Phagocyte activity reflects mammalian homeo- and hetero-thermic physiological states
Autor: | Hana Bandouchova, Monika Nemcova, Renata Zajíčková, Jiri Pikula, Tomáš Heger, Vladimir Piacek, Ivana Papezikova, Veronika Kovacova, Jan Zukal |
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Rok vydání: | 2020 |
Předmět: |
Respiratory burst
0106 biological sciences 0301 basic medicine Phagocyte Torpor Phagocytosis Zoology Biology 010603 evolutionary biology 01 natural sciences Body Temperature 03 medical and health sciences Immune system Chiroptera White blood cell Bats medicine Animals Heterothermy Innate immunity Phagocytes lcsh:Veterinary medicine Innate immune system Behavior Animal General Veterinary General Medicine Blood 030104 developmental biology medicine.anatomical_structure Blood chemistry Erythrocyte Count lcsh:SF600-1100 Blood Chemical Analysis Research Article |
Zdroj: | BMC Veterinary Research BMC Veterinary Research, Vol 16, Iss 1, Pp 1-13 (2020) |
ISSN: | 1746-6148 |
DOI: | 10.1186/s12917-020-02450-z |
Popis: | Background Emergence of both viral zoonoses from bats and diseases that threaten bat populations has highlighted the necessity for greater insights into the functioning of the bat immune system. Particularly when considering hibernating temperate bat species, it is important to understand the seasonal dynamics associated with immune response. Body temperature is one of the factors that modulates immune functions and defence mechanisms against pathogenic agents in vertebrates. To better understand innate immunity mediated by phagocytes in bats, we measured respiratory burst and haematology and blood chemistry parameters in heterothermic greater mouse-eared bats (Myotis myotis) and noctules (Nyctalus noctula) and homeothermic laboratory mice (Mus musculus). Results Bats displayed similar electrolyte levels and time-related parameters of phagocyte activity, but differed in blood profile parameters related to metabolism and red blood cell count. Greater mouse-eared bats differed from mice in all phagocyte activity parameters and had the lowest phagocytic activity overall, while noctules had the same quantitative phagocytic values as mice. Homeothermic mice were clustered separately in a high phagocyte activity group, while both heterothermic bat species were mixed in two lower phagocyte activity clusters. Stepwise regression identified glucose, white blood cell count, haemoglobin, total dissolved carbon dioxide and chloride variables as the best predictors of phagocyte activity. White blood cell counts, representing phagocyte numbers available for respiratory burst, were the best predictors of both time-related and quantitative parameters of phagocyte activity. Haemoglobin, as a proxy variable for oxygen available for uptake by phagocytes, was important for the onset of phagocytosis. Conclusions Our comparative data indicate that phagocyte activity reflects the physiological state and blood metabolic and cellular characteristics of homeothermic and heterothermic mammals. However, further studies elucidating trade-offs between immune defence, seasonal lifestyle physiology, hibernation behaviour, roosting ecology and geographic patterns of immunity of heterothermic bat species will be necessary. An improved understanding of bat immune responses will have positive ramifications for wildlife and conservation medicine. |
Databáze: | OpenAIRE |
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