Heliyon (Mar 2020)

Age-dependent increase in Thy-1 protein in the rat supraoptic nucleus

  • Jason M. Askvig,
  • Talia S. Dalzell,
  • Nadia Toumeh,
  • Phillip T. Kuball,
  • Sara T. Whiteman,
  • Erik W. Bye,
  • Marissa J. Andersen,
  • Michael G. McCarthy,
  • Riley E. Irmen,
  • Sydney H. Bexell,
  • Molly M. Benolken,
  • Brooke L. Maruska,
  • Shelby E. Nordmann

Journal volume & issue
Vol. 6, no. 3
p. e03501

Abstract

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Mature mammalian CNS neurons often do not recover successfully following injury. To this point, unilateral lesion of the hypothalamo-neurohypophysial tract results in collateral sprouting from uninjured axons of the supraoptic nucleus (SON) in 35-day-old but not in 125-day-old rats. Thus, it appears that there are age-related changes within the SON that preclude the older rat from recovering following axotomy. We hypothesize that the intrinsic capacity for axon reorganization may depend, in part, on age-related alterations in cell adhesion molecules that allow normal astrocyte-neuron interactions in the SON. In support of our hypothesis, numerous reports have shown that Thy-1 is increased in neurons at the cessation of axon outgrowth. Therefore, we compared protein levels of Thy-1 and the Thy-1 interacting integrin subunits, alpha-v (αv), beta-3 (ß3), and beta-5 (ß5), in 35- and 125-day-old SON using western blot analysis. Our results demonstrated that there was significantly more Thy-1 protein in the 125-day-old SON compared to 35-day-old SON, but no change in the protein levels of the integrin subunits. Furthermore, we localized Thy-1-, αv integrin-, ß3 integrin-, and ß5 integrin-immunoreactivity to both neurons and astrocytes in the SON. Altogether, our results suggest that the observed increase in Thy-1 protein levels in the SON with age may contribute to an environment that prevents collateral axonal sprouting in the SON of the 125-day-old rat.

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