Yixin Ben scite author profile

Using a variety of double and triple labeling techniques, we have reevaluated the death of retinal neurons in a mouse model of hereditary glaucoma. Cell-specific markers and total neuron counts revealed no cell loss in any retinal neurons other than the ganglion cells. Within the limits of our ability to define cell types, no group of ganglion cells was especially vulnerable or resistant to degeneration. Retrograde labeling and neurofilament staining showed that axonal atrophy, dendritic remodeling, and somal shrinkage (at least of the largest cell types) precedes ganglion cell death in this glaucoma model. Regions of cell death or survival radiated from the optic nerve head in fan-shaped sectors. Collectively, the data suggest axon damage at the optic nerve head as an early lesion, and damage to axon bundles would cause this pattern of degeneration. However, the architecture of the mouse eye seems to preclude a commonly postulated source of mechanical damage within the nerve head.

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Organotypic Culture of Physiologically Functional Adult Mammalian Retinas

Koizumi

Zeck

Ben

et al. 2007

PLoS ONE

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BackgroundThe adult mammalian retina is an important model in research on the central nervous system. Many experiments require the combined use of genetic manipulation, imaging, and electrophysiological recording, which make it desirable to use an in vitro preparation. Unfortunately, the tissue culture of the adult mammalian retina is difficult, mainly because of the high energy consumption of photoreceptors.Methods and FindingsWe describe an interphase culture system for adult mammalian retina that allows for the expression of genes delivered to retinal neurons by particle-mediated transfer. The retinas retain their morphology and function for up to six days— long enough for the expression of many genes of interest—so that effects upon responses to light and receptive fields could be measured by patch recording or multielectrode array recording. We show that a variety of genes encoding pre- and post-synaptic marker proteins are localized correctly in ganglion and amacrine cells.ConclusionsIn this system the effects on neuronal function of one or several introduced exogenous genes can be studied within intact neural circuitry of adult mammalian retina. This system is flexible enough to be compatible with genetic manipulation, imaging, cell transfection, pharmacological assay, and electrophysiological recordings.

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CD15 immunoreactive amacrine cells in the mouse retina

Jakobs

Ben

2003

J of Comparative Neurology

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The mouse retina has become an important model in vision research, mainly because of the wide availability of transgenic animals. In order to study cell function and connectivity in the inner retina, antibodies that differentially stain one cell type, or a small number of cell types, are helpful as markers. Here we characterize the CD15 (3[alpha1-3]-fucosyl-N-acetyl-lactosamine)-positive cells in the mouse retina using immunofluorescence confocal microscopy and reverse-transcription polymerase chain reaction. CD15 immunoreactivity was observed in two distinct types of amacrine cells and, faintly, in some cone bipolar cells. Type I CD15+ amacrine cells are GABAergic wide-field cells that stratify in lamina 3 and 4/5 of the inner plexiform layer. Type II CD15+ amacrine cells are also GABAergic and costratify with the dopaminergic tyrosine hydroxylase-positive cells in lamina 1 of the inner plexiform layer. The densities of types I and II CD15+ amacrine cells in mid-periphery were 258 cells/mm(2) and 274 cells/mm(2). Double labeling with several other markers for amacrine cell types showed that neither type belongs to another previously identified subpopulation of amacrine cells. Single-cell RT-PCR showed that CD15+ amacrine cells coexpress several AMPA receptors - GluR1, GluR2, and GluR4 being the most common combination.

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Yixin Ben

Retinal ganglion cell degeneration is topological but not cell type specific in DBA/2J mice

Organotypic Culture of Physiologically Functional Adult Mammalian Retinas

CD15 immunoreactive amacrine cells in the mouse retina

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