Centrální a periferní nervový systém jsou odděleny od krevního řečiště bariérami, které brání volnému přechodu ve vodě rozpustných molekul prostřednictvím těsných spojů, jež propojují endoteliální buňky a epiteliální buňky plexus chorioideus. Tyto bariéry též hrají roli v influxu esenciálních molekul a odstraňování xenobiotik. V posledních letech jsou objasňovány rozdíly a společné rysy jednotlivých bariérových systémů. Jejich poruchy hrají klíčovou roli v celé řadě chorob nervového systému. Článek objasňuje strukturu a funkci bariérových systémů za fyziologických a patologických okolností., Central and peripheral nervous systems are separated from the bloodstream by barrier structures that prevent free migration of water-soluble molecules through the tight junctions of the choroid plexus endothelial and epithelial cells. These barriers also play a role in the influx of essential molecules and elimination of xenobiotics. In recent years, differences and common features of the various barrier systems are being explored. Their disorders play a key role in a number of nervous system diseases. The present paper describes the structure and function of barrier systems under physiological and pathological conditions., and J. Piťha
We studied cadmium toxicity in murine hepatocytes in vitro. Cadmium effects on intracellular free Ca2+ concentration ([Ca2+]i) were assayed, using a laser scanning confocal microscope with a fluorescent probe, Fluo-3/AM. The results showed that administration of cadmium chloride (CdCl2, 5, 10, 25 μM) resulted in a dose-dependent decrease of hepatocyte viability and an elevated aspartate aminotransfe rase (AST) activity in the culture medium (p<0.05 for 25 μM CdCl2 vs. control). Significant increases of lactate dehydrogenase (LDH) activities in 10 and 25 μM CdCl2-exposed groups were observed (p<0.05 and p<0.01, respectively). A greatly decreased albumin content and a more malondialdehyde (MDA) formation also occurred after CdCl2 treatment. The Ca2+ concentrations in the culture medium of CdCl2-exposed hepatocytes were significantly decreased, while [Ca2+]i appeared to be significantly elevated (p<0.05 or p<0.01 vs. control). We found that in Ca2+-containing hydroxyethyl piperazine ethanesulfonic acid-buffered salt solution (HBSS) only, CdCl2 elicited [Ca2+]i increases, which comprised an initially slow ascent and a strong elevated phase. However, in Ca2+-containing HBSS with addition of 2-aminoethoxydiphenyl borane (2-APB), CdCl2 caused a mild [Ca 2+] i elevation in the absence of an initial rise phase. Removal of extracellular Ca2+ showed that CdCl2 induced an initially slow [Ca2+]i rise alone without being followed by a markedly elevated phase, but in a Ca2+-free HBSS with addition of 2-APB, CdCl2 failed to elicit the [Ca2+]i elevation. These results suggest that abnormal Ca2+ homeostasis due to cadmium may be an important mechanism of the development of the toxic effect in murine hepatocytes. [Ca2+]i elevation in acutely cadmium-exposed hepatocytes is closely related to the extracellular Ca2+ entry and an excessive release of Ca2+ from intracellular stores., S. S. Wang, L. Chen, S. K. Xia., and Obsahuje bibliografii a bibliografické odkazy
The ubiquitin-proteasome pathway fulfills major biological functions, but its physiologic tissue distribution and the interrelationship between pathway component activities and ubiquitin pools are unknown. Therefore, we analyzed free and conjugated ubiquitin, ubiquitin-protein ligation rates (UbPL) and chymotryptic- and tryptic-like proteasome peptidase activities in porcine skeletal muscle, heart, lung, liver, spleen and kidney (n=5 each). There were considerable differences between tissues (p<0.05 for all parameters). Lung and spleen showed high levels of free and conjugated ubiquitin and high UbPL. Proteasome activities were highest in kidney and heart. There were linear relationships between tryptic-like and chymotryptic-like proteasome peptidase activities (r2 = 0.624, p<0.001) and between free and conjugated ubiquitin tissue levels (r2 = 0.623, p<0.001). Tissue levels of free and conjugated ubiquitin correlated linear with UbPL (p<0.005), but they were not correlated with proteasome peptidase activities. The results suggest that tissue ubiquitin pools are tightly regulated and indicate a constant proportion of conjugated ubiquitin. They further support the hypothesis that ubiquitin-protein ligase systems, and probably deubiquitylating enzymes, are key regulators of ubiquitin homeostasis. The detected differences are suggestive of tissue-specific roles of ubiquitin-proteasome pathway components. Besides the known importance of the ubiquitin proteasome pathway in heart, kidney and the immune system, the results suggest the lung as another organ in which ubiquitin proteasome pathway components may also significantly contribute to disease processes., M. B. Patel, M. Majetschak., and Obsahuje bibliografii a bibliografické odkazy
In this study, we questioned whether ground-level ozone (O3) induces hormesis in Japanese larch (Larix kaempferi) and its hybrid F1 (L. gmelinii var. japonica × L. kaempferi). In order to answer the question, we exposed seedlings of both taxa to four O3 treatments [ranging from ≈10 to 60 nmol(O3) mol-1] in open-top chambers for two consecutive growing seasons. We found a hormetic response in maximum photosynthetic rate (PNmax) at 1700 μmol(CO2) mol-1 and maximum rates of carboxylation (Vcmax) and electron transport (Jmax) in both larches. Stimulation of PNmax, Vcmax, and Jmax did not lead to suppressed plant productivity in Japanese larch, which followed a stress-tolerant strategy, but it did lead to suppressed plant productivity in hybrid larch which followed a competitive strategy. These findings are the first to suggest that stimulation of physiological functions by low O3 exposures may have negative consequences for larch reproduction., T. Sugai, D.-G. Kam, E. Agathokleous, M. Watanabe, K. Kita, T. Koike., and Obsahuje bibliografii
Appeals of philosophers to look for new concepts in sciences are being met with a weak response. Limited attention is paid to the relation between synthetic and analytic approach in solving problems of biology. An attempt is presented to open a discussion on a possible role of holism. The term “life manifestations” is used in accordance with phenomenology. Multicellular creatures maintain milieu intérieur to keep an aqueous milieu intracellulair in order to transform the energy of nutrients into the form utilizable for driving cellular life manifestations. Milieu intérieur enables to integrate this kind of manifestations into life manifestations of the whole multicellular creatures. The integration depends on a uniqueness and uniformity of the genome of cells, on their mutual recognition and adherence. The processes of ontogenetic development represent the natural mode of integration of cellular life manifestations. Functional systems of multicellular creatures are being established by organization of integrable cells using a wide range of developmental processes. Starting from the zygote division the new being displays all properties of a whole creature, although its life manifestations vary. Therefore, the whole organism is not only more than its parts, as supposed by holism, but also more than developmental stages of its life manifestations. Implicitly, the units of whole multicellular creature are rather molecular and developmental events than the cells per se. Holism, taking in mind the existence of molecular and space-time biology, could become a guide in looking for a new mode of the combination of analytical and synthetic reasoning in biology., J. Křeček., and Obsahuje bibliografii a bibliografické odkazy
Pohybová inaktivita je průkazně spojena s manifestací chronických, kvalitu a prognózu života člověka významně negativně modifikujících onemocnění. Benefity pohybové aktivity zprostředkovává jistě mnoho více či méně provázaných patofyziologických mechanizmů, které dosud nebyly ve své složitosti zcela prozkoumány. Koncem 20. století se podařilo prokázat, že pracující příčně pruhovaný sval skutečně reguluje metabolickou a fyziologickou odezvu v ostatních orgánech. Jedná o několik stovek substancí, které mají autokrinní, parakrinní a endokrinní účinek. Tyto proteiny a peptidy, jsou-li vylučovány do krevního oběhu, ovlivňují významným způsobem metabolizmus vzdálených orgánů. Byly klasifikovány jako „myokiny“ (cytokiny produkované myocyty). Mezi identifikované myokiny lze zařadit např.: interleukiny – IL4, IL6, IL7, IL15, myostatin, LIF (leucemia inhibitory factor), BDNF (brain-derived neurotropic factor), IGF1 (insulin-like growth factor), FGF2 (fibroblastový růstový faktor 2), FGF21, FSTL1 (folistatin-related protein 1), irisin, EPO (erytropoetin) a BAIBA (β-aminoisobutyric acid). Myokiny mají v lidském organizmu v prvé řadě imunoregulační roli. Další významnou úlohou myokinů je, shodou okolností rovněž v interakci s tukovou tkání, regulace energetické homeostázy. Ovlivňují také růst svalových vláken a jejich regeneraci, stimulují angiogenezi, uplatňují se v regulaci metabolizmu glukózy a mají prokázaný efekt na lipidy. S ohledem na svoji rozmanitou funkci představují myokiny do budoucna terapeutický cíl v léčbě poruch svalového růstu regenerace a také obezity. Další recentní výzkum směřuje k odhalení tzv. myokinové rezistence jako rezultátu dlouhodobé svalové inaktivity a její asociaci s chronickým subklinickým zánětem., Physical inactivity is demonstrably related to the manifestation of chronic diseases which significantly modify the quality and prognosis of life in a negative way. The benefits of exercise are surely mediated by many pathophysiological mechanisms interrelated in varying degrees, which have not yet been fully examined in their complexity. In the late 20th century it was positively proven that a working striated muscle really regulates the metabolic and physiological response in the other organs. These involve several hundred substances with autocrine, paracrine and endocrine effects. These proteins and peptides, if released into the blood stream, substantially affect the metabolism of distant organs. They were classified as “myokines“ (cytokines produced by myocytes). The identified myokines include e.g. IL4, IL6, IL7, IL15, myostatin, LIF (leukemia inhibitory factor), BDNF (brain-derived neurotrophic factor), IGF1 (insulin-like growth factor), FGF2 (fibroblast growth factor 2), FGF21, FSTL1 (follistatin-related protein 1), irisin, EPO (erythropoetin) and BAIBA (β-aminoisobutyric acid). Myokines have first of all an immunoregulatory role in the human body. Another important effect of myokines is, coincidentally also in the interaction with adipose tissue, the regulation of energy homeostasis. They also affect the growth of muscle fibres and their regeneration, stimulate angiogenesis, they are involved in the regulation of glucose metabolism and have a proven effect on lipids. Considering their diverse function, myokines present a prospective therapeutic goal in the treatment of disorders of muscle growth and regeneration as well as obesity. Another recent research moves toward uncovering of the “myokine resistance” as a result of long-term muscle inactivity and its association with chronic subclinical inflammation., and Zuzana Stránská, Štěpán Svačina
The reactions of human organism to changes of internal or external environment termed as stress response have been at the center of interest during recent decades. Several theories were designed to describe the regulatory mechanisms which maintain the stability of vital physiological functions under conditions of threat or other environmental challenges. However, most of the models of stress reactivity were focused on specific aspects of the regulatory outcomes - physiological (e.g. neuroendocrine), psychological or behavioral regulation. Recently, a novel complex theory based on evolutionary and developmental biology has been introduced. The Adaptive Calibration Model of stress response employs a broad range of the findings from previous theories of stress and analyzes the responsivity to stress with respect to interindividual differences as a consequence of conditional adaptation - the ability to modify developmental trajectory to match the conditions of the social and physical environment. This review summarizes the contributions of the most important models in the field of stress response and emphasizes the importance of complex analysis of the psycho-physiological mechanisms. Moreover, it outlines the implications for nonpharmacological treatment of stress-related disorders with the application of biofeedback training as a promising tool based on voluntary modification of neurophysiological functions., I. Tonhajzerova, M. Mestanik., and Obsahuje bibliografii
Tuková tkáň je endokrinní orgán produkující početné cytokiny. Změna v jejich regulacích může být příčinou patologických pochodů u obézních jedinců. Význam tukové tkáně ve vztahu k diabetu a ateroskleróze je intenzivně studován., Adipose tissue is an endocrine organ that produces numerous cytokines. Their dysregulations cause morbidity in obese individuals. The importance of this tissue in relation to diabetes and atherosclerosis is the subject of intense research., and Ilja Trebichavský, Petr Šíma.