March 2012
Volume 53, Issue 14
Free
ARVO Annual Meeting Abstract  |   March 2012
Diffusely-stratified OFF Cone Bipolar Cell Inputs to Amacrine Cells in the ON Inner Plexiform Layer
Author Affiliations & Notes
  • J Scott Lauritzen
    Ophthalmology & Vision Sciences - Sch of Med,
    University of Utah, Salt Lake City, Utah
  • Bryan W. Jones
    Ophthalmology & Vision Sciences - Sch of Med,
    University of Utah, Salt Lake City, Utah
  • Carl B. Watt
    Ophthalmology & Vision Sciences - Sch of Med,
    University of Utah, Salt Lake City, Utah
  • Shoeb Mohammed
    School of Computing,
    University of Utah, Salt Lake City, Utah
  • James R. Anderson
    Ophthalmology & Vision Sciences - Sch of Med,
    University of Utah, Salt Lake City, Utah
  • Robert E. Marc
    Ophthalmology & Vision Sciences - Sch of Med,
    University of Utah, Salt Lake City, Utah
  • Footnotes
    Commercial Relationships  J Scott Lauritzen, None; Bryan W. Jones, None; Carl B. Watt, None; Shoeb Mohammed, None; James R. Anderson, None; Robert E. Marc, Signature Immunologics, Inc. (E)
  • Footnotes
    Support  NIH EY02576 (RM), NIH EY015128 (RM), NSF 0941717 (RM), NIH EY014800 Vision Core (RM), RPB award to Moran Eye Center, RPB Career Development Award (BWJ), Thome Foundation grant for AMD Research (BWJ)
Investigative Ophthalmology & Visual Science March 2012, Vol.53, 3159. doi:
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    • Get Citation

      J Scott Lauritzen, Bryan W. Jones, Carl B. Watt, Shoeb Mohammed, James R. Anderson, Robert E. Marc; Diffusely-stratified OFF Cone Bipolar Cell Inputs to Amacrine Cells in the ON Inner Plexiform Layer. Invest. Ophthalmol. Vis. Sci. 2012;53(14):3159.

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      © ARVO (1962-2015); The Authors (2016-present)

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Abstract

Purpose: : Current tenets assert that the mono-stratified bipolar cells (BCs) of the mammalian retina require multi-stratified amacrine cells (ACs) to mediate ON-OFF crosstalk, since ON and OFF cone bipolar cell (ON CBC and OFF CBC) axonal arbors putatively occupy distinct domains in the inner plexiform layer (IPL). Nonetheless, recent studies demonstrated the capacity of BCs to violate the mammalian IPL stratification rules, manifest as a subset of ON CBCs with synapses in the OFF IPL, and a subset of OFF CBCs with primary axons longer than some ON CBC primary axons (Dumitrescu et al. 2009. Ectopic retinal ON bipolar cell synapses in the OFF IPL. J Comp Neurol; Hoshi et al. 2009. ON inputs to the OFF layer. J Neurosci; Anderson et al. 2011. Exploring the retinal connectome. Mol Vis). Our goal was to identify a suspected population of diffusely-stratified OFF CBCs (dsOFF CBCs) that infiltrate the canonical ON IPL, confirm the comingling of ON and OFF CBC synapses in the ON IPL with automated transmission electron microscopy (ATEM), and identify the targets of the dsOFF CBC synapses in ON territory.

Methods: : BC networks in the ultrastructural rabbit retinal connectome RC1 were annotated with the Viking viewer, and explored via graph visualization of connectivity and 3D rendering (Anderson et al. 2011. The Viking Viewer. J Microscopy). Small molecule signals embedded in RC1, e.g. 4-aminobutyrate (y), glycine (G), and L-glutamate (E), combined with morphological reconstruction and connectivity analysis allow for robust BC classification.

Results: : A subset of glycine-negative OFF CBCs diffusely arborize more proximally into the IPL than their OFF CBC cohorts, where they comingle with ON CBC axonal arbors. These dsOFF CBCs form reciprocal synapses with mono- and multi-stratified GABAergic ACs (γACs) and glycinergic ACs (GACs) at the same IPL depth as synapses formed by nearest-neighbor ON CBCs. γAC and GAC targets of dsOFF CBCs also form reciprocal synapses with glycine-positive ON CBCs.

Conclusions: : dsOFF CBCs establish regions of mixed ON-OFF processing within the canonical ON IPL, where mono- and multi-stratified γACs and GACs facilitate within- and cross-channel inhibitory feedback. These results ambiguate the traditional IPL strata, legitimize partial dissolution of ON and OFF IPL segregation, and establish multi-stratified BCs as an additional means by which to achieve ON-OFF crosstalk in mammalian retina.

Keywords: bipolar cells • retinal connections, networks, circuitry • synapse 
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