Grant S. Nichols scite author profile

Previous studies demonstrated that the dopamine- and adenosine 3',5'-monophosphate-regulated phosphatase inhibitor known as "DARPP-32" is present in rat, cat, monkey, and human retinas. We have followed up these studies by asking what specific cell subtypes contain DARPP-32. Using a polyclonal antibody directed against a peptide sequence of human DARPP-32, we immunostained adult rat retinas that were either transretinally sectioned or flat mounted and found DARPP-32-like immunoreactivity in some cells of the amacrine cell layer across the entire retinal surface. We report here, based on the shape and spatial distribution of these cells, their staining by an anti-parvalbumin antibody, and their juxtaposition with processes containing tyrosine hydroxylase, that DARPP-32-like immunoreactivity is present in AII amacrine cells of rat retina. These results suggest that the response of AII amacrine cells to dopamine is not mediated as simply as previously supposed.

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Input clustering and the microscale structure of local circuits

DeBello

McBride

Nichols

et al. 2014

Front. Neural Circuits

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The recent development of powerful tools for high-throughput mapping of synaptic networks promises major advances in understanding brain function. One open question is how circuits integrate and store information. Competing models based on random vs. structured connectivity make distinct predictions regarding the dendritic addressing of synaptic inputs. In this article we review recent experimental tests of one of these models, the input clustering hypothesis. Across circuits, brain regions and species, there is growing evidence of a link between synaptic co-activation and dendritic location, although this finding is not universal. The functional implications of input clustering and future challenges are discussed.

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Utility of Electromyography for Nerve Root Monitoring During Spinal Surgery

Nichols¹,

Manafov²

2012

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Bidirectional Regulation of the cAMP Response Element Binding Protein Encodes Spatial Map Alignment in Prism-Adapting Barn Owls

Nichols

DeBello²

2008

J. Neurosci.

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The barn owl midbrain contains mutually aligned maps of auditory and visual space. Throughout life, map alignment is maintained through the actions of an instructive signal that encodes the magnitude of auditory-visual mismatch. The intracellular signaling pathways activated by this signal are unknown. Here we tested the hypothesis that CREB (cAMP response element binding protein) provides a cell-specific readout of instructive information. Owls were fitted with prismatic or control spectacles and provided rich auditory-visual experience - hunting live mice. CREB activation was analyzed within 30 minutes of hunting using phosphorylation state-specific (pCREB) and CREB antibodies, confocal imaging and immunofluorescence measurements at individual cell nuclei. In control owls or prism-adapted owls, which experience small instructive signals, the frequency distributions of pCREB/CREB values obtained for cell nuclei within the external nucleus of the inferior colliculus (ICX) were unimodal. In contrast, in owls adapting to prisms or re-adapting to normal conditions, the distributions were bimodal: certain cells had received a signal that positively regulated CREB, and by extension, transcription of CREB-dependent genes, while others a signal that negatively regulated it. These changes were restricted to the sub-region of the inferior colliculus that received optically displaced input, the rostral ICX, and not evident in the caudal ICX or central nucleus. Finally, the topographic pattern of CREB regulation was patchy, not continuous, as expected from the actions of a topographically precise signal encoding discrete events. These results support a model in which the magnitude of CREB activation within individual cells provides a readout of the instructive signal that guides plasticity and learning.

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A one‐carbon modification of protein lysine associated with elevated oxidative stress in human substantia nigra

Floor¹,

Maples²,

Rankin³

et al. 2006

Journal of Neurochemistry

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We describe for the first time a naturally occurring lysine modification that is converted to methyllysine by reduction with sodium borohydride. This modification is 1.7 times as abundant in soluble proteins from human substantia nigra pars compacta as in proteins from other brain regions, possibly as a result of elevated oxidative stress in the nigra. Proteins from cultured PC12 cells exposed to oxidative stress conditions also contain elevated levels of this lysine modification. The abundance of the naturally occurring modification is roughly 0.08 nmoles/mg protein in either unstressed brain or PC12 cells. Modification levels remain stable in isolated proteins incubated for 2 h at 37°C in pH 7 buffer. We propose that the endogenous modification is the lysine Schiff base, e-N-methylenelysine, and that lysine modifications may result from a reaction with formaldehyde in vivo. Rat brain contains 60 nmoles/g wet weight of formaldehyde, which probably includes both free and reversibly bound forms. Adding 35 lM HCHO to PC12 cell growth medium introduces methylenelysine modifications in cell proteins and impairs cell viability. The existence of this posttranslational modification suggests new mechanisms of oxidative stress that may contribute to tissue degeneration, including loss of nigral dopamine neurons during normal aging and in Parkinson's disease.

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Grant S. Nichols

DARPP‐32‐like immunoreactivity in AII amacrine cells of rat retina

Input clustering and the microscale structure of local circuits

Utility of Electromyography for Nerve Root Monitoring During Spinal Surgery

Bidirectional Regulation of the cAMP Response Element Binding Protein Encodes Spatial Map Alignment in Prism-Adapting Barn Owls

A one‐carbon modification of protein lysine associated with elevated oxidative stress in human substantia nigra

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