O ústavu Výzkum Studium Knihovna Časopis Aktuality Nabídka práce Hledání
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Vstup do intranetu
 
Scientists
Jana Bryndova, PhD
Peter Ergang, Ing
Jana Musilkova, PhD
Karla Vagnerova, Ing, PhD
Zdenka Zemanova, MD, PhD
Jiri Svec, MD
Petra Klusonova, PhD
Lenka Rehakova, PhD
Miroslav Hock, PhD

Technical Assistants
Pavla Smigolova
Ivana Muricova

PhD students
Matus Sotak, MSc
Jiri Svec, MD

 


 
Department: Epithelial Physiology
Head: Jiri Pacha, Prof, PhD, DSc
   
Contact phone/fax number: 29644-2440
e-mail: pachabiomed.cas.cz
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Main Topics:  

  1. Ontogeny of intestinal transport and its regulation
  2. Cellular and molecular mechanisms of epithelial absorption and secretion
  3. Biochemistry and endocrinology of corticosteroid hormones
  4. Structural and functional differentiation of tubular epithelium and vascular bed in embryonic kidney
    

The research activities of the laboratory lie in the biology of epithelial cells with particular emphasis on the transport mechanisms of the intestinal epithelium. The intestinal epithelium, which is in nocstant and rapid renewal, represents an attractive system for the study of mechanisms involved in the determination of the cell state. Within its fundamental unit, the cryptvillus axis, are two main distinct populations of cells: the proliferating and poorly differentiated cells localised in the crypts, and the mature enterocytes in the villi of the small intestine or in the intestinal surface of the large intestine. Due to the presence of undifferentiated cells and enterocytes of different stages of maturation the digestive and transport properties of the epithelium are not distributed homogeneously along the cryptvillus axis (vertical gradient). Similarly, heterogeneous distribution of the digestive and transport functions exists also along the intestine from the duodenum to the rectum (horizontal gradient). It is known that the regulation of epithelial cell growth and digestive and transport functions is susceptible to various influences both along the vertical and the horizontal axes. The regulation of these gradients is a subject of many integrative mechanisms involving hormone, nervous, immune and dietary changes. In principal there are two patterns of this regulation  specific or nonspecific reversible regulation and irreversible mostly developmental regulation reflecting the three major changes in functional demands of the gut: (1) the gut is substituted for the placenta, (2) weaning is associated with major qualitative changes in the diet and (3) the growing organism requires quantitatively more nutrients and ions than in adulthood. Therefore, many of the digestive and transport functions undergo profound changes during maturation, which have important implications for the regulation of fluid and electrolyte balance in infants.

The experimental activities in the laboratory focus on three research projects. First, the development of cellular mechanisms of absorptive and secretory pathways and maturation of their signalling systems. Second, understanding the cellular and molecular mechanisms by which corticosteroid hormones regulate intestinal functions. The third research program is directed at understanding the complex interactions that exist between the structural and functional differentiation of the renal tubular epithelium using chick mesonephros as a model of the functional embryonic kidney. The goal of these three programs is to understand at the cellular and molecular level how solutes move across epithelial cell membranes and how this movement is regulated to suit the needs of the organism during development.

Our studies led to the conclusion that ion and water transport undergoes marked agedependent changes during the suckling and weaning period and that sucklings and weanlings are in relative lack of NaCl in the developing body. The studies have established heterogeneity of colonic sodium and potassium transport relative to developmental and spatial distribution. We have shown that increased colonic sodium absorption of the immature intestine reflects the presence of electrogenic amiloridesensitive sodium transport via epithelial sodium channels localized in the apical membrane of colonic enterocytes. The increased sodium absorption is associated in immature intestine with increased potassium secretion and both transport pathways decrease or disappear after weaning. The increased colonic sodium absorption is accompanied by an enlargement of the enterocyte membrane surfaces. The main regulatory signal for these developmental changes is aldosterone, but thyroid hormones play a distinct permissive role in this phenomenon. Hypothyroidism blocks the stimulatory effect of aldosterone and replacement therapy of hypothyroidism with triiodothyronine restores the effect of aldosterone. The target of thyroid hormones is the apical sodium channel and not basolateral sodium pump (Na,K-ATPase). In addition, we have established that the immature intestine is more sensitive to corticosteroids than the adult intestine. This phenomenon seems to be associated with increased plasma concentration of thyroid hormones in sucklings and weanlings. At the molecular level we have further analysed the permissive role of thyroid hormones in aldosterone effects and showed that this effect is localized beyond the transcriptional step of sodium channel regulation. As mentioned above the effect of aldosterone in the colon is associated with increased potassium secretion and further studies have established the mechanism by which potasium ions are transported across the apical and basolateral membrane. Potassium ions penetrate into the cell across the basolateral membrane through furosemidesensitive Na/Cl/K cotransporter and exit the enterocytes through apical barium-sensitive potassium channels.

We found that corticosteroid effects in the developing intestine correlate with dramatic changes in the activity of an enzyme, 11ß-hydroxysteroid dehydrogenase (HSD). This enzyme metabolises glucocorticoids to biologically inactive forms and thereby allows aldosterone and glucocorticoids to occupy their respective intracellular receptors. Whereas the activity of ileal 11HSD is low during the suckling period and rises severalfold during weaning, the activity of colonic 11HSD is high in the large intestine since birth. This discrepancy in the developmental pattern supports (1) the specificity of aldosterone effect and efficiency of mineralocorticoid target tissue (large intestine) since birth and (2) facilitates the maturation effect of glucocorticoids in the small intestine during early postnatal life. The detailed studies of prereceptor modulation of corticosteroid signals in the intestine established not only marked developmental changes but also modifications of 11HSD in some pathological states such as hypertension. In addition, we have been able to demonstrate species differences - 20-hydroxysteroid dehydrogenase instead of 11HSD is involved in prereceptor modulation of corticosteroid signals in the avian intestine.

The embryological studies characterized the effect of some chemicals and xenobiotics on nephron growth, maturation and induction of anomalies in the renal tubular morphology (cystic dilatation). We showed that cystic dilatation is accompanied by changes in the amount of some structural proteins and by defect in the enzyme supply of the dilated tubules.

Primary emphasis, at the present time, is to define the developmental changes in establishing the gradient of transport functions along the cryptvillus axis in immature intestine. By electroctro- physiological techniques (patch-clamp, Ussing chambers) and dual-wavelength fluorescence method (pH and Ca2+ intracellular indicators) coupled with digital imaging technique we are able to monitor the distribution of transport proteins along the cryptvillus axis and to study their regulation. Most recently we applied RT-PCR to study the regulation of transport proteins at the transcriptional level.

The work of the laboratory has been supported by grants from the Grant Agency of the Czech Republic, Academy of Sciences and Charles University. 

Publications

 



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