Literature data support that green tea and its major component epigallocatechin gallate (EGCG) have powerful antioxidant effects. Contrary, hepatotoxicity can be induced by high-dose EGCG. The timing of exposure to green tea in relation to administration of hepatotoxic agent plays an import role too. The aim of our work was a verification of antioxidative effect of EGCG on D-galactosamine-induced injury in primary culture of rat hepatocytes. Hepatocytes were incubated with EGCG at concentrations of 1.25-10 μM and toxic D-galactosamine (GalN) for 24 hrs. Alternatively, hepatocytes were pretreated with EGCG for 24 hrs, and then incubated with EGCG and GalN for further 24 hrs. Cytotoxicity was analysed by lactate dehydrogenase activity, functional capacity by albumin production. Oxidative stress was evaluated from a production of malondialdehyde and glutathione content in the cells. EGCG protected hepatocytes against GalN-induced cytotoxicity but preventive treatment of intact hepatocytes with EGCG was required to diminish the development of hepatocyte injury. Oxidative stress induced in our study seems to overcome the ability of hepatocytes to improve GSH depletion and albumin production. Prolongation of the pretreatment with EGCG could be a promising strategy leading to amelioration of its hepatoprotective effect. and Alena Moravcová, Zuzana Červinková, Otto Kučera, Vojtěch Mezera, Halka Lotková
Úvod: Radioimunoterapie patří mezi rychle se rozvíjející klinické metody. Často je nejvhodnější možností terapie u pacientů s relabujícím lymfomem, případně u starších pacientů. Vývoj nových typů imunokonjugátů patří proto v posledních letech mezi klíčová témata ve vývoji radiofarmak. Metody: Imunoglobulin G M75 byl značen metodou elektrofilní jodace radionuklidem 125I, který je optimální pro vývoj metody značení a také pro stanovení vlastností značeného preparátu (vazebná aktivita, imunospecifita). Výhody 125I jsou zejména jeho dlouhý poločas (59,408 dne) a nízká radiační zátěž. Zachování vazby aktivního místa na antigen bylo testováno metodou ELISA, koncentrace byla stanovena modifikovanou metodou podle Bradfordové. Fyziologická distribuce byla testována na myších CD1-Foxn1nu. Výsledky: Stanovená kumulace značené protilátky v nádorové tkáni byla > 7 % podané radioaktivity, vazebná aktivita protilátky byla první den po značení vyšší než 90 % ve srovnání s vazebnou aktivitou neznačené protilátky. Závěr: Připravený radioimunokonjugát IgG M75 s 125I si zachovává dostatečnou schopnost vazby antigenu, a má proto potenciál v terapii tumorů exprimujících karbonátdehydratasu. Pro použití v radioterapii je třeba otestovat analogický radioimunokonjugát značený radionuklidem 131I., x, Lenka Marešová, Ondřej Lebeda, Daniel Seifert, Irena Sieglová, Vlastimil Král, and Literatura
CD200 and its receptor were recognized as having the multiple immunoregulatory functions. Their immunoregulatory, suppressive, and tolerogenic potentials could be very effectively exploited in the treatment of many diseases, e.g. Alzheimer disease, rheumatoid arthritis, and allergy to name only some. Many research projects are aimed to develop clinically valuable methods being based on the structure and function of these paired molecules. In this review, we would like to introduce CD200/CD200R functions in a clinical context., Drahomíra Holmannová, Martina Koláčková, Kateřina Kondělková, Pavel Kuneš, Jan Krejsek, Ctirad Andrýs, and Literatura 51
CD200/CD200R are highly conserved type I paired membrane glycoproteins that belong to the Ig superfamily containing a two immunoglobulin‑like domain (V, C). CD200 is broadly distributed in a variety of cell types, whereas CD200R is primarily expressed in myeloid and lymphoid cells. They fulfill multiple functions in regulating inflammation. The interaction between CD200/CD200R results in activation of the intracellular inhibitory pathway with RasGAP recruitment and thus contributes to effector cell inhibition. It was confirmed that the CD200R activation stimulates the differentiation of T cells to the Treg subset, upregulates indoleamine 2,3‑dioxygenase activity, modulates cytokine environment from a Th1 to a Th2 pattern, and facilitates an antiinflammatory IL‑10 and TGF‑β synthesis. CD200/CD200R are required for maintaining self‑tolerance. Many studies have demonstrated the importance of CD200 in controlling autoimmunity, inflammation, the development and spread of cancer, hypersensitivity, and spontaneous fetal loss., Drahomíra Holmannová, Martina Koláčková, Kateřina Kondělková, Pavel Kuneš, Jan Krejsek, Ctirad Andrýs, and Literatura 46
The cell culture became an invaluable tool for studying cell behaviour, development, function, gene expression, toxicity of compounds and efficacy of novel drugs. Although most results were obtained from cell cultivation in two-dimensional (2D) systems, in which cells are grown in a monolayer, three-dimensional (3D) cultures are more promising as they correspond closely to the native arrangement of cells in living tissues. In our study, we focused on three types of 3D in vitro systems used for cultivation of one cell type. Cell morphology, their spatial distribution inside of resulting multicellular structures and changes in time were analysed with histological examination of samples harvested at different time periods. In multilayered cultures of WRL 68 hepatocytes grown on semipermeable membranes and non-passaged neurospheres generated by proliferation of neural progenitor cells, the cells were tightly apposed, showed features of cell differentiation but also cell death that was observable in short-term cultures. Biogenic scaffolds composed of extracellular matrix of the murine tibial anterior muscle were colonized with C2C12 myoblasts in vitro. The recellularized scaffolds did not reach high cell densities comparable with the former systems but supported well cell anchorage and migration without any signs of cell regression. and H. Hrebíková, D. Čížková, J. Chvátalová, R. Pisal, R. Adamčik, P. Beznoska, D. Díaz-Garcia, J. Mokrý
Karcinom prostaty je nejčastějším solidním zhoubným nádorem u mužů v řadě vyspělých zemí světa. V naší studii jsme hodnotili schopnost detekovat pravděpodobnost přítomnosti karcinomu prostaty (KP) ve vzorcích lidské moči čichem speciálně trénovaného psa. Definitivní potvrzení KP je vždy nutné ověřit histologicky. Jedním z alternativních biomarkerů, které pes v moči cítí, jsou pak VOC (volatile organic compounds). Předmětem našeho dalšího výzkumu bude zjišťování, na jakou látku v moči pes vlastně reaguje a díky tomu je schopen označit pozitivní vzorek., Prostate cancer is the most common solid malign tumour in men in many developed countries of the world. Our study evaluates the ability to detect the presence of prostate cancer in human urine samples using olfactory cells of specifically trained dog. The definitive confirmation of prostate cancer should be verified histologically. One of the alternative biomarkers that can be detected by the dog are so called volatile organic compounds. In our research we are trying to identify the specific agent in urine, which is detected by the dog and thereby a positive sample is marked, and Vyhnánková V., Pacík D., Urbanová L., Nečas A., Tučková M.
Seminal vesicle secretion is important for increasing the stability of sperm chromatin, inhibition of the immune activity in the female reproductive tract and so on. Metronidazole (MTZ), a drug used for treatment of infections caused by anaerobic bacteria and protozoa, may have negative effects on the genital gland including the seminal vesicles. Curcumin exhibits antioxidant as well as anti-inflammatory properties. The present study aims to evaluate the negative effects of MTZ on the seminal vesicle structure and ameliorative effects of curcumin using stereological methods. Thirty balb/c mice were divided into six groups. The control group was received distilled water. The second and the third received higher doses of MTZ (500 mg/kg body weight/day) and MTZ (500 mg/kg/day) + 100 mg/kg/day curcumin, respectively. The fourth and the fifth were treated with lower doses of MTZ (165 mg/kg body weight/day) and MTZ (165 mg/kg body weight/day) + curcumin (100 mg/kg body weight/day), respectively. The sixth group received 100 mg/kg body weight/day curcumin. All the administrations were done by oral gavages for 14 days. After 30 days, seminal vesicles were removed. Stereological study of the seminal vesicle structure revealed a significant reduction in gland and vesicular fluid volume in MTZ-treated (higher or lower doses) animals. Curcumin protected the reduction of both parameters in therapeutic-dose treated animals. Metronidazole treatment does not induce structural changes in the seminal gland; however, it can have a significant impact on its secretion ability. Importantly, these deteriorations might be preventable by curcumin co-treatment., Ali Noorafshan, Saied Karbalay‑Doust, and Literatura 30
Huntingtonova nemoc (HD) je neurodegenerativní porucha způsobená elongací CAG repetic v genu kódující protein huntingtin (Htt). U pacientů jsou v postižených tkáních přítomny vedle monomerní formy hlavně N‑koncové fragmenty, oligomery a polymery mutovaného huntingtinu (mtHtt), oproti tomu samotná monomerní forma mtHtt je exprimována v podstatě ve všech buňkách. Nejvíce postižené tkáně jsou bazální ganglia a mozková kůra. V této studii jsme analyzovali přítomnost N‑koncových fragmentů a oligomerů Htt v různých tkáních 24- a 36měsíčních transgenních (TgHD) miniprasat exprimujících N‑koncovou část lidského mutovaného huntingtinu a jejich zdravých sourozenců. Zjistili jsme, že mozková kůra a varlata na rozdíl od svalu a srdce TgHD miniprasat obsahují kromě monomerní formy i N‑koncové fragmenty a oligomerní smíry. Ve svalech z 36 měsíčních TgHD miniprasat však již začíná mírná fragmentace. Tato zjištění napodobují časnou progresi onemocnění u lidí, a proto miniprase poskytuje slibný model pro terapeutické testování HD. Klíčová slova: Huntingtonova nemoc – transgenní miniprasečí model – mutovaný huntingtin –proteinové fragmenty – oligomerní struktury Autoři deklarují, že v souvislosti s předmětem studie nemají žádné komerční zájmy. Redakční rada potvrzuje, že rukopis práce splnil ICMJE kritéria pro publikace zasílané do biomedicínských časopisů., Huntington’s disease (HD) is a neurodegenerative disorder caused by the the elongation of CAG triplet repeat in the gene encoding the huntingtin protein (Htt). In patients, in addition to the monomeric form of huntingtin, N‑terminal fragments, oligomers, and polymers are present mostly in the affected tissues, even though the mutated huntingtin (mtHtt) is expressed basically in all cells. The most affected tissues are basal ganglia and cerebral cortex. In this study we analyzed the presence of N‑terminal fragments and oligomers of Htt in different tissues of 24 and 36 months old experimental animals. This was done in our large animal model of HD, which uses transgenic (TgHD) minipigs expressing N‑terminal part of human mtHtt. Among all the tissues tested, we found cortex and testes to contain N‑terminal fragments as well as oligomeric smears in TgHD minipigs compared to wild type siblings. On the other hand, we did not detect any fragments or oligomers in muscle and heart of TgHD minipigs, only starting fragmentation in muscles of 36 months old animals. These findings mimic the early progression of the disease in humans, hence presents minipig as a promising model for therapeutic testing of HD., and D. Vidinska, J. Motlik, Z. Ellederova
Activated hepatic stellate cells (HSC) are a major source offibrous proteins in cirrhotic liver. Inducing or accelerating their apoptosis is a potential way of liver fibrosis treatment. Extracellular matrix (ECM) surrounding cells in tissue affects their differentiation, migration, proliferation and function. Type I collagen is the main ECM component in fibrotic liver. We have examined how this protein modifies apoptosis of normal rat HSC induced by gliotoxin, cycloheximide and cytochalasin D in vitro and spontaneous apoptosis of HSC isolated from CCl4-damaged liver. We have found that type I collagen gel enhances HSC apoptosis regardless of the agent triggering this process. and L. Bittnerová, A. Jiroutová, E. Rudolf, M. Rezácová, J. Kanta
Užití mezenchymálních kmenových buněk (MSC) je jedním z experimentálních terapeutických přístupů k léčbě poranění míchy. MSC lze získat z kostní dřeně, tukové tkáně i z jiných periferních tkání dospělých jedinců. Výhodou je, v porovnání s jinými kmenovými buňkami, jejich dobrá dostupnost, snadná expanze a možnost autologního použití. MSC byly v posledních 15 letech studovány v experimentálním míšním poranění zejména u hlodavců se slibnými výsledky. Existuje několik mechanizmů, jakými působí MSC na míšní lézi. Především to je remyelinizace demyelinizovaných vláken, podpora pučení axonů (sprouting), angiogeneze, imunosupresivní efekt či sekrece neurotrofních faktorů, které mohou vést k funkčnímu zlepšení. Tyto slibné výsledky urychlily zahájení klinických studií u pacientů s poraněním míchy. Klinické studie fáze I/II ukázaly, že se jedná o bezpečnou metodu, avšak funkční průkaz vyžaduje další klinické studie. Ukazuje se, že MSC bude třeba kombinovat s jinými metodami, jako je přemostění léze, enzymatické štěpení jizvy a blokátory inhibičních faktorů. Tato práce přináší přehledný souhrn o aplikaci MSC u míšního poranění v experimentu i klinice., The use of mesenchymal stem cells (MSC) represents an experimental therapeutic modality in the treatment of spinal cord injury. MSC can be harvested from the bone marrow, fat tissue and other peripheral tissues from adult individuals. Compared to other types of stem cells, MSC are easy to access and expand and they can be used in autologous settings. Over the last 15 years, MSC have been widely studied in experimental spinal cord injury, especially in rodents, with promising results. MSC support remyelination of demyelinated axons, axonal sprouting, angiogenesis, have immunosuppressive effect and secrete neurotrophic factors that may led to functional improvement. These promising results led to launching of clinical studies in patients with spinal cord injury. Phase I/II clinical studies showed that the use of MSC represent a safe method. However, functional effect needs to be proved in further clinical studies. Data suggest that MSC will need to be combined with other methods, such as lesion bridging, scar tissue breakdown and blocking of inhibitory molecules. This paper provides an overview of the use of MSC in experimental and clinical SCI., and A. Hejčl, P. Jendelová, M. Sameš, E. Syková