Cellular Stress Responses of the Endemic Freshwater Fish Species Alburnus vistonicus Freyhof & Kottelat, 2007 in a Constantly Changing Environment

Cellular Stress Responses of the Endemic Freshwater Fish Species Alburnus vistonicus Freyhof & Kottelat, 2007 in a Constantly Changing Environment

Herein we investigated the cellular responses of the endemic fish species Alburnus vistonicus Freyhof & Kottelat, 2007, under the variation of several physico-chemical parameters including temperature (°C), salinity (psu), dissolved oxygen (mg/L), pH and conductivity (μS/cm), which were measured...

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Bibliographic Details
Published in:Applied sciences Vol. 11; no. 22; p. 11021
Main Authors: Tsakoumis, Emmanouil, Tsoulia, Thomais, Feidantsis, Konstantinos, Mouchlianitis, Foivos Alexandros, Berillis, Panagiotis, Bobori, Dimitra, Antonopoulou, Efthimia
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-11-2021
Subjects:
Alburnus
Binding sites
Brackish ecosystems
Cellular stress response
Changing environments
Climate change
Dissolved oxygen
Ecosystem biology
Endangered & extinct species
Endemic animals
Endemic species
Fluctuations
Freshwater fish
Gene expression
Gills
Heat shock proteins
HSPs
Kinases
Liver
MARKs
Medical research
Na+/K+-exchanging ATPase
Phosphorylation
physico-chemical parameters
Physiology
Protein kinase
Proteins
Salinity
Salinity effects
Vistonis Lake
Greece
United States > US
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Summary:Herein we investigated the cellular responses of the endemic fish species Alburnus vistonicus Freyhof & Kottelat, 2007, under the variation of several physico-chemical parameters including temperature (°C), salinity (psu), dissolved oxygen (mg/L), pH and conductivity (μS/cm), which were measured in situ. Monthly fish samplings (October 2014–September 2015) were conducted in Vistonis Lake in northern Greece, a peculiar ecosystem with brackish waters in its southern part and high salinity fluctuations in its northern part. Fish gills and liver responses to the changes of the physico-chemical parameters were tested biochemically and histologically. Heat shock protein levels appeared to be correlated with salinity fluctuations, indicating the adaptation of A. vistonicus to the particular environment. The latter is also enhanced by increased Na+-K+ ATPase levels, in response to salinity increase during summer. The highest mitogen activated protein kinases phosphorylation levels were observed along with the maximum mean salinity values. A variety of histological lesions were also detected in the majority of the gill samples, without however securing salinity as the sole stress factor. A. vistonicus cellular stress responses are versatile and shifting according to the examined tissue, biomarker and season, in order for this species to adapt to its shifting habitat.
ISSN:2076-3417
2076-3417
DOI:10.3390/app112211021