization of the T wave in 37% of all leads. The amount of leads with negative T-wave repolarization decreased up to 3% 1 h after NADP+ injection in dose of 80 mg/kg. The results have shown that cytomembranes of ventricular cardiac myocytes and the degree of oxidative stress are the main targets of the action of NADP+ in C57BL/6 and mdx mouse hearts.

The effect of bone-marrow transplantation on decidua formation in pseudopregnant rats

A main cause of failed pregnancy is insolvency of the decidual reaction of endometrial cells. It is believed that bone-marrow cells (BMCs) are a partial source of decidual cells in endometrial tissue. In the present work, the effect is studied of transplantation of BMCs on the desidualization processes using the model of pseudopregnancy in rats. BMCs were flushed from rat femurs and tibias. On the fifth day of pseudopregnancy, a suspension of single BMCs was injected into one of the uterine horns. PBS injection into the contralateral horn without cells served as control. Rats were sacrificed on the 11th day of pseudopregnancy. The diameter in the meso-antimesometral direction in the experimental uterine horn increased by 1.5–2 times compared to the control horn. The weight of decidual tissue in the experimental horn was three times greater than the weight of the control horn. The presence of transplanted BMCs in decidual tissue was documented by preliminary double-staining of BMCs with membrane dye PKH26 Red and nuclear dye Hoechst 33342. Histological analysis of decidua sections after transplantation did not reveal any alterations in cell differentiation or tissue structure. We concluded that transplantation of BMCs stimulated decidualization in animals.