Isolation of high-affinity murine interleukin 2 receptors as detergent-resistant membrane complexes

Murine T cells and T cell lines bearing high- and low-affinity receptors for interleukin (IL) 2 were chemically cross-linked to radiolabeled IL 2 and subjected to differential detergent extractions to evaluate the extent of IL 2 receptor association with the nonionic detergent-resistant framework of the plasma membrane. Low-affinity receptors were readily solubilized by nonionic detergent extraction of whole cross-linked cells, while solubilization of high-affinity receptors required a stronger ionic detergent suggesting their association with a membrane structure that is resistant to nonionic detergents. To achieve physical separation of low- and high-affinity receptors, cells cross-linked to 125I-labeled IL 2 were centrifuged through a sucrose barrier containing Triton X-100. Alternatively, Triton X-114 extracts of plasma membrane fractions were partitioned into aqueous and detergent phases. By either approach, high-affinity receptors differed from low-affinity ones by their increased density and consisted of detergent-resistant complexes containing p55-p75 heterodimers. The low-affinity receptors, on the contrary, were of low density and consisted exclusively of detergent-soluble p55 subunits. High density and resistance to nonionic detergent extraction of high-affinity IL 2 receptors suggest their integration into lateral microdomains of the detergent-resistant framework of the plasma membrane

Lymphocyte alpha-actinin. Relationship to cell membrane and co-capping with surface receptors

Mouse spleen lymphocytes synthesize a protein which comigrates with skeletal muscle alpha-actinin on two-dimensional gel electrophoresis and is immunoprecipitated by an antibody directed against skeletal muscle alpha-actinin. Mouse lymphocyte alpha-actinin is present in membrane fractions, and is immunoprecipitated from lymphocyte detergent lysates by an antiserum made against these purified membranes. The anti-alpha-actinin activity of this antiserum is not adsorbed after incubation with fixed intact lymphocytes. Lymphocyte alpha-actinin does not bind concanavalin A and it is inaccessible to lactoperoxidase-catalyzed surface iodination. Double immunofluorescence shows that alpha-actinin moves concurrently along the cell membrane with redistributed surface immunoglobulins and Thy-1 antigen, and remains associated up to 30 min with surface aggregates of these receptors. Our results suggest that lymphocyte alpha-actinin, as defined by molecular weight and cross reactivity with the antibody against the muscle protein, (a) is associated with the cell membrane, (b) is not expressed at the cell surface, and (c) participates in the movement of surface receptors

The area of attachment of cytotoxic T lymphocytes to their target cells shows high motility and polarization of actin, but not myosin

Conjugates of cytotoxic T lymphocytes attached to their target cells were studied by double immunofluorescence on fixed smears to detect simultaneously the localization of actin and myosin within the cells. Actin was found to be polarized in the area of attachment of the lymphocytes (but not of the target cells), whereas myosin remained evenly distributed in the cytoplasm. When living conjugates were brought to 37 degrees C to induce cytotoxicity, this pattern remained unchanged, but observation by interference reflexion microcinematography revealed a high motility of the lymphocytes in the contact area. This localized motility in the area of attachment associated with a peculiar actin polarization, which has no equivalent in any type of cell contact presently known, could represent a necessary step in the sequence of events leading to target cell killing by cytotoxic T lymphocytes

Role of sialic acid and sulfate groups in cervical mucus physiological functions: study of Macaca radiata glycoproteins

The influence of charged groups in glycoproteins was investigated to assess their effect on the physiological functions of bonnet monkey cervical mucus. The macromolecular glycoproteins from peri-ovulatory, midcycle phase cervical mucus were treated with Pronase, trypsin and chymotrypsin and the enzyme-resistant glycoproteins purified by gel filtration on Sepharose 4B and a high molecular weight component containing carbohydrates, proteins and sulfate groups was recovered in high yield. This material still reacted with an antiserum directed against purified midcycle glycoprotein but not against another antiserum directed against luteal phase purified glycoproteins. Upon treatment with Pronase, trypsin and chymotrypsin, asialoglycoproteins and desulfated asialoglycoproteins released fragments of low molecular sizes, none of which reacted with the anti-midcycle glycoprotein antiserum. Cervical mucus collected from the estrogenic phase displayed a morphology supporting sperm migration, and this mucus retains the same morphology and reacts with the anti-midcycle glycoprotein antiserum following mild treatment with sialidase and subsequently with Pronase. These results imply that charged carbohydrate groups help maintain the structural and functional integrity of the mucus glycoprotein in its biological environment

Differential regulation of Src-family protein tyrosine kinases in GPI domains of T lymphocyte plasma membranes

The association of glycosylphosphatidylinositol (GPI)-anchored cell surface glycoproteins with Src-family protein tyrosine kinases was analysed in intact T lymphocyte plasma membranes. Following subcellular fractionation without detergent, 25% of the recovered plasma membranes were light density vesicles enriched in GPI-anchored glycoproteins and sphingolipids (GPI domains), while the remainder behaved as heavier density vesicles containing equal amounts of lipids and proteins. Qualitatively similar lipids were found in both vesicle types, but only light density vesicles made of 65-75% lipids yielded a Triton X-100 resistant, sedimentable fraction containing GPI-linked glycoproteins and sphingolipids. The GPI-rich vesicles phosphotyrosylated an exogenous substrate as efficiently as the denser vesicles, despite a low Lck and Fyn kinase content. Likewise, these kinases were more efficiently phosphorylated in GPI domains than in denser vesicles. GPI domains thus could constitute plasma membrane "hot spots" where associated Src kinases assume an optimally active conformation that contributes to signaling via GPI-anchored cell surface glycoproteins

Angiotensin II and its receptor subtypes in the human retina. Invest Ophthalmol Vis Sci 2007; 48: 3301–3311

PURPOSE. To quantify and evaluate the distribution of angiotensin II (Ang II) and its receptors in the human retina. METHODS. Donor eyes were obtained within 12 hours postmortem and classified as hypertensive or normotensive and diabetic or nondiabetic, based on the donors' medical histories. Ang II in retina and vitreous was quantified by RIA. Ang II receptors were characterized and quantified by competitive membrane-binding assays. Ang II, its heptapeptide metabolite Ang-(1-7), and AT1 and AT2 receptors were localized by immunohistochemistry and confocal imaging. RESULTS. Levels of Ang II in the retina were significantly higher than in vitreous (P Ͻ 0.05). Ang II in the diabetic retina had a higher median compared with that in the nondiabetic retina. Ang II and Ang-(1-7) colocalized in retinal Müller cells. The retina had the highest levels of Ang II receptors that were significantly higher than the optic nerve, retinal pigment epithelium-choroid complex, and ciliary body-iris complex (P Ͻ 0.05). AT1 receptors were more abundant than AT2 receptors in the retina. Immunoreactivity for AT1 was detected in Müller cells and on blood vessels. AT2 receptors were localized throughout the Müller cells and nuclei of ganglion cells and neurons in the inner nuclear layer. CONCLUSIONS. In the human retina, identification of Ang II and its bioactive metabolite Ang-(1-7) in Müller cells suggests that these glial cells are able to produce and process Ang II. Ang receptors were localized in the blood vessels and neural cells. Local Ang II signaling may thus allow for autoregulation of neurovascular activity. Such an autonomous system could modulate the onset and severity of retinovascular disease. (Invest Ophthalmol Vis Sci. 2007;48:3301-3311) DOI:10.1167/iovs.06-1024 D iabetic retinopathy is one of the major complications of diabetes mellitus and the leading cause of visual loss and blindness in the adult population of the United States. It has been viewed as a disorder of the retinal vasculature 1,2 ; however, evidence from numerous reports indicate that neural function of the retina is compromised before the vascular lesions are clinically diagnosed. At the cellular level, diabetes alters the structure and function of most cell types. 3-9 Many factors have been implicated in the pathogenesis of diabetic retinopathy. Clinical and experimental studies have shown that the renin-angiotensin system (RAS) plays a pivotal role in the progression of the disease, presumably through local changes in blood flow and production of vascular endothelial growth factor (VEGF 10 -22 ). Furthermore, Ang II may act as an inflammatory agent by enhancing vascular permeability through prostaglandins and VEGF 23 and contribute to the recruitment of inflammatory cells by inducing chemokines and adhesion molecules. 56 Hence, the purpose of the present study was to quantify and evaluate the distribution of Ang II and its receptors in retinal tissue. In this study, we extend the current knowledge on the retinal RAS by quantifying Ang II and its receptors and demonstrating the presence of Ang II, Ang-(1-7), and ACE2, as well as AT1 and AT2 receptors in the retina. In the retina, the Müller cells may be an important cellular source of Ang II, Ang-(1-7), and AT1 and AT2 receptors. MATERIALS AND METHODS Preparation of Donor Eye Tissue Eyes were obtained from the Cleveland Eye Bank, in compliance with the Declaration of Helsinki, within 12 hours postmortem, and were dissected on a chilled tray. The eyes were cut at the ora serrata, and the anterior segment was lifted off. The vitreous body was isolated by gently shaking it out of the eye cup. The neural retina was carefully From th