Retinaldehyde-binding protein 1


Retinaldehyde-binding protein 1 also known as cellular retinaldehyde-binding protein is a 36-kD water-soluble protein that in humans is encoded by the RLBP1 gene.

Discovery

Cellular retinol binding protein was first discovered in 1973 from lung tissues by Bashor et al. There have been three cellular retinol binding protein categories discovered; Cellular retinol-binding protein, cellular retinoic acid-binding protein and cellular retinaldehyde-binding protein. CRALBP was first discovered in 1977, after it was purified from retina and retinal pigment epithelial cells.

Function

The cellular retinaldehyde-binding protein transports 11-cis-retinal as its physiological ligands. It plays a critical role as an 11-cis-retinal acceptor which facilitates the enzymatic isomerization of all 11-trans-retinal to 11-cis-retinal, in the isomerization of the rod and cones of the visual cycle.

Tissue distribution

CRALBP is not just found in retina and retinal pigment epithelial cells, but also expressed in other cell types. It is majorly found in the iris, cornea, ciliary epithelium, Muller cells, the pineal gland and oligodendrocytes of the optic nerve and brain. This protein is also found in other tissues than the aforementioned ones, however its function in cells not related to the eyes are not yet known

Clinical significance

When a visual pigment molecule in photoreceptors of mammalian rod and cone cells are triggered by photons of light, the pigment molecule is unable to detect an ensuing photon of light. All the retinal molecules in the chromophore of the visual pigment molecule, exist in the 11-trans-retinal state after stimulation by photons. RLBP1 helps in converting the 11-trans-retinal to the light sensitive 11-cis retinal. This process is a part of the visual cycle, which involves the expulsion of all 11-trans-retinal containing chromophores out of photoreceptors, and subsequent conversion to the 11-cis-retinal state in retinal pigment epithelial cells, for both rod and cone cells. The 11-cis chromophore is then signalled back into photoreceptor cells, where it undergoes fusion with a free opsin molecule to regenerate the visual pigment.

Gene location

The RLBP1 gene is located on human chromosome 15, specifically on 15q26. This gene was formerly believed to have 8 exons and 7 introns. However, Vogel et al. demonstrated that there are actually 8 introns on that chromosome. A gene element, upstream of the previously thought exon 1 was originally thought to be an enhancer. In reality, this assumed enhancer is the main promoter for this gene. The newly discovered intron 1 lies within and just near the end of the promoter region of RLBP1 gene.

Mutations and associated diseases

Mutations of RLBP1 include several diseases associated with vision. All of these are autosomal recessive including Bothnia dystrophy, retinitis punctata albescens, retinitis pigmentosa, Newfoundland rod-cone dystrophy and fundus albipunctatus. The characteristics of the associated diseases vary with age, severity and rate of progression. These all have similar qualities such as, photoreceptor deterioration and slower dark adaptation, ultimately leading to visual impairment, often leading to complete blindness.

Bothnia dystrophy

People suffering from Bothnia dystrophy have a homozygous C to T base pair substitution in exon 7 of the RLBP1 gene. This leads to a missense mutation from Arginine to Tryptophan at the 234 position of the RLBP1.

Retinitis punctata albescens and fundus albipunctatus

Katsanis et al. showed that a homozygous alteration from Arginine to Glutamine amino acid expression, at the 150 position on RLBP1, brings about the onset of retinitis punctata albescens and or fundus albipunctatus.