Exploring dynamics within the neuroendocrine-immune system

D 2003

Exploring dynamics within the neuroendocrine-immune system

POKOJSKÁ, Eva

Basic information

Original name

Exploring dynamics within the neuroendocrine-immune system

Authors

POKOJSKÁ, Eva

Edition

Praha, 6th IBRO World Congress of Neuroscience, 1 pp. 2003

Other information

Type of outcome

Stať ve sborníku

Confidentiality degree

není předmětem státního či obchodního tajemství

Organization unit

Faculty of Medicine

ISBN

80-239-0887-1

Keywords in English

regulatory network; model; neuroendocrine; immune; corticoids

Abstract

V originále

Depression, sleeping disorders, cognitive impairment, changes in water metabolism and resulting higher stroke risk or migraine appearance, and shifts in immune response are symptoms related to dysregulation of the hypothalamo-pituitary-adrenal axis (HPA). Previous studies point to releasing patterns of corticotropin releasing hormone (CRH) and their relations to autonomous neural system and hippocampal activity. As steroids, or melatonin can influence the feedbacks to HPA axis, changing the usual release patterns of CRH, we can consider above symptoms as side-effects of chronic steroid administration. In this work we want to reveal the interactions among various mediators forming the multiple inputs important for a fine modulation the specific mediator-release patterns. To present the dynamics in the regulatory system we introduce a method for grouping fairly homologous mediators to elucidate the regulational hierarchy conserved in humans. The method considers features of the appropriate signal transduction path, namely a structure of mediator, receptor, and a type of related downstream pathway. Based on the qualitative data on mediator production/ release after the neighbour mediator input signal, we have sketched particular metabolic sub-systems considering all feedbacks present. After replacing particular mediators in the sub-systems by their group-representatives it becomes clear that the between-groups interactions are either same for the metabolic sub-systems, or absent. Regarding the mediators grouping and the general rules for regulational hierarchy levels interactions we have designed a general scheme representing types of mediator - target cell interactions. Using discretization for the time evolution and mediator production/ release levels we implement a method of rule-based formalism theory. Our model wants to mimic the physiological regulation dynamics in the complex mediator system and simulate the changes under chronic steroid administration.

Links

MSM 141100002, plan (intention)

Name: Molekulární patofyziologie multigenních chorob

Investor: Ministry of Education, Youth and Sports of the CR, Molecular pathophysiology of multigene diseases

Citovat

POKOJSKÁ, Eva. Exploring dynamics within the neuroendocrine-immune system. In 6th IBRO World Congress of Neuroscience. Praha, 2003, 1 pp. ISBN 80-239-0887-1.

@inproceedings{488146,
   author = {Pokojská, Eva},
   address = {Praha},
   booktitle = {6th IBRO World Congress of Neuroscience},
   keywords = {regulatory network; model; neuroendocrine; immune; corticoids},
   location = {Praha},
   isbn = {80-239-0887-1},
   title = {Exploring dynamics within the neuroendocrine-immune system},
   year = {2003}
}

TY  - JOUR
ID  - 488146
AU  - Pokojská, Eva
PY  - 2003
TI  - Exploring dynamics within the neuroendocrine-immune system
CY  - Praha
SN  - 8023908871
KW  - regulatory network
KW  - model
KW  - neuroendocrine
KW  - immune
KW  - corticoids
N2  - Depression, sleeping disorders, cognitive impairment, changes in water metabolism and resulting higher stroke risk or migraine appearance, and shifts in immune response are symptoms related to dysregulation of the hypothalamo-pituitary-adrenal axis (HPA). Previous studies point to releasing patterns of corticotropin releasing hormone (CRH) and their relations to autonomous neural system and hippocampal activity. As steroids, or melatonin can influence the feedbacks to HPA axis, changing the usual release patterns of CRH, we can consider above symptoms as side-effects of chronic steroid administration. In this work we want to reveal the interactions among various mediators forming the multiple inputs important for a fine modulation the specific mediator-release patterns. To present the dynamics in the regulatory system we introduce a method for grouping fairly homologous mediators to elucidate the regulational hierarchy conserved in humans. The method considers features of the appropriate signal transduction path, namely a structure of mediator, receptor, and a type of related downstream pathway. Based on the qualitative data on mediator production/ release after the neighbour mediator input signal, we have sketched particular metabolic sub-systems considering all feedbacks present. After replacing particular mediators in the sub-systems by their group-representatives it becomes clear that the between-groups interactions are either same for the metabolic sub-systems, or absent. Regarding the mediators grouping and the general rules for regulational hierarchy levels interactions we have designed a general scheme representing types of mediator - target cell interactions. Using discretization for the time evolution and mediator production/ release levels we implement a method of rule-based formalism theory. Our model wants to mimic the physiological regulation dynamics in the complex mediator system and simulate the changes under chronic steroid administration.
ER  -

POKOJSKÁ, Eva. Exploring dynamics within the neuroendocrine-immune system. In \textit{6th IBRO World Congress of Neuroscience}. Praha, 2003, 1 pp. ISBN~80-239-0887-1.

Detailed Information on Publication Record