The biographical article is dedicated to the memory of Boris Petrovich Ugryumov, a graduate of the Imperial Military Medical Academy (1914), a prominent military pathologist, the First Head of the Department of Pathological Anatomy, Ryazan Medical Institute. The paper presents the major milestones in the life of B.P. Ugryumov; his service on the fronts of the First and Second World Wars and his teaching activity at the Military Medical Academy and the Naval Medical Academy occupy an important place. For about 10 years, he was in charge of the Pathology Department, S.P. Botkin Clinical Infectious Diseases Hospital in Leningrad, which largely determined the area of his professional interests, such as the pathomorphology of infectious diseases, tuberculosis in particular. The archiving and personal photographic documents that have been previously unknown to the public are published for the first time.

The paper describes some biological features of the radioprotective effect of double-stranded RNA preparation. It was found that yeast RNA preparation has a prolonged radioprotective effect after irradiation by a lethal dose of 9.4 Gy. 100 % of animals survive on the 70th day of observation when irradiated 1 hour or 4 days after 7 mg RNA preparation injection, 60 % animals survive when irradiated on day 8 or 12. Time parameters of repair of double-stranded breaks induced by gamma rays were estimated. It was found that the injection of the RNA preparation at the time of maximum number of double-stranded breaks, 1 hour after irradiation, reduces the efficacy of radioprotective action compared with the injection 1 hour before irradiation and 4 hours after irradiation. A comparison of the radioprotective effect of the standard radioprotector B-190 and the RNA preparation was made in one experiment. It has been established that the total RNA preparation is more efficacious than B-190. Survival on the 40th day after irradiation was 78 % for the group of mice treated with the RNA preparation and 67 % for those treated with B-190. In the course of analytical studies of the total yeast RNA preparation, it was found that the preparation is a mixture of single-stranded and double-stranded RNA. It was shown that only double-stranded RNA has radioprotective properties. Injection of 160 μg double-stranded RNA protects 100 % of the experimental animals from an absolutely lethal dose of gamma radiation, 9.4 Gy. It was established that the radioprotective effect of double-stranded RNA does not depend on sequence, but depends on its double-stranded form and the presence of "open" ends of the molecule. It is supposed that the radioprotective effect of double-stranded RNA is associated with the participation of RNA molecules in the correct repair of radiation-damaged chromatin in blood stem cells. The hematopoietic pluripotent cells that have survived migrate to the periphery, reach the spleen and actively proliferate. The newly formed cell population restores the hematopoietic and immune systems, which determines the survival of lethally irradiated animals.

In the central nervous system of mammals, there are specialized areas in which neurogenesis - neurogenic niches - is observed in the postnatal period. It is believed that astrocytes in the composition of neurogenic niches play a significant role in the regulation of neurogenesis, and therefore they are considered as a promising "target" for the possible control of neurogenesis, including the use of optogenetics. In the framework of this work, we formed an in vitro model of a neurogenic niche, consisting of cerebral endothelial cells, astrocytes and neurospheres. Astrocytes in the neurogenic niche model expressed canalorodopsin ChR2 and underwent photoactivation. The effect of photoactivated astrocytes on the expression profile of neurogenic niche cells was evaluated using immunocytochemical analysis methods. It was found that intact astrocytes in the composition of the neurogenic niche contribute to neuronal differentiation of stem cells, as well as the activation of astroglia expressing photosensitive proteins, changes the expression of molecules characterized by intercellular interactions of pools of resting and proliferating cells in the composition of the neurogenic niche with the participation of NAD+ (Cx43, CD38, CD157), lactate (MCT1). In particular, the registered changes reflect a violation of the paracrine intercellular interactions of two subpopulations of cells, one of which acts as a source of NAD+, and the second as a consumer of NAD+ to ensure the processes of intracellular signal transduction; a change in the mechanisms of lactate transport due to aberrant expression of the lactate transporter MCT1 in cells forming a pool of cells developing along the neuronal path of differentiation. In general, with photostimulation of niche astrocytes, the total proliferative activity increases mainly due to neural progenitor cells, but not neural stem cells. Thus, optogenetic activation of astrocytes can become a promising tool for controlling the activity of neurogenesis processes and the formation of a local proneurogenic microenvironment in an in vitro model of a neurogenic niche.

To simulate the damaging effect on retinal pigment epithelium (RPE) in an experiment studying the effect of human neuronal precursors (NPs).

Liver is an exceptional organ due to unique anatomical and physiological features, as well as advanced regenerative ability. Discovery of molecular mechanisms governing liver regeneration allowed researchers to use them to enhance liver regeneration. However, significant progress in this area was achieved through the introduction of gene therapy. In this manuscript, the authors consider stem cells for cell therapy and tissue engineering, as well as an alternative to liver transplantation.

A study was made of the effect that mitomycin C (MitC) treatment of stromal layers of NIH 3T3 cells expressing Jagged1, a ligand of the Notch receptor, exerts on the growth of hematopoietic Lin(-) mouse bone marrow cells in a co-culture system. MitC treatment of stromal cells significantly increased the number of hematopoietic cells and the frequency of colony-forming cells in stromal co-cultures. Transcriptome analysis of control and MitC-treated stromal cell samples was performed by differential RNA sequencing, and genes downregulated by MitC treatment were predominantly associated with the control of cell proliferation, the cell cycle, chromosome segregation, and DNA metabolism. Induction of key hematopoietic cytokines by MitC was not detected by the transcriptome analysis and was therefore not a main factor in the activation of hematopoiesis on the treated stroma. At the same time, the set of the genes most strongly upregulated by MitC treatment is enriched in the genes for cytokines, growth factors, and cell surface proteins, which presumably contribute to enhanced hematopoiesis support on the MitC-treated stroma. Products of some of these genes have been implicated in expansion of hematopoietic stem/progenitor cells in vitro or in vivo.

The review discusses the complex, ambiguous and individual effects of heparin and its derivatives on the bone and circulatory systems, in dependence of the dosage, the state of the cells and tissues of recipients. General data on the anticoagulant activity of heparin and its derivatives are presented; aspects of the effect of heparin on mesenchymal cells and tissues and its role in angiogenesis are considered in details. Particular attention is paid to the ability of heparin to bind osteogenic and angiogenic biomolecules: thus us especially important for the development of systems for their delivery and sustained controlled release. A schematic representation of the positive and side effects of heparin as a delivery system for biomolecules in tissue engineering is proposed.

Primary myelofibrosis is a myeloproliferative neoplasm that occurs de novo, characterized by clonal proliferation of stem cells, abnormal expression of cytokines, bone marrow fibrosis, hepatosplenomegaly as a result of extramedullary hematopoiesis, symptoms of tumor intoxication, cachexemia, peripheral blood leukoerythroblastosis, leukemic progression and low survival. Primary myelofibrosis is a chronic incurable disease. The aims of therapy: preventing progression, increasing overall survival, improving quality of life. The choice of therapeutic tactics is limited. Allogenic hematopoietic stem cell transplantation is the only method that gives a chance for a cure. The role of mutations in a number of genes in the early identification of candidates for allogeneic hematopoietic stem cell transplantation is being actively studied. The article describes the clinical case of the detection ofASXL1gene mutations in a patient with prefibrous primary myelofibrosis. The diagnosis was established on the basis of WHO criteria 2016. The examination revealed a mutation ofASXL1. Interferon alfa therapy is carried out, against the background of which clinico-hematological remission has been achieved. Despite the identified mutation, the patient is not a candidate for allogeneic hematopoietic stem cell transplantation. Given the unfavorable prognostic value of theASXL1mutation, the patient is subject to active dynamic observation and aggressive therapeutic tactics when signs of disease progression appear.

Analysis of the effectiveness of the MSCs aministration as the second- or third-line therapy of acute GVHD (aGVHD) resistant to glucocorticosteroid treatment.

Parkinson's disease is a widespread neurodegenerative disease, which is characterized by the death of dopaminergic neurons in the substantia nigra of the midbrain. Clinically, the disease is manifested by tremor, bradykinesia, muscle rigidity, and other motor and non-motor symptoms that ultimately lead to disability. To date, there are only symptomatic treatment options for Parkinson's disease; therefore, the search for new approaches is one of the most important directions of therapy for this disease. In the 1970's the idea of using cell replacement therapy based on the local nature and specificity of damage to a particular type of neuron in Parkinson's disease originated. The selection of the source of cells, the method and place of introduction, indications for this operation, and peculiarities of patient management have been in development for a long time. The efficiency of cell replacement therapy has been confirmed by a number of studies on animal models. Clinical trials have already begun and several more are planned soon. This review describes the main prerequisites for the use of cell replacement therapy in Parkinson's disease, the stages of development of this method, and clinical trials that have started in the last few years.

It is known that liver is able to restore own dimensions and functional properties in response to various injuries. Despite extensive injuries, liver can preserve functional activity. Analysis of liver regeneration mechanisms allowed us to obtain significant results in the treatment of hepatitis, cirrhosis and liver failure. Liver regeneration processes substantiate the development of hepatocellular cancer following cirrhosis. Modern experimental and clinical data on liver regeneration, as well as current methods of stimulating this process are summarized in the manuscript. Despite significant advances in this issue, there are still many questions in scientific understanding of liver regeneration.

The article reviews modern methods of treatment of persistent corneal epithelial defects and considers the factors involved in the development of this pathology, including the limbal stem cell deficiency, which is likely to play the main role. The most promising treatment methods are described, particularly the use of blood derivatives and cell therapy.

To clinically evaluate the results of one-piece mushroom-shaped keratoplasty.

Critical ischaemia of lower limbs is a cause of death and invalidity in the whole world. Stem cells and products of their secretion find wide application in treatment of vascular diseases, including critical ischaemia of the lower limbs. Erythropoietin promotes an increase in the angiogenic potential of stem cells. The authors examined the therapeutic potential of a biomedical cellular product (mesenchymal stem cells and products of their secretion) and mesenchymal stem cells with erythropoietin on the processes of restoration of vessels in the hind legs of Wistar male rats following induction of lower limb critical ischaemia. Mesenchymal stem cells were derived from the bone marrow of male Wistar rats. Critical ischaemia of hind legs was modulated by transaction of the femoral artery. The parameters of microcirculation in the foot were assessed with the help of laser Doppler flowmetry. In the blood serum and crural muscles by means of solid-phase enzyme immunoassay we examined the levels of cytokines, growth factors, and persistent metabolites of nitrogen oxide - nitrites. Muscles morphology and the number of blood vessels were assessed by the findings of histological examination. It was shown that the biomedical cellular product alone and in combination with erythropoietin stimulated angiogenesis. The results of Doppler flowmetry revealed restoration of the parameters of microcirculation in the lower limb by 35-75% of the baseline values. Besides, we observed a decrease of muscle necrosis, connective tissue proliferation, and an increase in the number of the vessels supplying the muscles in the experimental groups. It was also determined that the biomedical cellular product influenced the levels of cytokines in blood serum and crural muscles. Hence, the obtained findings proved the therapeutic potential of the biomedical cellular product in critical ischaemia of lower limbs.

Approximately 15% of couples of reproductive age are infertile. Among patients with infertility, nearly 10-15% have azoospermia. The current treatment methods of non-obstructive azoospermia, in particular the use of mesenchymal stem cells, and the comparative analysis of the cost-effectiveness of different methods are discussed in the article.

Stargardt disease is a hereditary retinal dystrophy associated with mutations in the ABCA4 gene. Currently, no etiopathogenetic drugs nor treatment methods for Stargardt disease have completely passed clinical trials. The review summarizes experimental and clinical studies of drugs aimed at reducing the accumulation of vitamin A dimers, lipofuscin, complement inhibition and RPE regeneration by stem cell transplantation, as well as gene therapy studies with intravitreal vector injection of the ABCA4 functional gene.

Chronic myeloid leukemia is a clonal hematopoietic stem cell disease characterized by myeloid expansion. The hallmark of the disease is the Philadelphia chromosome, which results in the formation of the BCR-ABL oncogene, a tyrosine kinase that is involved in many signaling pathways including Wnt signaling. The latter has a unique role in chronic myeloid leukemia progression; activated signaling leads to the establishment of an additional leukemic stem cell population derived from granulocyte-macrophage progenitors. sFRP1 is an inhibitor of Wnt signaling and its expression is important for differentiation and maintenance of hematopoietic stem cells. In this study, we aimed to investigate miRNAs that target Wnt signaling by being co-induced along with the expression of sFRP1 in K562 cells. We present a detailed analysis of hsa-mir-221 -3p, hsa-mir-222-3p, hsa-mir-106b-5p, hsa-let-7f-5p, hsa-mir-182-5p, hsa-mir-191-5p, and hsa-mir-183-5p and their target genes and their involvement in Wnt signaling.

To study the risk factors, symptoms and outcomes of candidemia caused by C. albicans and C. non - albicans in patients with hematological malignancies.

Follicular lymphoma (FL) is a tumor that develops from the B cells of the germinal center; characterized by recurrent and remitting course of the disease, the transformation of a tumor into diffuse large B-cell lymphoma (DLBCL) is possible. In generalized lesions and progression of FL, the most commonly used courses are R-CHOP and R-B. The choice of therapy for different cytological types, clinical and laboratory parameters remains disputable.

Cardiovascular diseases are the leading cause of morbidity and mortality worldwide. In recent years, researchers are attracted to the use of cell therapy based on stem cell and progenitor cells, which has been a promising strategy for cardiac repair after injury. However, conducted research using intracoronary or intramyocardial transplantation of various types of stem/progenitor cells as a cell suspension showed modest efficiency. This is due to the low degree of integration and cell survival after transplantation. To overcome these limitations, the concept of the use of multicellular spheroids modeling the natural microenvironment of cells has been proposed, which allows maintaining their viability and therapeutic properties. It is of great interest to use so-called cardial spheroids (cardiospheres) spontaneously forming three-dimensional structures under low-adhesive conditions, consisting of a heterogeneous population of myocardial progenitor cells and extracellular matrix proteins. This review presents data on methods for creating cardiospheres, directed regulation of their properties and reparative potential, as well as the results of preclinical and clinical studies on their use for the treatment of heart diseases.