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Literature DB >> 22072661

Melanopsin-positive intrinsically photosensitive retinal ganglion cells: from form to function.

Tiffany M Schmidt¹, Michael Tri H Do, Dennis Dacey, Robert Lucas, Samer Hattar, Anna Matynia.

Abstract

Melanopsin imparts an intrinsic photosensitivity to a subclass of retinal ganglion cells (ipRGCs). Generally thought of as irradiance detectors, ipRGCs target numerous brain regions involved in non-image-forming vision. ipRGCs integrate their intrinsic, melanopsin-mediated light information with rod/cone signals relayed via synaptic connections to influence light-dependent behaviors. Early observations indicated diversity among these cells and recently several specific subtypes have been identified. These subtypes differ in morphological and physiological form, controlling separate functions that range from biological rhythm via circadian photoentrainment, to protective behavioral responses including pupil constriction and light avoidance, and even image-forming vision. In this Mini-Symposium review, we will discuss some recent findings that highlight the diversity in both form and function of these recently discovered atypical photoreceptors.

Entities: Chemical

Mesh：

Substances：
Rod Opsins
melanopsin

Year: 2011 PMID： 22072661 PMCID： PMC3267581 DOI： 10.1523/JNEUROSCI.4132-11.2011

Source DB: PubMed Journal: J Neurosci ISSN： 0270-6474 Impact factor: 6.167

63 in total

1. Morphology and mosaics of melanopsin-expressing retinal ganglion cell types in mice.

Authors: David M Berson; Ana Maria Castrucci; Ignacio Provencio
Journal: J Comp Neurol Date: 2010-07-01 Impact factor: 3.215

2. Melanopsin in cells of origin of the retinohypothalamic tract.

Authors: J J Gooley; J Lu; T C Chou; T E Scammell; C B Saper
Journal: Nat Neurosci Date: 2001-12 Impact factor: 24.884

Review 3. Intrinsically photosensitive retinal ganglion cells.

Authors: Michael Tri Hoang Do; King-Wai Yau
Journal: Physiol Rev Date: 2010-10 Impact factor: 37.312

4. The primary visual pathway in humans is regulated according to long-term light exposure through the action of a nonclassical photopigment.

Authors: M W Hankins; R J Lucas
Journal: Curr Biol Date: 2002-02-05 Impact factor: 10.834

5. Melanopsin forms a functional short-wavelength photopigment.

Authors: Lucy A Newman; Marquis T Walker; R Lane Brown; Thomas W Cronin; Phyllis R Robinson
Journal: Biochemistry Date: 2003-11-11 Impact factor: 3.162

6. Retinal projections in mice with inherited retinal degeneration: implications for circadian photoentrainment.

Authors: I Provencio; H M Cooper; R G Foster
Journal: J Comp Neurol Date: 1998-06-15 Impact factor: 3.215

7. Role of calcitonin gene-related peptide in light-aversive behavior: implications for migraine.

Authors: Ana Recober; Adisa Kuburas; Zhongming Zhang; John A Wemmie; Michael G Anderson; Andrew F Russo
Journal: J Neurosci Date: 2009-07-08 Impact factor: 6.167

8. Melanopsin ganglion cells use a membrane-associated rhabdomeric phototransduction cascade.

Authors: Dustin M Graham; Kwoon Y Wong; Peter Shapiro; Courtney Frederick; Kartik Pattabiraman; David M Berson
Journal: J Neurophysiol Date: 2008-02-27 Impact factor: 2.714

9. Dissecting a role for melanopsin in behavioural light aversion reveals a response independent of conventional photoreception.

Authors: Ma'ayan Semo; Carlos Gias; Ahmad Ahmado; Eriko Sugano; Annette E Allen; Jean M Lawrence; Hiroshi Tomita; Peter J Coffey; Anthony A Vugler
Journal: PLoS One Date: 2010-11-29 Impact factor: 3.240

10. Photon capture and signalling by melanopsin retinal ganglion cells.

Authors: Michael Tri H Do; Shin H Kang; Tian Xue; Haining Zhong; Hsi-Wen Liao; Dwight E Bergles; King-Wai Yau
Journal: Nature Date: 2008-12-31 Impact factor: 49.962

84 in total

Review 1. Diverse Cell Types, Circuits, and Mechanisms for Color Vision in the Vertebrate Retina.

Authors: Wallace B Thoreson; Dennis M Dacey
Journal: Physiol Rev Date: 2019-07-01 Impact factor: 37.312

2. Restoration of retinal structure and function after selective photocoagulation.

Authors: Alexander Sher; Bryan W Jones; Philip Huie; Yannis M Paulus; Daniel Lavinsky; Loh-Shan S Leung; Hiroyuki Nomoto; Corinne Beier; Robert E Marc; Daniel Palanker
Journal: J Neurosci Date: 2013-04-17 Impact factor: 6.167

3. T-box transcription regulator Tbr2 is essential for the formation and maintenance of Opn4/melanopsin-expressing intrinsically photosensitive retinal ganglion cells.

Authors: Chai-An Mao; Hongyan Li; Zhijing Zhang; Takae Kiyama; Satchidananda Panda; Samer Hattar; Christophe P Ribelayga; Stephen L Mills; Steven W Wang
Journal: J Neurosci Date: 2014-09-24 Impact factor: 6.167

4. Phosphorylated α-synuclein-immunoreactive retinal neuronal elements in Parkinson's disease subjects.

Authors: Thomas G Beach; Jeremiah Carew; Geidy Serrano; Charles H Adler; Holly A Shill; Lucia I Sue; Marwan N Sabbagh; Haruhiko Akiyama; Nicolás Cuenca
Journal: Neurosci Lett Date: 2014-04-28 Impact factor: 3.046

5. Single-cell RNA-Seq of Defined Subsets of Retinal Ganglion Cells.

Authors: Lauren A Laboissonniere; Takuma Sonoda; Seul Ki Lee; Jeffrey M Trimarchi; Tiffany M Schmidt
Journal: J Vis Exp Date: 2017-05-22 Impact factor: 1.355

6. Neuropsin (OPN5)-mediated photoentrainment of local circadian oscillators in mammalian retina and cornea.

Authors: Ethan D Buhr; Wendy W S Yue; Xiaozhi Ren; Zheng Jiang; Hsi-Wen Rock Liao; Xue Mei; Shruti Vemaraju; Minh-Thanh Nguyen; Randall R Reed; Richard A Lang; King-Wai Yau; Russell N Van Gelder
Journal: Proc Natl Acad Sci U S A Date: 2015-09-21 Impact factor: 11.205

Review 10. Wiring patterns in the mouse retina: collecting evidence across the connectome, physiology and light microscopy.

Authors: Felice A Dunn; Rachel O L Wong
Journal: J Physiol Date: 2014-08-28 Impact factor: 5.182