Purification of cone outer segment for proteomic analysis on its membrane proteins in carp retina

<div><p>Rods and cones are both photoreceptors in the retina, but they are different in many aspects including the light response characteristics and, for example, cell morphology and metabolism. These differences would be caused by differences in proteins expressed in rods and cones. To understand the molecular bases of these differences between rods and cones, one of the ways is to compare proteins expressed in rods and cones, and to find those expressed specifically or dominantly. In the present study, we are interested in proteins in the outer segment (OS), the site responsible for generation of rod- or cone-characteristic light responses and also the site showing different morphology between rods and cones. For this, we established a method to purify the OS and the inner segment (IS) of rods and also of cones from purified carp rods and cones, respectively, using sucrose density gradient. In particular, we were interested in proteins tightly bound to the membranes of cone OS. To identify these proteins, we analyzed proteins in some selected regions of an SDS-gel of washed membranes of the OS and the IS obtained from both rods and cones, with Liquid Chromatography-tandem Mass Spectrometry (LC-MS/MS) using a protein database constructed from carp retina. By comparing the lists of the proteins found in the OS and the IS of both rods and cones, we found some proteins present in cone OS membranes specifically or dominantly, in addition to the proteins already known to be present specifically in cone OS.</p></div

Purification of OS and IS membranes from purified rods and cones.

<p>Differential interference contrast microscopic (DIC) images of the cell fractions in each step of the purification are shown. Purified carp rods (A) and cones (B) were passed through a 27-gauge needle to dissociate the OS from the IS, and the resultant broken rods (C) and cones (D) were layered on a sucrose density gradient made in a test tube (drawings in the left of E/G and F/H) to centrifuge. The number in the drawings shows the density of sucrose (%, w/v). Separated membranes at upper (E, F) and lower (G, H) interfaces were collected. Scale bar, 20 μm throughout.</p

Estimation of separation of OS and IS membranes using TOM20, Na⁺/K⁺ ATPase α subunit and calnexin as marker proteins.

<p>(A) Specificity of antibodies used to detect TOM20, Na⁺/K⁺ ATPase α subunit and that of anti-calnexin antiserum. Purified rod membranes containing 200 pmol of rhodopsin and cone membranes containing 6 pmol of cone total pigments were subjected to SDS-PAGE and were stained with Coomassie Brilliant Blue (left panel) or probed with antibodies or antiserum against each protein (right three panels). (B-D) Quantitative immunoblot analyses of TOM20 (B), Na⁺/K⁺ ATPase α subunit (C) and calnexin (D). In the upper panels in each of (B)—(D), purified rod membranes containing 200 pmol of rhodopsin or purified cone membranes containing 6 pmol of total cone pigments (Initial), upper and lower membrane fractions obtained from the same number of the purified cells (Upper and Lower, respectively), and a diluted series of initial rod and cone membranes were subjected to SDS-PAGE. These membranes were probed with antibodies or antiserum against each marker protein. To detect the amounts of target proteins precisely, 4 times volume of samples were applied when necessary (4×). The amount of a target protein in each of the membranes was determined with a calibration line obtained from immunoblot signals obtained in a diluted series of initial rod or cone membranes. In the lower panels in each of (B)—(D), examples of quantification are shown. The quantity of a target protein in each fraction is indicated by an arrow in lower panels. With this estimation, one can determine how much % of the target protein is present in each of the membranes as compared with the amount in the initial rod or cone membranes of the same cell number.</p

Preparation of washed membranes for LC-MS/MS.

<p>Membranes in ROS-rich (A), RIS-rich (B), COS-rich (C) and CIS-rich (D) fractions were intensively washed with a low salt buffer and a high pH buffer to eliminate soluble and peripheral membrane proteins as much as possible. In (A)—(D), SDS-PAGE patterns of the membranes prepared from initial membranes (Initial), the membranes finally obtained after intensive washes (Washed), and supernatants obtained during washes (Low salt wash sup 1–2 and High pH wash sup 1–4) are shown for membranes prepared from each fraction. In (E), an example of a gel subjected to LC-MS/MS analysis is shown. Washed membranes obtained from ROS-, RIS-, COS-, and CIS-rich fractions were subjected to SDS-PAGE, and boxed areas of each lane were cut out of the gel and subjected to in gel digestion for LC-MS/MS analysis. Membranes used for SDS-PAGE in each of the lane in (E) were obtained from 10⁶ rods (Washed ROS), 4.7 × 10⁵ rods (Washed RIS), 1.2 × 10⁵ cones (Washed CIS) and 2.5 × 10⁴ cones (Washed COS).</p

Subcellular localization of neurocalcin δ B (NCALD) in rods and cones.

<p>(A) DIC images (left panels) of double (top), single (middle) and twin (bottom) cones, and immunofluorescent images of antiserum against anti-mAAT (middle panels) and those of NCALD (right panels). Scale bars, 10 μm. OS, outer segment. IS, inner segment. (B) Negative control of (A) with use of control mouse serum (middle for mAAT) and rabbit serum (right for NCALD). A cone was only faintly labeled with these control sera. (C) Immunoblot analysis of non-washed membranes in ROS-, RIS-, COS- and CIS-rich fractions (ROS-rich, RIS-rich, COS-rich and CIS-rich, respectively). Membranes in these fractions were subjected to SDS-PAGE and were stained with CBB or probed with antibody against NCALD. NCALD signals were observed in membranes of COS-rich and CIS-rich fractions (arrowhead). The membranes of ROS- and RIS-rich fraction were obtained from 2.0 × 10⁵ rods. The membranes of COS- and CIS-rich fraction were obtained from 2.0 × 10⁵ and 5.0 × 10⁴ cones, respectively, to observe similar intensity of immunoblot signals of NCALD. (D) Immunoblot signals of NCALD (arrowhead) on membranes obtained from 2.0 × 10⁵ purified cone membranes (Purified cones), washed COS membranes obtained from 2.5 × 10⁶ purified cones (Washed COS) and washed CIS membrane obtained from 2.5 × 10⁶ purified cones (Washed CIS).</p