Non-TrkA-expressing small DRG neurons are lost in TrkA deficient mice.

Silos-Santiago I; Molliver DC; Ozaki S; Smeyne RJ; Fagan AM; Barbacid M; Snider WD

doi:10.1523/jneurosci.15-09-05929.1995

Non-TrkA-expressing small DRG neurons are lost in TrkA deficient mice.

Affiliations

1. Department of Neurology, Washington University School of Medicine, St. Louis, Missouri 63110, USA.
Authors
Silos-Santiago I¹
(1 author)

The Journal of Neuroscience : the Official Journal of the Society for Neuroscience, 01 Sep 1995, 15(9):5929-5942
https://doi.org/10.1523/jneurosci.15-09-05929.1995 PMID: 7666178 PMCID: PMC6577670

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Abstract

Experiments over the past decade in which NGF/TrkA signaling has been abolished by antibodies or targeted gene mutations have shown that 70-85% of dorsal root ganglion (DRG) neurons require NGF for survival during development. There is consensus that many of the NGF-dependent neurons are small-diameter, peptidergic neurons subserving nociception. These neurons express the signaling receptor for NGF, TrkA. There is a major discrepancy, however, between the percentage of DRG neurons which require NGF for survival (70-85%) and percentage of DRG neurons expressing TrkA receptors (40-50%). The identity of these non-TrkA expressing, NGF-dependent neurons has not been established. A candidate group is a population of small DRG neurons with unmyelinated axons which bind BSI isolectins from the plant, Bandeiraea simplicifolia. We show here that most of these BSI-binding DRG neurons do not express TrkA in adult mice. However, in mutant mice in which NGF/TrkA signaling has been abolished by inactivation of the trkA gene, BSI-staining in the DRG and dorsal horn is completely eliminated. BSI-binding DRG cells are thus the first identified neuronal population in which cells do not express TrkA in maturity, but require NGF/TrkA signaling for survival during embryonic development. These neurons must either depend on NGF via a novel, indirect mechanism or alternatively, downregulate TrkA expression during development.

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J Neurosci. 1995 Sep 1; 15(9): 5929–5942.

https://doi.org/10.1523/JNEUROSCI.15-09-05929.1995

PMCID: PMC6577670

PMID: 7666178

Non-TrkA-expressing small DRG neurons are lost in TrkA deficient mice

I Silos-Santiago, DC Molliver, S Ozaki, RJ Smeyne, AM Fagan, M Barbacid, and WD Snider

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Abstract

Experiments over the past decade in which NGF/TrkA signaling has been abolished by antibodies or targeted gene mutations have shown that 70- 85% of dorsal root ganglion (DRG) neurons require NGF for survival during development. There is consensus that many of the NGF-dependent neurons are small-diameter, peptidergic neurons subserving nociception. These neurons express the signaling receptor for NGF, TrkA. There is a major discrepancy, however, between the percentage of DRG neurons which require NGF for survival (70–85%) and percentage of DRG neurons expressing TrkA receptors (40–50%). The identity of these non-TrkA expressing, NGF-dependent neurons has not been established. A candidate group is a population of small DRG neurons with unmyelinated axons which bind BSI isolectins from the plant, Bandeiraea simplicifolia. We show here that most of these BSI-binding DRG neurons do not express TrkA in adult mice. However, in mutant mice in which NGF/TrkA signaling has been abolished by inactivation of the trkA gene, BSI-staining in the DRG and dorsal horn is completely eliminated. BSI-binding DRG cells are thus the first identified neuronal population in which cells do not express TrkA in maturity, but require NGF/TrkA signaling for survival during embryonic development. These neurons must either depend on NGF via a novel, indirect mechanism or alternatively, downregulate TrkA expression during development.

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Proteins in UniProt (3)

Peptidase S1 domain-containing protein(UniProt - A0A1R3UGK0)
Kallikrein 1-related peptidase-like b4(UniProt - P00757)
High affinity nerve growth factor receptor(UniProt - Q3UFB7)

Mouse Genome Informatics (MGI)

http://www.informatics.jax.org/reference/7666178

Funding

Funders who supported this work.

NINDS NIH HHS (2)

Grant ID: R01 NS31768
8 publications
Grant ID: NS17763
22 publications

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