[The role of sphingolipids in pathogenesis of amyotrophic lateral sclerosis]. / Rol' sfingolipidov v patogeneze bokovogo amiotroficheskogo skleroza.

Amyotrophic lateral sclerosis (ALS) is an incurable neurodegenerative disease characterized by selective degeneration of motor neurons of the spinal cord and motor cortex and brain stem. The key features of the course of this disease are excitotoxicity, oxidative stress, mitochondrial dysfunction, neuro-inflammatory and immune reactions. Recently, the mechanisms of programmed cell death (apoptosis), which may be responsible for the degeneration of motor neurons in this disease, have been intensively studied. In this regard, sphingolipids, which are the most important sources of secondary messengers that transmit cell proliferation, differentiation and apoptosis signals, and are involved in the development of neuroinflammatory and immune responses, are of particular interest in the context of ALS pathogenesis. The review provides information from domestic and foreign authors on the involvement of various sphingolipids (sphingomyelins, ceramides, sphingosine, sphinganin, sphingosine-1-phosphate, galactosylceramides, glucosylceramides, gangliosides) in the development of pro-inflammatory reactions and apoptosis of motor neurons in ALS. The authors discuss the prospects of using new drugs that control the metabolism of sphingolipids for the treatment of ALS.

[Development of early diagnosis of Parkinson's disease and comprehensive economic analysis of the effect of its implementation]. / Razrabotka rannei diagnostiki bolezni Parkinsona i kompleksnyi ekonomicheskii analiz effekta ot ee vnedreniya.

The paper summarizes the literature and author's data on the development of early (preclinical) diagnosis of Parkinson's disease (PD). Implementation of this diagnosis will promote the use of preventive therapy and change investments in diagnosis and treatment of patients. The paper declares that at present the only approach to early diagnosis of PD is positron-emission tomography of the nigrostriatal dopaminergic system, but it cannot be used for preventive examination due to its high cost. The authors consider that a less specific, but more promising approach to the development of early diagnosis of PD is the search for markers in body fluids, mainly in the blood, in patients at the prodromal stage of PD. Indeed, a number of markers as changes in the level of metabolites of monoamines, sphingolipids, urates, and indicators of oxidative stress were found in patients selected for the risk group of the prodromal stage of PD, according to characteristic premotor symptoms. In addition, it is assumed that the search for blood markers at an earlier - pre-prodromal stage is possible only in animal models of PD at the early preclinical stage. This approach can also be used to verify blood markers identified in patients at the clinical stage of PD. It is also evident that the complex socio-economic factors influencing the incidence of PD is different in developed versus developing countries. The societal and medical costs of Parkinson's are huge and efforts to improve early preclinical diagnosis of PD will lead to considerable economical and societal benefits. For instance this will allow efficient selection of patients for preclinical diagnostic tests. To assess the effectiveness of this strategy considering the uncertainty of socio-economic issues, a modification of the «cost-utility¼ analysis is proposed. For the first time, a Markov model of PD including preclinical diagnostic tests and possible neuroprotective therapy was developed and studied. Analytical outcomes of this process suggest that the idea of developing a new multimodal strategy is promising from a socio-economic point of view.

[The role of lipids in the pathogenesis of lateral amyotrophic sclerosis]. / Rol' lipidov v patogeneze bokovogo amiotroficheskogo skleroza.

Amyotrophic lateral sclerosis (ALS) is an incurable neurodegenerative disease characterized by selective degeneration of motor neurons of the motor cortex, brain stem and brain stem. Mutations in genes coding for SOD1, C9ORF72, TDP-43, FUS and others are associated with ALS and result in abnormal processing and transport of RNA as well as changes in the dynamics of cytoskeleton. In addition, a sharp change in the metabolism of various lipid classes, including phospholipids, fatty acids, sphingolipids, etc., was detected. This review describes changes in lipid content and activity of enzymes involved in their metabolism in ALS animal models as well as in patients. Changes in the metabolism of fatty acids, phospholipids, cholesterol and its derivatives are reviewed in detail. The prospects of searching for new drugs among modulators of lipid metabolism enzymes are discussed.

[Development of early diagnosis of Parkinson's disease based on the search for biomarkers such as premotor symptoms and changes in blood]. / Razrabotka rannei diagnostiki bolezni Parkinsona na osnove biomarkerov v vide premotornykh simptomov i izmenenii v krovi.

OBJECTIVE: To determine changes in the chemical composition of blood plasma in subjects at risk of Parkinson's disease (PD) at the prodromal stage compared with age control. MATERIAL AND METHODS: Subjects at risk were selected for the presence of characteristic premotor symptoms, including impairments of sleep, olfaction and constipation.The risk group included 12 people, the control group - 8 people. RESULTS: Among seven catecholamines and their metabolites detected in the blood, only the concentration of L-dioxiphenylalanine (L-DOPA) changed (decreased) in subjects at risk compared with the control. A decrease in the concentration of L-DOPA is considered as a manifestation (marker) of selective degeneration of central and peripheral catecholaminergic neurons in PD. In contrast to L-DOPA, the concentration of seven of the twelve detected sphingomyelins in the blood of the subjects at risk increased. Given that a change in the metabolism of sphingomyelins is associated with processes such as apoptosis, autophagy, and synucleinopathy, an increase in their concentration in the blood of patients at risk is considered as a manifestation of systemic general degeneration of central and peripheral neurons. Finally, in the blood of subjects at risk, we found a trend towards a decrease in the concentration of urates, which are endogenous neuroprotectors. CONCLUSION: The changes in the level of L-DOPA, sphingmyelins and urates in the blood of subjects at risk may serve as diagnostic markers of PD at the prodromal stage.

Changes in the Metabolism of Sphingoid Bases in the Brain and Spinal Cord of Transgenic FUS(1-359) Mice, a Model of Amyotrophic Lateral Sclerosis.

The aim of this study was to evaluate changes in the content of sphingoid bases - sphingosine (SPH), sphinganine, and sphingosine-1-phosphate (SPH-1-P) - and in expression of genes encoding enzymes involved in their metabolism in the brain structures (hippocampus, cortex, and cerebellum) and spinal cord of transgenic FUS(1-359) mice. FUS(1-359) mice are characterized by motor impairments and can be used as a model of amyotrophic lateral sclerosis (ALS). Lipids from the mouse brain structures and spinal cord after 2, 3, and 4 months of disease development were analyzed by chromatography/mass spectrometry, while changes in the expression of the SPHK1, SPHK2, SGPP2, SGPL1, ASAH1, and ASAH2 genes were assayed using RNA sequencing. The levels of SPH and sphinganine (i.e., sphingoid bases with pronounced pro-apoptotic properties) were dramatically increased in the spinal cord at the terminal stage of the disease. The ratio of the anti-apoptotic SPH-1-P to SPH and sphinganine sharply reduced, indicating massive apoptosis of spinal cord cells. Significant changes in the content of SPH and SPH-1-P and in the expression of genes related to their metabolism were found at the terminal ALS stage in the spinal cord. Expression of the SGPL gene (SPH-1-P lyase) was strongly activated, while expression of the SGPP2 (SPH-1-P phosphatase) gene was reduced. Elucidation of mechanisms for the regulation of sphingolipid metabolism in ALS will help to identify molecular targets for the new-generation drugs.

[Detection of effective treatment of amnestic mild cognitive impairement with cereton by testing of lipids markers]. / Issledovanie éffektivnosti tseretona pri miagkom kognitivnom snizhenii amnesticheskogo tipa na osnove testirovaniia markerov lipidnoi prirody.

AIM: Determination of effectivity and safety of Cereton (Choline alfoscerate, production by Sotex) 1200 mg/day in the treatment of cognitive functioning disorders in patients with amnestic mild cognitive impairment (aMCI) and determining its influence in the process (after a 3 month course of taking the drug) and 3 months after the end of treatment of aMCI on the change in the content of phosphatidylcholine, sphingomyelin, ceramide-metabolite sphingolipids and the activity of genes controlling the synthesis of enzymes, which control ithe metabolism of sphingomyelin and ceramide (sphingomyelinase and ceramidase). MATERIAL AND METHODS: The study involved a group of elderly patients (20 people), consisting of 14 women and 6 men, aged 51 to 82 years (mean age 70.3±9.1 years). The patients' condition met the criteria for diagnosing aMCI syndrome. Analysis of phosphatidylcholine, sphingomyelin and ceramide in the blood plasma of patients was carried out by thin layer chromatography, expression of sphingomyelinase and ceramidase genes by RtPCR. RESULTS AND CONCLUSION: A sharp increase in the content of phosphatidylcholine and ceramide, the product of sphingomyelin hydrolysis, was detected. Expression of genes (acidic sphingomyelinase and ceramidase), controlling the metabolism of ceramide, is significantly reduced in the majority of patients in the treatment with ceretone. An increase in the level of phosphatidylcholine and a decrease in the expression level of the ceramide metabolism genes during treatment with ceretone and other drugs that affect the metabolism of phosphatidylchodine and sphingolipids can be used as markers of the effectiveness of therapy.

Interaction of the nitric oxide signaling system with the sphingomyelin cycle and peroxidation on transmission of toxic signal of tumor necrosis factor-α in ischemia-reperfusion.

This review discusses the functional role of nitric oxide in ischemia-reperfusion injury and mechanisms of signal transduction of apoptosis, which accompanies ischemic damage to organs and tissues. On induction of apoptosis an interaction is observed of the nitric oxide signaling system with the sphingomyelin cycle, which is a source of a proapoptotic agent ceramide. Evidence is presented of an interaction of the sphingomyelin cycle enzymes and ceramide with nitric oxide and enzymes synthesizing nitric oxide. The role of a proinflammatory cytokine TNF-α in apoptosis and ischemia-reperfusion and mechanisms of its cytotoxic action, which involve nitric oxide, the sphingomyelin cycle, and lipid peroxidation are discussed. A comprehensive study of these signaling systems provides insight into the molecular mechanism of apoptosis during ischemia and allows us to consider new approaches for treatment of diseases associated with the activation of apoptosis.

Relationship between parameters of lipid peroxidation during obstructive jaundice and after bile flow restoration.

Restoration of bile flow after 9-day cholestasis in rat liver normalized the content of lipid peroxidation products. The removal of the cholestatic factor after 12-day cholestasis was not followed by recovery of these parameters. We showed that measurement of serum concentration of lipid peroxidation products in patients with cholelithiasis during the preoperative period holds promise for selection of the optimum time for surgical treatment and prediction of the risk of postoperative complications.

[Relationship of tumor necrosis factor alpha expression with activation of sphingomyelinase and lipid peroxidation after removal of cholestatic factor].

The goal of this work was to study the expression of tumor necrosis factor alpha (TNFalpha), sphingomyelin cycle activation, and lipid peroxidation (LPO) processes after the removal of a cholestatic factor in the liver subjected to different durations of cholestasis. Restored bile flow after a 9-day hepatic cholestasis normalized sphingomyelinase (SMase) activity and levels of TNFalpha and LPO products. The removal of a cholestatic factor after a 12-day cholestasis did not normalize the studied parameters: SMase activity and the levels of TNFalpha and LPO products remained much higher compared to control. A significant positive correlation between TNFalpha expression, SMase activity, and LPO rate has been revealed. The obtained data indicate that hepatocyte apoptosis after bile outflow restoration in late cholestasis can be due to the activation of the sphingomyelin cycle, LPO, and TNFalpha expression. The synergistic interaction can sharply increase the proapoptotic capacity of each of these factors since TNFalpha activates SMase and LPO, SMase activity depends on the LPO rate, while ceramide, an SMase-produced secondary messenger of apoptosis, can induce oxidative stress.

The relation between sphingomyelinase activity, lipid peroxide oxidation and NO-releasing in mice liver and brain.

We used animal models to study connection between oxidating system and sphingomyelin signaling cascade, because this models are more close related to people disease. Activation of n-sphingomyelinase (n-SMase) in mice liver and brain is coincided in time with increased level of peroxide products (conjugated dienes) after injection of tumor necrosis factor alpha (TNF-alpha). We found that ceramide can induce peroxide oxidation and lead to accumulation of TNF-alpha in animal organs. Nitric oxide (NO) donors (S-nitrosoglutathione and dinitrosyl iron complex) reversibly inhibited activity of n-SMase and decreased level of lipid peroxidation products. This data proposed that both SMase and messengers of oxidative systems could be targets for NO-derived oxidants.

[Changes in sphingomyelinase activity, tumor necrosis factor alpha level, and lipid peroxidation rate in the course of development of cholestatic liver injury].

Changes in sphingomyelinase activity, tumor necrosis factor alpha expression, and lipid peroxidation rate in the course of development of cholestatic liver injury have been studied. The same type phase shifts in the parameters analyzed were observed, which included a marked decrease at the early stages of cholestasis (days 3-6) and a pronounced increase at the later stages (days 12-16), i.e., under the conditions of developed pathology. There is a significant positive linear correlation between tumor necrosis factor alpha expression, sphingomyelinase activity, and lipid peroxidation rate during cholestatic injury. The changes detected may reflect balance between the effects of the two major bile components--bilirubin, which is accumulated in the liver at the early stages of cholestasis, and bile acids, whose influence dominates at the later stages of pathologic process. Our results indicate that tumor necrosis factor alpha overexpression, the sphingomyelin cycle activation, and lipid peroxidation intensification may cause apoptosis of hepatocytes at the late stages of cholestasis.

[Formation of chromoneme-like fibrils induced in infusorian somatic nuclei by magnesium ions]. / Formirovanie khromonemopodobnykh fibrill v somaticheskikh iadrakh infuzorii pod deistviem ionov magniia.

A study was made of the effect of Mg2+ on higher-order chromatin structure in marconuclei (Ma) of infusoria Paramecium aurelia and Bursaria truncatella. In infusorian Ma, inactive chromatin is commonly packed in chromatin bodies sized 60-200 nm. When isolated chromatin or Ma were treated with Mg2+ (about 3 mM), chromatin bodies arranged into fibrils 100-300 nm in diameter, which resembled higher eukaryotic chromonemes. The formation dynamics of chromoneme-like fibrils was described. The results testified to the similarity of chromatin bodies to chromomeres of higher eukaryotes. Structurally intact central chromomere cores proved to be essential for the formation of chromoneme-like fibrils. Chromatin organization in infusoria was shown to follow the discrete-level model (nucleosomes-nucleomeres-chromomeres-chromonemes) assumed for higher eukaryotes.

Role of tumor necrosis factor alpha and sphingomyelin cycle activation in the induction of apoptosis by ischemia/reperfusion of the liver.

The signal transduction pathways triggering apoptotic mechanisms after ischemia/reperfusion may involve TNF-alpha secretion, ceramide generation, and initiation of lipid peroxidation. In the present study involvement of the TNF-alpha, sphingomyelin cycle, and lipid peroxidation in the initiation of apoptosis induced in liver cells by ischemia and reperfusion was investigated. Wistar rats were subjected to total liver ischemia (for 15, 30 min, and 1 h) followed by subsequent reperfusion. Ischemia caused sharp decrease of neutral sphingomyelinase activity. Activity of acidic sphingomyelinase initially decreased (during 15-30 min ischemia) but then increased (after 1 h of ischemic injury). Reperfusion of the ischemic lobe of the liver caused increase in neutral sphingomyelinase activity and decrease in acidic sphingomyelinase activity. A small amount of TNF-alpha detected by immunoblotting analysis was accumulated in the ischemic area of liver rapidly and the content of this cytokine dramatically increased after the reperfusion. TNF-alpha is known to induce free radical production. We found that the accumulation of TNF and increase of sphingomyelinase activity during the development of ischemic/reperfusion injury coincided with increase in content of lipid peroxidation products (conjugated dienes) and DNA degradation detected by gel electrophoresis. Recently it was shown that superoxide radicals are used as signaling molecules within the sphingomyelin pathway. This suggests the existence of cross-talk between the oxidation system and the sphingomyelin cycle in cells, which may have important implications for the initial phase and subsequent development of post-ischemic injury.