Electrophysiology of posterior, NaCl-absorbing gills of Chasmagnathus granulatus: Rapid responses to osmotic variations

In the present study, the influence of short-term osmotic variations on some electrophysiological properties related to NaCl absorption across posterior gills of Chasmagnathus granulatus was investigated. The transepithelial potential difference (V te ) of isolated and perfused gills increased signi...

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Autores principales: Tresguerres, M., Onken, H., Pérez, A.F., Luquet, C.M.
Formato: JOUR
Materias:
Chasmagnathus granulatus
Crab
Cyclic AMP
Gills
Hyperosmoregulation
Na + /K + -ATPase
Perfused gills
Short-circuit current
Split gill lamellae
Transepithelial conductance
Transepithelial voltage
adenosine triphosphatase (potassium sodium)
cyclic AMP
sodium chloride
animal
article
Brachyura
cell membrane potential
drug effect
electrophysiology
gill
male
metabolism
methodology
osmotic pressure
physiology
Animals
Electrophysiology
Male
Membrane Potentials
Na(+)-K(+)-Exchanging ATPase
Osmotic Pressure
Sodium Chloride
Animalia
Chasmagnathus granulata
Decapoda (Crustacea)
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00220949_v206_n3_p619_Tresguerres
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00220949_v206_n3_p619_Tresguerres
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spelling todo:paper_00220949_v206_n3_p619_Tresguerres2023-10-03T14:26:01Z Electrophysiology of posterior, NaCl-absorbing gills of Chasmagnathus granulatus: Rapid responses to osmotic variations Tresguerres, M. Onken, H. Pérez, A.F. Luquet, C.M. Chasmagnathus granulatus Crab Cyclic AMP Gills Hyperosmoregulation Na + /K + -ATPase Perfused gills Short-circuit current Split gill lamellae Transepithelial conductance Transepithelial voltage adenosine triphosphatase (potassium sodium) cyclic AMP sodium chloride animal article Brachyura cell membrane potential drug effect electrophysiology gill male metabolism methodology osmotic pressure physiology Animals Brachyura Cyclic AMP Electrophysiology Gills Male Membrane Potentials Na(+)-K(+)-Exchanging ATPase Osmotic Pressure Sodium Chloride Animalia Brachyura Chasmagnathus granulata Decapoda (Crustacea) In the present study, the influence of short-term osmotic variations on some electrophysiological properties related to NaCl absorption across posterior gills of Chasmagnathus granulatus was investigated. The transepithelial potential difference (V te ) of isolated and perfused gills increased significantly when hyposmotic saline (699 mosmol l -1 ) was used instead of isosmotic Solution (1045 mosmol l -1 ). A reduction of the concentration of Na + or Cl - at constant osmolarity did not produce any change in V te . Transepithelial short-circuit current (I sc ) and conductance (G te ), measured with split gill lamellae mounted in a modified Ussing chamber, also increased after changing to hyposmotic salines (I sc : from -89.0±40.8 μAcm -2 to -179.3±37.0μAcm -2 ; G te : from 40.5±16.9 mS cm -2 to 47.3±15.8 mS cm -2 ). The observed effects of reduced osmolarity were fast, reversible and gradually dependent on the magnitude of the osmotic variation. The acitivity of the Na + /K + -ATPase increased significantly after perfusion with hyposmotic saline, from 18.73±6.35 μmol P i h -1 mg -1 to 41.84±14.54 μmol P i h -1 mg -1 . Theophylline maintained part of the elevated V te induced by hyposmotic saline, suggesting that an increased cellular cyclic AMP level is involved in the response to reduced osmolarity. In summary, the results indicate that the hemolymph osmolarity regulates active transbranchial NaCl absorption by modulating the activity of the basolateral Na + /K + -ATPase and by changing a conductive pathway, probably at the apical membrane. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00220949_v206_n3_p619_Tresguerres
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Chasmagnathus granulatus
Crab
Cyclic AMP
Gills
Hyperosmoregulation
Na + /K + -ATPase
Perfused gills
Short-circuit current
Split gill lamellae
Transepithelial conductance
Transepithelial voltage
adenosine triphosphatase (potassium sodium)
cyclic AMP
sodium chloride
animal
article
Brachyura
cell membrane potential
drug effect
electrophysiology
gill
male
metabolism
methodology
osmotic pressure
physiology
Animals
Brachyura
Cyclic AMP
Electrophysiology
Gills
Male
Membrane Potentials
Na(+)-K(+)-Exchanging ATPase
Osmotic Pressure
Sodium Chloride
Animalia
Brachyura
Chasmagnathus granulata
Decapoda (Crustacea)
spellingShingle Chasmagnathus granulatus
Crab
Cyclic AMP
Gills
Hyperosmoregulation
Na + /K + -ATPase
Perfused gills
Short-circuit current
Split gill lamellae
Transepithelial conductance
Transepithelial voltage
adenosine triphosphatase (potassium sodium)
cyclic AMP
sodium chloride
animal
article
Brachyura
cell membrane potential
drug effect
electrophysiology
gill
male
metabolism
methodology
osmotic pressure
physiology
Animals
Brachyura
Cyclic AMP
Electrophysiology
Gills
Male
Membrane Potentials
Na(+)-K(+)-Exchanging ATPase
Osmotic Pressure
Sodium Chloride
Animalia
Brachyura
Chasmagnathus granulata
Decapoda (Crustacea)
Tresguerres, M.
Onken, H.
Pérez, A.F.
Luquet, C.M.
Electrophysiology of posterior, NaCl-absorbing gills of Chasmagnathus granulatus: Rapid responses to osmotic variations
topic_facet Chasmagnathus granulatus
Crab
Cyclic AMP
Gills
Hyperosmoregulation
Na + /K + -ATPase
Perfused gills
Short-circuit current
Split gill lamellae
Transepithelial conductance
Transepithelial voltage
adenosine triphosphatase (potassium sodium)
cyclic AMP
sodium chloride
animal
article
Brachyura
cell membrane potential
drug effect
electrophysiology
gill
male
metabolism
methodology
osmotic pressure
physiology
Animals
Brachyura
Cyclic AMP
Electrophysiology
Gills
Male
Membrane Potentials
Na(+)-K(+)-Exchanging ATPase
Osmotic Pressure
Sodium Chloride
Animalia
Brachyura
Chasmagnathus granulata
Decapoda (Crustacea)
description In the present study, the influence of short-term osmotic variations on some electrophysiological properties related to NaCl absorption across posterior gills of Chasmagnathus granulatus was investigated. The transepithelial potential difference (V te ) of isolated and perfused gills increased significantly when hyposmotic saline (699 mosmol l -1 ) was used instead of isosmotic Solution (1045 mosmol l -1 ). A reduction of the concentration of Na + or Cl - at constant osmolarity did not produce any change in V te . Transepithelial short-circuit current (I sc ) and conductance (G te ), measured with split gill lamellae mounted in a modified Ussing chamber, also increased after changing to hyposmotic salines (I sc : from -89.0±40.8 μAcm -2 to -179.3±37.0μAcm -2 ; G te : from 40.5±16.9 mS cm -2 to 47.3±15.8 mS cm -2 ). The observed effects of reduced osmolarity were fast, reversible and gradually dependent on the magnitude of the osmotic variation. The acitivity of the Na + /K + -ATPase increased significantly after perfusion with hyposmotic saline, from 18.73±6.35 μmol P i h -1 mg -1 to 41.84±14.54 μmol P i h -1 mg -1 . Theophylline maintained part of the elevated V te induced by hyposmotic saline, suggesting that an increased cellular cyclic AMP level is involved in the response to reduced osmolarity. In summary, the results indicate that the hemolymph osmolarity regulates active transbranchial NaCl absorption by modulating the activity of the basolateral Na + /K + -ATPase and by changing a conductive pathway, probably at the apical membrane.
format JOUR
author Tresguerres, M.
Onken, H.
Pérez, A.F.
Luquet, C.M.
author_facet Tresguerres, M.
Onken, H.
Pérez, A.F.
Luquet, C.M.
author_sort Tresguerres, M.
title Electrophysiology of posterior, NaCl-absorbing gills of Chasmagnathus granulatus: Rapid responses to osmotic variations
title_short Electrophysiology of posterior, NaCl-absorbing gills of Chasmagnathus granulatus: Rapid responses to osmotic variations
title_full Electrophysiology of posterior, NaCl-absorbing gills of Chasmagnathus granulatus: Rapid responses to osmotic variations
title_fullStr Electrophysiology of posterior, NaCl-absorbing gills of Chasmagnathus granulatus: Rapid responses to osmotic variations
title_full_unstemmed Electrophysiology of posterior, NaCl-absorbing gills of Chasmagnathus granulatus: Rapid responses to osmotic variations
title_sort electrophysiology of posterior, nacl-absorbing gills of chasmagnathus granulatus: rapid responses to osmotic variations
url http://hdl.handle.net/20.500.12110/paper_00220949_v206_n3_p619_Tresguerres
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AT onkenh electrophysiologyofposteriornaclabsorbinggillsofchasmagnathusgranulatusrapidresponsestoosmoticvariations
AT perezaf electrophysiologyofposteriornaclabsorbinggillsofchasmagnathusgranulatusrapidresponsestoosmoticvariations
AT luquetcm electrophysiologyofposteriornaclabsorbinggillsofchasmagnathusgranulatusrapidresponsestoosmoticvariations
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