Abstract
Background. To achieve a better understanding of the repertoire of receptor tyrosine kinases (RTKs) in adult retinal ganglion cells (RGCs) we performed polymerase chain reaction (PCR), using degenerate primers directed towards conserved sequences in the tyrosine kinase domain, on cDNA from isolated single RGCs univocally identified by retrograde tracing from the superior colliculi.Results. All the PCR-amplified fragments of the expected sizes were sequenced, and 25% of them contained a tyrosine kinase domain. These were: Axl, Csf-1R, Eph A4, Pdgfrβ, Ptk7, Ret, Ros, Sky, TrkB, TrkC, Vegfr-2, and Vegfr-3. Non-RTK sequences were Jak1 and 2. Retinal expression of Axl, Csf-1R, Pdgfrβ, Ret, Sky, TrkB, TrkC, Vegfr-2, and Vegfr-3, as well as Jak1 and 2, was confirmed by PCR on total retina cDNA. Immunodetection of Csf-1R, Pdgfrα/β, Ret, Sky, TrkB, and Vegfr-2 on retrogradely traced retinas demonstrated that they were expressed by RGCs. Co-localization of Vegfr-2 and Csf-1R, of Vegfr-2 and TrkB, and of Csf-1R and Ret in retrogradely labelled RGCs was shown. The effect of optic nerve transection on the mRNA level of Pdgfrβ, Csf-1R, Vegfr-2, Sky, and Axl, and of the Axl ligands Gas6 and ProteinS, was analysed. These analyses show transection-induced changes in Axl and ProteinS mRNA levels.Conclusions. The repertoire of RTKs expressed by RGCs is more extensive than previously anticipated. Several of the receptors found in this study, including Pdgfrβ, Csf-1R, Vegfr-2, Sky, and Axl, and their ligands, have not previously been primarily associated with retinal ganglion cells.
Highlights
To achieve a better understanding of the repertoire of receptor tyrosine kinases (RTKs) in adult retinal ganglion cells (RGCs) we performed polymerase chain reaction (PCR), using degenerate primers directed towards conserved sequences in the tyrosine kinase domain, on cDNA from isolated single RGCs univocally identified by retrograde tracing from the superior colliculi
To identify RTKs expressed by RGCs we used degenerate primer PCR directed towards conserved sequences in the tyrosine kinase domain (Figure 1A)
Both as controls and as part of the experiment, specific primers to several genes that are expressed by all cells (Gapdh, b-actin), in RGCs TrkB, Ret [24], as well as to genes not being expressed by RGCs (TrkA, rhodopsin), were included in the analysis (Table IV)
Summary
To achieve a better understanding of the repertoire of receptor tyrosine kinases (RTKs) in adult retinal ganglion cells (RGCs) we performed polymerase chain reaction (PCR), using degenerate primers directed towards conserved sequences in the tyrosine kinase domain, on cDNA from isolated single RGCs univocally identified by retrograde tracing from the superior colliculi. All the PCR-amplified fragments of the expected sizes were sequenced, and 25% of them contained a tyrosine kinase domain These were: Axl, Csf-1R, Eph A4, Pdgfrb, Ptk, Ret, Ros, Sky, TrkB, TrkC, Vegfr-2, and Vegfr-3. Retinal expression of Axl, Csf-1R, Pdgfrb, Ret, Sky, TrkB, TrkC, Vegfr-2, and Vegfr-3, as well as Jak and 2, was confirmed by PCR on total retina cDNA. Single and double gene knock-out of members of the Axl, Sky/Tyro-3, Mer-RTK subfamily have mild phenotypes, while the triple mutant exhibited increased apoptosis and neuronal degeneration [13,14] This suggests that central neurons have the capacity to utilize several factors, and certain neurons may even be dependent on several factors for their normal development and maintenance [15]
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