Your search keyword '"Sher, Alexander"' showing total 3 results

1. Astrocytes mediate synapse elimination through MEGF10 and MERTK pathways

Author

Chung, Won-Suk, Clarke, Laura E, Wang, Gordon X, Stafford, Benjamin K, Sher, Alexander, Chakraborty, Chandrani, Joung, Julia, Foo, Lynette C, Thompson, Andrew, Chen, Chinfei, Smith, Stephen J, and Barres, Ben A

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Information and Computing Sciences, Neurosciences, Machine Learning, Underpinning research, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Aetiology, Neurological, Animals, Astrocytes, Brain, In Vitro Techniques, Lateral Thalamic Nuclei, Learning, Membrane Proteins, Mice, Mice, Transgenic, Neural Pathways, Phagocytosis, Proto-Oncogene Proteins, Receptor Protein-Tyrosine Kinases, Retina, Synapses, c-Mer Tyrosine Kinase, General Science & Technology

Abstract

To achieve its precise neural connectivity, the developing mammalian nervous system undergoes extensive activity-dependent synapse remodelling. Recently, microglial cells have been shown to be responsible for a portion of synaptic pruning, but the remaining mechanisms remain unknown. Here we report a new role for astrocytes in actively engulfing central nervous system synapses. This process helps to mediate synapse elimination, requires the MEGF10 and MERTK phagocytic pathways, and is strongly dependent on neuronal activity. Developing mice deficient in both astrocyte pathways fail to refine their retinogeniculate connections normally and retain excess functional synapses. Finally, we show that in the adult mouse brain, astrocytes continuously engulf both excitatory and inhibitory synapses. These studies reveal a novel role for astrocytes in mediating synapse elimination in the developing and adult brain, identify MEGF10 and MERTK as critical proteins in the synapse remodelling underlying neural circuit refinement, and have important implications for understanding learning and memory as well as neurological disease processes.

Published

2013

2. Functional connectivity in the retina at the resolution of photoreceptors

Author

Field, Greg D., Gauthier, Jeffrey L., Sher, Alexander, Greschner, Martin, Machado, Timothy A., Jepson, Lauren H., Shlens, Jonathon, Gunning, Deborah E., Mathieson, Keith, Dabrowski, Wladyslaw, Paninski, Liam, Litke, Alan M., and Chichilnisky, E.J.

Subjects

Neural circuitry -- Research -- Physiological aspects, Retina -- Properties -- Physiological aspects -- Research, Photoreceptors -- Research -- Physiological aspects, Color vision -- Physiological aspects -- Research, Environmental issues, Science and technology, Zoology and wildlife conservation

Abstract

To understand a neural circuit requires knowledge of its connectivity. Here we report measurements of functional connectivity between the input and ouput layers of the macaque retina at single-cell resolution and the implications of these for colour vision. Multi-electrode technology was used to record simultaneously from complete populations of the retinal ganglion cell types (midget, parasol and small bistratified) that transmit high-resolution visual signals to the brain. Fine-grained visual stimulation was used to identify the location, type and strength of the functional input of each cone photoreceptor to each ganglion cell. The populations of ON and OFF midget and parasol cells each sampled the complete population of long- and middle-wavelength-sensitive cones. However, only OFF midget cells frequently received strong input from short-wavelength-sensitive cones. ON and OFF midget cells showed a small non-random tendency to selectively sample from either long- or middle-wavelength-sensitive cones to a degree not explained by clumping in the cone mosaic. These measurements reveal computations in a neural circuit at the elementary resolution of individual neurons., Colour vision requires neural circuitry to compare signals from spectrally distinct cone types. For example, the signature of primate colour vision--red-green and blue-yellow colour opponency--implies that neural circuits pit signals [...]

Published

2010

3. Spatio-temporal correlations and visual signalling in a complete neuronal population

Author

Pillow, Jonathan W., Shlens, Jonathon, Paninski, Liam, Sher, Alexander, Litke, Alan M., Chichilnisky, E.J., and Simoncelli, Eero P.

Subjects

Cell physiology -- Research -- Physiological aspects, Vision -- Research -- Physiological aspects, Sensory receptors -- Research -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation, Physiological aspects, Research

Abstract

Statistical dependencies in the responses of sensory neurons govern both the amount of stimulus information conveyed and the means by which downstream neurons can extract it. Although a variety of [...]

Published

2008