The Acquisition of Target Dependence by Developing Rat Retinal Ganglion Cells

Similar to neurons in the peripheral nervous system, immature CNS-derived RGCs become dependent on target-derived neurotrophic support as their axons reach termination sites in the brain. To study the factors that influence this developmental transition we took advantage of the fact that rat RGCs ar...

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Published ineNeuro Vol. 2; no. 3; p. ENEURO.0044-14.2015
Main Authors Moses, Colette, Wheeler, Lachlan P G, LeVaillant, Chrisna J, Kramer, Anne, Ryan, Marisa, Cozens, Greg S, Sharma, Anil, Pollett, Margaret A, Rodger, Jennifer, Harvey, Alan R
Format Journal Article
LanguageEnglish
Published United States Society for Neuroscience 01.05.2015
Subjects
Medicin och hälsovetenskap
New Research
target dependence
retinal ganglion cells
programmed cell death
BDNF
neurotrophic factors
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Summary:Similar to neurons in the peripheral nervous system, immature CNS-derived RGCs become dependent on target-derived neurotrophic support as their axons reach termination sites in the brain. To study the factors that influence this developmental transition we took advantage of the fact that rat RGCs are born, and target innervation occurs, over a protracted period of time. Early-born RGCs have axons in the SC by birth (P0), whereas axons from late-born RGCs do not innervate the SC until P4-P5. Birth dating RGCs using EdU allowed us to identify RGCs (1) with axons still growing toward targets, (2) transitioning to target dependence, and (3) entirely dependent on target-derived support. Using laser-capture microdissection we isolated ∼34,000 EdU(+) RGCs and analyzed transcript expression by custom qPCR array. Statistical analyses revealed a difference in gene expression profiles in actively growing RGCs compared with target-dependent RGCs, as well as in transitional versus target-dependent RGCs. Prior to innervation RGCs expressed high levels of BDNF and CNTFR α but lower levels of neurexin 1 mRNA. Analysis also revealed greater expression of transcripts for signaling molecules such as MAPK, Akt, CREB, and STAT. In a supporting in vitro study, purified birth-dated P1 RGCs were cultured for 24-48 h with or without BDNF; lack of BDNF resulted in significant loss of early-born but not late-born RGCs. In summary, we identified several important changes in RGC signaling that may form the basis for the switch from target independence to dependence.
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This work was funded by the National Health and Medical Research Council (NHMRC; 634347) and NHMRC Senior Research Fellowship to J.R. with additional support from the Western Australia Neurotrauma Research Program (funded through the Road Trauma Trust Account). We thank Louise Cole at the Advanced Microscopy Facility and Donna Lai at the Molecular Biology Facility, Bosch Institute, University of Sydney. We also thank Marissa Penrose-Menz for assistance with figure preparation.
Author Contributions: A.R.H., J.R. designed research; C.M., L.P.G.W., A.K., C.J.LeV, M.R., A.R.H., M.A.P. performed research; C.M., L.P.G.W., C.J.LeV, A.K., M.R., G.S.C., A.S., J.R., A.R.H. analyzed data; A.R.H., J.R., C.M., L.P.G.W., A.S. wrote paper.
The authors declare no competing financial interests.
C.M. and L.P.G.W. contributed equally to this work.
ISSN:2373-2822
2373-2822
DOI:10.1523/ENEURO.0044-14.2015