Cerebrovascular β‐dystroglycan immunoreactivity in vertebrates: not detected in anurans and in the teleosts Ostariophysi and Euteleostei

The aim of the present paper was to check for the presence of cerebrovascular dystroglycan in vertebrates, because dystroglycan, which is localized in the vascular astroglial end‐feet, has a pivotal function in glio‐vascular connections. In mammalian brains, the immunoreactivity of β‐dystroglycan su...

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Published in:Integrative zoology 2020-01, Vol.15 (1), p.16-31
Main Authors: KÁLMÁN, Mihály, LŐRINCZ, David L., SEBŐK, Olivér M., ARI, Csilla, OSZWALD, Erzsébet, SOMIYA, Hiroaki, JANCSIK, Veronika
Format: Article
Language:English
Subjects:
Adaptation
Animals
anurans
Aquatic habitats
Blood-brain barrier
Brain
Brain - physiology
Brain Chemistry
cerebrovascular
Dystroglycan
Dystroglycans - chemistry
elasmobranchs
Embedding
Feet
Fishers
Freshwater
Freshwater environments
Freshwater fishes
Humans
Immunohistochemistry
Inland water environment
Marine fishes
Muscles
Ostariophysi
Reptiles
Sharks
Species Specificity
teleosts
Vertebrates - physiology
Western blotting
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Summary:The aim of the present paper was to check for the presence of cerebrovascular dystroglycan in vertebrates, because dystroglycan, which is localized in the vascular astroglial end‐feet, has a pivotal function in glio‐vascular connections. In mammalian brains, the immunoreactivity of β‐dystroglycan subunit delineates the vessels. The results of the present study demonstrate similar patterns in other vertebrates, except for anurans and the teleost groups Ostariophysi and Euteleostei. In this study, we investigated 1 or 2 representative species of the main groups of Chondrichthyes, teleost and non‐teleost ray‐finned fishes, urodeles, anurans, and reptiles. We also investigated 5 mammalian and 3 bird species. Animals were obtained from breeders or fishermen. The presence of β‐dystroglycan was investigated immunohistochemically in free‐floating sections. Pre‐embedding electron microscopical immunohistochemistry on Heterodontus japonicus shark brains demonstrated that in Elasmobranchii, β‐dystroglycan is also localized in the perivascular glial end‐feet despite the different construction of their blood–brain barrier. The results indicated that the cerebrovascular β‐dystroglycan immunoreactivity disappeared separately in anurans, and in teleosts, in the latter group before its division to Ostariophysi and Euteleostei. Immunohistochemistry in muscles and western blots from brain homogenates, however, detected the presence of β‐dystroglycan, even in anurans and all teleosts. A possible explanation is that in the glial end‐feet, β‐dystroglycan is masked in these animals, or disappeared during adaptation to the freshwater habitat.
ISSN:1749-4877
1749-4869
1749-4877
DOI:10.1111/1749-4877.12384