Developmental patterns of protein expression in photoreceptors implicate distinct environmental versus cell-intrinsic mechanisms

P.T. JOHNSON; R.R. WILLIAMS; B.E. REESE

doi:10.1017/S0952523801181150

Abstract

The present study has examined the spatial and temporal expression patterns of various proteins associated with the structure and function of mature photoreceptor outer segments in the developing ferret's retina using immunocytochemistry and RT-PCR. One set of proteins, including rod opsin, arrestin, and recoverin, was detected progressively in photoreceptors as they became postmitotic, being expressed well before the differentiation of outer segments. A second set of proteins, including β- and γ-transducin, cGMP-phosphodiesterase, phosducin, rhodopsin kinase, rod cGMP-gated cation channel protein, and peripherin, displayed a contrasting temporal onset and pattern of spatial emergence. These latter proteins first became detectable either shortly before or coincident with outer segment formation, and were expressed simultaneously in both older and younger photoreceptor cells. A third set, the short wavelength-sensitive (SWS) and medium wavelength-sensitive (MWS) cone opsin proteins, was the last to be detected, but materialized in a spatio-temporal pattern reminiscent of the neurogenetic gradient of the cones. These different spatial and temporal patterns indicate that cellular maturation must play a primary role in regulating the onset of expression of some of these proteins, while extrinsic signals must act to coordinate the expression of other proteins across photoreceptors of different ages.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Milam, Ann H. Rose, Linda Cideciyan, Artur V. Barakat, Mark R. Tang, Wai-Xing Gupta, Nisha Aleman, Tomas S. Wright, Alan F. Stone, Edwin M. Sheffield, Val C. and Jacobson, Samuel G. 2002. The nuclear receptor NR2E3 plays a role in human retinal photoreceptor differentiation and degeneration . Proceedings of the National Academy of Sciences, Vol. 99, Issue. 1, p. 473.

Glösmann, Martin and Ahnelt, Peter K 2002. A mouse-like retinal cone phenotype in the Syrian hamster: S opsin coexpressed with M opsin in a common cone photoreceptor. Brain Research, Vol. 929, Issue. 1, p. 139.

Fulton, Anne B. and Hansen, Ronald M. 2003. Recovery of the rod photoresponse in infant rats. Vision Research, Vol. 43, Issue. 28, p. 3081.

Reese, Benjamin E. 2004. The roots of visual awareness: a festschrift in honour of Alan Cowey. Vol. 144, Issue. , p. 1.

Blackshaw, Seth Harpavat, Sanjiv Trimarchi, Jeff Cai, Li Huang, Haiyan Kuo, Winston P Weber, Griffin Lee, Kyungjoon Fraioli, Rebecca E Cho, Seo-Hee Yung, Rachel Asch, Elizabeth Ohno-Machado, Lucila Wong, Wing H Cepko, Constance L and William Harris 2004. Genomic Analysis of Mouse Retinal Development. PLoS Biology, Vol. 2, Issue. 9, p. e247.

Akerman, Colin J. Grubb, Matthew S. and Thompson, Ian D. 2004. Spatial and Temporal Properties of Visual Responses in the Thalamus of the Developing Ferret. The Journal of Neuroscience, Vol. 24, Issue. 1, p. 170.

Bradford, Rebecca L. Wang, Chenwei Zack, Donald J. and Adler, Ruben 2005. Roles of cell-intrinsic and microenvironmental factors in photoreceptor cell differentiation. Developmental Biology, Vol. 286, Issue. 1, p. 31.

Adler, Ruben 2005. Challenges in the study of neuronal differentiation: A view from the embryonic eye. Developmental Dynamics, Vol. 234, Issue. 3, p. 454.

Rapaport, David H. 2006. Retinal Development. p. 30.

Zhang, Ling-Li Fina, Marie E. and Vardi, Noga 2006. Regulation of KCC2 and NKCC during development: Membrane insertion and differences between cell types. The Journal of Comparative Neurology, Vol. 499, Issue. 1, p. 132.

Liu, Q. Frey, R.A. Babb-Clendenon, S.G. Liu, B. Francl, J. Wilson, A.L. Marrs, J.A. and Stenkamp, D.L. 2007. Differential expression of photoreceptor-specific genes in the retina of a zebrafish cadherin2 mutant glass onion and zebrafish cadherin4 morphants. Experimental Eye Research, Vol. 84, Issue. 1, p. 163.

Adler, Ruben and Raymond, Pamela A. 2008. Have we achieved a unified model of photoreceptor cell fate specification in vertebrates?. Brain Research, Vol. 1192, Issue. , p. 134.

Adler, Ruben 2008. Recent Advances in Retinal Degeneration. Vol. 613, Issue. , p. 3.

Wahlin, Karl J. Moreira, Ernesto F. Huang, Hu Yu, Nancy and Adler, Ruben 2008. Molecular dynamics of photoreceptor synapse formation in the developing chick retina. Journal of Comparative Neurology, Vol. 506, Issue. 5, p. 822.

Fulton, Anne B. Hansen, Ronald M. Moskowitz, Anne and Akula, James D. 2009. The neurovascular retina in retinopathy of prematurity. Progress in Retinal and Eye Research, Vol. 28, Issue. 6, p. 452.

Zabouri, N. Bouchard, J.‐F. and Casanova, C. 2011. Cannabinoid receptor type 1 expression during postnatal development of the rat retina. Journal of Comparative Neurology, Vol. 519, Issue. 7, p. 1258.

Beetz, Nadine and Hein, Lutz 2011. The physiological roles of phosducin: from retinal function to stress-dependent hypertension. Cellular and Molecular Life Sciences, Vol. 68, Issue. 4, p. 599.

Zabouri, N. Ptito, M. Casanova, C. and Bouchard, J.-F. 2011. Fatty acid amide hydrolase expression during retinal postnatal development in rats. Neuroscience, Vol. 195, Issue. , p. 145.

Article contents

Developmental patterns of protein expression in photoreceptors implicate distinct environmental versus cell-intrinsic mechanisms

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Developmental patterns of protein expression in photoreceptors implicate distinct environmental versus cell-intrinsic mechanisms

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests