Abstract
ABSTRACTBeyond its role in patterning the neural tube during embryogenesis, additional functions of Sonic hedgehog (Shh) in post-embryonic and mature brains have been coming into focus. However, the question of the abundance of endogenous Shh – the ligand of the signaling pathway – and its changes over time in post-embryonic and mature brains are less well understood. Here we find that while the amounts of Shh transcript and protein in rat brains are nearly undetectable at birth, they increase continuously during postnatal development and remain at readily detectable levels in young adults. This developmental age-associated increase in Shh levels is also seen in hippocampal neurons grown in culture, in which very young neurons produce minimal amounts of Shh protein but, as neurons grow and form synapses, the amounts of Shh increase significantly. Using immunolabeling with antibodies to different residues of Shh, we observed that the N-terminal fragment and the C-terminal fragment of Shh are present in hippocampal neurons, and that these two Shh forms co-exist in most compartments of the neuron. Our findings provide a better understanding of Shh expression in the brain, laying the groundwork for further comprehending the biogenesis of Shh protein in the young and mature brain and neurons.
Highlights
The Sonic hedgehog (Shh) signaling pathway regulates diverse cellular processes (Ingham and McMahon, 2001)
Endogenous Shh expression levels in the rat brain during embryonic and postnatal development Starting with Shh mRNA, we measured its expression levels in the rat cortex from embryonic day 14 (e14) to postnatal day 30 (p30) using quantitative RT-PCR
Shh protein (ShhN) protein level in hippocampal neurons Having found progressively increased expression of endogenous ShhN in the hippocampus during postnatal development, we examined the abundance of this protein in hippocampal neuronal cultures, a model system in which developmental stages of neurons are well described (Dotti et al, 1998; Goslin and Banker, 1989)
Summary
The Sonic hedgehog (Shh) signaling pathway regulates diverse cellular processes (Ingham and McMahon, 2001). Besides its best-characterized role in patterning the embryonic neural tube (Chiang et al, 1996; Dessaud et al, 2008), there is accumulating evidence that Shh signaling continues to exist post-embryonically and carries out a range of functions. Shh is known as a mitogen for different populations of neural precursors or progenitor cells (Wechsler-Reya and Scott, 1999; Lai et al, 2003; Palma et al, 2005; Han et al, 2008). Shh controls specific properties of astrocytes in the brain (Garcia et al, 2010; Farmer et al, 2016).
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