Purpose: To investigate the effect of retrograde tracing or axotomy on melanopsin mRNA expression and immunodetection in albino and pigmented rat retinas.
Methods: Groups were (1) intact-naïve retinas; (2) optic nerve crush (ONC) analyzed at 7 days (7d) or 2 months (2m); (3) Fluorogold (FG) tracing from the superior colliculi (SCi) analyzed at 7d or 2m; (4) tracing from the intact optic nerve (ON) with FG or hydroxystilbamidine methanesulfonate (OHSt), analyzed 3d later; and (5) sham tracing from the ON or sham surgery. Brn3a and melanopsin were double stained in whole mounts to quantify and assess the distribution of orthotopic and displaced Brn3a(+) retinal ganglion cells (Brn3a(+)RGCs) and melanopsin(+)RGCs (m(+)RGCs). Freshly dissected retinas were used for melanopsin mRNA quantitative PCR.
Results: Tracing from the SCi did not affect the number of Brn3a(+)RGCs or m(+)RGCs counted in pigmented rats. However, only 55% of m(+)RGCs were immunodetected in albinos at 7d, although by 2m the m(+)RGCs counts returned to normal. Optic nerve tracing had a more dramatic effect (38% or 77% of m(+)RGCs were immunodetected in albino or pigmented rats) that occurred irrespectively of the tracer (OHSt or FG). This effect was not observed in the sham groups. After ONC, Brn3a(+)RGCs decreased to 37% and 8% by 7d and 2m, respectively. Melanopsin (+)RGC counts diminished to 30% at 7d, but recovered to 49% of controls by 2m. Melanopsin mRNA was downregulated after ON tracing or 7d after ONC, but did not differ from intact values 2m after ONC.
Conclusions: Following ON injury or retrograde tracing there is a transient melanopsin downregulation that should be taken into account when assessing m(+)RGC survival.