A rapid sensitive radioimmunoassay for rhodopsin: development and application

Reductively methylated, tritiated rhodopsin of high specific activity; a convenient sensitive tracer for use in the radioimmunoassay of rhodopsin

Bovine rhodopsin was subjected to reductive methylation in the dark using formaldehyde and high specific activity sodium borotritide. After purification by gel filtration and affinity chromatography on Concanavalin A-Sepharose, the product retained its immunoreactive properties. [3H]-Reductively methylated rhodopsin (specific activity, 32 Ci/mmole) was suitable for use in radioimmunoassays for rhodopsin, having many advantages over radioiodinated rhodopsin for this purpose. The site of the reductive methylation was shown to be the non-active site lysines with the production of tritiated N-epsilon-dimethyllysine and tritiated N-epsilon-methyllysine in a molar ratio of about 1.3:1, respectively. In terms of stability, ease of preparation, and specificity, tritiated, reductively methylated rhodopsin presents itself as a preferable ligand to radioiodinated rhodopsin in many applications, such as the radioimmunoassay.

Anti-rhodopsin monoclonal antibodies of defined specificity: characterization and application

A panel of anti-bovine rhodopsin monoclonal antibodies (MAbs) of defined site-specificity has been prepared and used for functional and topographic studies of rhodopsins. In order to select these antibodies, hybridoma supernatants that contained anti-rhodopsin antibodies have been screened by enzyme-linked immunosorbent assay (ELISA) in the presence of synthetic peptides from rhodopsin's cytoplasmic regions. We selected for antibodies against predominantly linear determinants (as distinct from complex assembled determinants) and have isolated antibodies that recognize rhodopsin's amino terminus, its carboxyl terminus, as well as the hydrophilic helix-connecting regions 61-75, 96-115, 118-203, 230-252 and 310-321. Detailed specificities have been further determined by using a series of overlapping peptides and chemically modified rhodopsins as competitors. A group of seven antibodies with epitopes clustered within the amino terminal region of rhodopsin and a group of 15 antibodies with epitopes within the carboxyl terminal region are described. These MAbs have high affinities for rhodopsin with Kas in the range of 10(8)-10(10) M-1. Some MAbs specific for the carboxyl and amino terminal regions were used to compare these bovine rhodopsin sequences to those of different vertebrates. The MAbs cross-reacted with the different species tested to different extents indicating that there is some similarity in the sequences of these regions. However, some differences in the sequences were indicated by a reduced or absent cross-reactivity with some MAbs. In membrane topographic studies the MAbs showed both the presence and the accessibility of rhodopsin sequences 330-348, 310-321 and 230-252 on the cytoplasmic surface of the disk membrane. Similarly, sequences 1-20 and 188-203 were shown to reside on the lumenal surface of the disk and to be accessible to a macromolecular (antibody) probe. Antibodies directed against rhodopsin's carboxyl terminal sequence did not bind well to highly phosphorylated rhodopsin. Similarly, these antibodies as well as those against the V-VI loop inhibited phosphorylation of rhodopsin. Antibody A11-82P, specific for phosphorylated rhodopsin, recognized rhodopsin containing two or more phosphates and inhibited its further phosphorylation.

Enzyme-linked immunosorbent assay for quantitative determination of the visual pigment rhodopsin in total-eye extracts

A versatile, multispecies enzyme-linked immunosorbent assay for the rod visual pigment (rhod)opsin has been developed. For this quantitative inhibition assay a monospecific polyclonal antiserum is used which is elicited in rabbits against bovine rod outer-segment membranes. Detergent concentrations as high as 1.0% can be used in the assay with only a slight loss in sensitivity. The assay allows quantitative determination of the apoprotein opsin with a detection level of about 0.04 pmol per sample by using standards prepared by illumination of spectrophotometrically determined amounts of rhodopsin. The antiserum shows considerable cross-reactivity with opsin from several species (mouse, rat, quail, monkey and man). The high degree of monospecificity and cross-reactivity of the antiserum already allowed quantitation of opsin content in crude eye extracts of mouse, rat and quail with a sensitivity comparable to that of bovine opsin. Similar types of multispecies immunoassays for quantitation of highly conserved membrane proteins can be developed using the described approach, requiring only a monospecific antiserum elicited against an easily accessible species and crude tissue extracts both for coating and as a source of the inhibitory antigen.

Properties of the visual pigments of the moth Manduca sexta and the effects of two detergents, digitonin and chaps

The three known visual pigments (P520, P450, P357) of the moth, Manduca sexta (Lepidoptera, Sphingidae), were extracted in two different detergents (2% digitonin, 6 or 12 mM CHAPS). As is the case in unextracted membranes, the metarhodopsins are quite stable in CHAPS extracts, while in digitonin the metarhodopsins of P520 and P450 decay rapidly at 15 degrees C to opsin and free retinal. The relative absorbance ratios are: 1.0:1.6 (P520:M485), 1.0:1.1 (P450:M485), and 1.0:0.8 (P357:M470). The relative amounts of the visual pigments found in digitonin extracts is 100:25:8 (P520:P450:P357); about 60 picomoles of P520 can be extracted from one Manduca retina.