PURPOSE: To investigate changes in percentage of tyrosine kinase (trk)A-, trkB-, and trkC-immunopositive ((+)) retinal ganglion cells (RGCs) at various times after optic nerve (ON) axotomy; the proportion of RGCs regenerating axons into peripheral nerve (PN) grafts that are trkA(+), trkB(+), and trkC(+); whether intravitreal PN-ON implants affect trk immunoreactivity; and the levels of trk mRNAs in ON-injured retinas. METHODS: The ON was transected intraorbitally. Proportions of trkA(+), trkB(+), and trkC(+) RGCs and levels of trk mRNAs were studied by using immunocytochemistry and Northern blot methods, respectively, in injured and RGC-regenerating retinas. RESULTS: In normal retinas, only small numbers of trkB(+) and trkC(+), but not trkA(+), RGCs were seen. The optic fiber layer was intensively immunolabeled with trkB. After ON injury, the proportions of trkA(+), trkB(+), and trkC(+) RGCs rapidly increased and reached their peaks by 3 to 5 days. During the next 3 weeks, the proportion of trkA(+) or trkB(+) RGCs gradually decreased, but the proportion of trkC(+) RGCs remained high. Intravitreal implants of PN+ON segments transiently but significantly suppressed injury-induced increases in all these trk(+) RGC proportions for approximately 5 days. In contrast, 3 days after ON injury, quantitative retinal expression of trkA mRNA, and to a lesser extent trkC mRNA, was downregulated, whereas trkB mRNA expression remained unaffected. Higher proportions of trkA(+) and trkB(+) RGCs and higher levels of all trk mRNAs were seen in regenerating RGCs and retinas, respectively. CONCLUSIONS: This study provides a kinetic analysis of expression of trk in RGCs and retinas after ON injury and during regeneration.
PURPOSE: To investigate changes in percentage of tyrosine kinase (trk)A-, trkB-, and trkC-immunopositive ((+)) retinal ganglion cells (RGCs) at various times after optic nerve (ON) axotomy; the proportion of RGCs regenerating axons into peripheral nerve (PN) grafts that are trkA(+), trkB(+), and trkC(+); whether intravitreal PN-ON implants affect trk immunoreactivity; and the levels of trk mRNAs in ON-injured retinas. METHODS: The ON was transected intraorbitally. Proportions of trkA(+), trkB(+), and trkC(+) RGCs and levels of trk mRNAs were studied by using immunocytochemistry and Northern blot methods, respectively, in injured and RGC-regenerating retinas. RESULTS: In normal retinas, only small numbers of trkB(+) and trkC(+), but not trkA(+), RGCs were seen. The optic fiber layer was intensively immunolabeled with trkB. After ON injury, the proportions of trkA(+), trkB(+), and trkC(+) RGCs rapidly increased and reached their peaks by 3 to 5 days. During the next 3 weeks, the proportion of trkA(+) or trkB(+) RGCs gradually decreased, but the proportion of trkC(+) RGCs remained high. Intravitreal implants of PN+ON segments transiently but significantly suppressed injury-induced increases in all these trk(+) RGC proportions for approximately 5 days. In contrast, 3 days after ON injury, quantitative retinal expression of trkA mRNA, and to a lesser extent trkC mRNA, was downregulated, whereas trkB mRNA expression remained unaffected. Higher proportions of trkA(+) and trkB(+) RGCs and higher levels of all trk mRNAs were seen in regenerating RGCs and retinas, respectively. CONCLUSIONS: This study provides a kinetic analysis of expression of trk in RGCs and retinas after ON injury and during regeneration.
Authors: Yujing Bai; Pauline Dergham; Hinyu Nedev; Jing Xu; Alba Galan; Jose Carlos Rivera; Shi ZhiHua; Hrishikesh M Mehta; Sang B Woo; Marinko V Sarunic; Kenneth E Neet; H Uri Saragovi Journal: J Biol Chem Date: 2010-10-13 Impact factor: 5.157
Authors: Yuqin Yin; Silmara De Lima; Hui-Ya Gilbert; Nicholas J Hanovice; Sheri L Peterson; Rheanna M Sand; Elena G Sergeeva; Kimberly A Wong; Lili Xie; Larry I Benowitz Journal: Restor Neurol Neurosci Date: 2019 Impact factor: 2.406