Kinetics of bleaching and regeneration of rhodopsin in abnormal (RCS) and normal albino rats in vivo

Abstract

1. Rhodopsin concentration has been measured by the method of densitometry in retinae of rats with inherited retinal dystrophy (RCS) raised in darkness and compared with that of normal rats similarly reared. 2. In both RCS and normal rats the fraction of rhodopsin bleached is always directly proportional to the photon content of the light, I.t, where I is the light intensity in effective quanta (500 nm) cm-2 sec-1 and t is the duration of the bleaching exposure in seconds. 3. Rhodopsin photosensitivity for bleaching is slightly higher in RCS rats than in normals (2.3 (10)-16 cm2 chromophore-1 compared with 1.3 (10)-16 cm2 chromophore-1). 4. Rhodopsin regeneration in the dark in both RCS and normal rats cannot be described by the kinetics of a simple monomolecular chemical reaction. 5. Following 5 min bleaches, the regeneration rate becomes slower as the preceding bleach is made stronger. Regeneration in the dark is significantly faster in the RCS rats than in the normal ones. 6. In normal rats, after a full bleach, rhodopsin regenerates back to the dark-adapted level within 3--4 hr. In RCS rats rhodopsin regenerates to reach a plateau level, below the previous dark-adapted level, that lasts for several hours. 7. The faction of total rhodopsin that can regenerate gradually declines with age until in 70 days old RCS rats no rhodopsin regeneration can be measured by the ensitometer. However, total rhodopsin density (fully bleached-dark-adapted) is still close to normal.