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  • Zhang, M. -DKarolinska Institutet (author)

Comparative anatomical distribution of neuronal calcium-binding protein (NECAB) 1 and -2 in rodent and human spinal cord

  • Article/chapterEnglish2016

Publisher, publication year, extent ...

  • 2016-02-02
  • Springer,2016
  • printrdacarrier

Numbers

  • LIBRIS-ID:oai:DiVA.org:kth-188294
  • https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-188294URI
  • https://doi.org/10.1007/s00429-016-1191-3DOI
  • http://kipublications.ki.se/Default.aspx?queryparsed=id:134104618URI

Supplementary language notes

  • Language:English
  • Summary in:English

Part of subdatabase

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  • Subject category:ref swepub-contenttype
  • Subject category:art swepub-publicationtype

Notes

  • QC 20160610
  • Neuronal calcium-binding protein 1 and -2 (NECAB1/2) localize to multiple excitatory neuron populations in the mouse spinal cord. Here, we analyzed rat and human spinal cord, combining in situ hybridization and immunohistochemistry, complementing newly collated data on mouse spinal cord for direct comparisons. Necab1/2 mRNA transcripts showed complementary distribution in rodent’s spinal cord. Multiple-labeling fluorescence histochemistry with neuronal phenotypic markers localized NECAB1 to a dense fiber plexus in the dorsal horn, to neurons mainly in superficial layers and to commissural interneurons in both rodent species. NECAB1-positive (+) motor neurons were only found in mice. NECAB1 distribution in the human spinal cord was similar with the addition of NECAB1-like immunoreactivity surrounding myelinated axons. NECAB2 was mainly present in excitatory synaptic boutons in the dorsal horn of all three species, and often in calbindin-D28k+ neuronal somata. Rodent ependymal cells expressed calbindin-D28k. In humans, they instead were NECAB2+ and/or calretinin+. Our results reveal that the association of NECAB2 to excitatory neuronal circuits in the spinal cord is evolutionarily conserved across the mammalian species investigated so far. In contrast, NECAB1 expression is more heterogeneous. Thus, our study suggests that the phenotypic segregation of NECAB1 and -2 to respective excitatory and inhibitory spinal systems can underpin functional modalities in determining the fidelity of synaptic neurotransmission and neuronal responsiveness, and might bear translational relevance to humans.

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Added entries (persons, corporate bodies, meetings, titles ...)

  • Barde, S.Karolinska Institutet (author)
  • Szodorai, E. (author)
  • Josephson, A. (author)
  • Mitsios, N.Karolinska Institutet (author)
  • Watanabe, M. (author)
  • Attems, J. (author)
  • Lubec, G. (author)
  • Kovács, G. M. (author)
  • Uhlén, MathiasKTH,Proteomik och nanobioteknologi(Swepub:kth)u1dulvmw (author)
  • Mulder, J.Karolinska Institutet (author)
  • Harkany, T.Karolinska Institutet (author)
  • Hökfelt, T.Karolinska Institutet (author)
  • Kovacs, GG (author)
  • Karolinska InstitutetProteomik och nanobioteknologi (creator_code:org_t)

Related titles

  • In:Brain Structure and Function: Springer, s. 1-211863-26531863-2661

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