Membrane Protein Dimerization in Cell-Derived Lipid Membranes Measured by FRET with MC Simulations

Many membrane proteins are thought to function as dimers or higher oligomers, but measuring membrane protein oligomerization in lipid membranes is particularly challenging. Förster resonance energy transfer (FRET) and fluorescence cross-correlation spectroscopy are noninvasive, optical methods of choice that have been applied to the analysis of dimerization of single-spanning membrane proteins. However, the effects inherent to such two-dimensional systems, such as the excluded volume of polytopic transmembrane proteins, proximity FRET, and rotational diffusion of fluorophore dipoles, complicate interpretation of FRET data and have not been typically accounted for. Here, using FRET and fluorescence cross-correlation spectroscopy, we introduce a method to measure surface protein density and to estimate the apparent Förster radius, and we use Monte Carlo simulations of the FRET data to account for the proximity FRET effect occurring in confined two-dimensional environments. We then use FRET to analyze the dimerization of human rhomboid protease RHBDL2 in giant plasma membrane vesicles. We find no evidence for stable oligomers of RHBDL2 in giant plasma membrane vesicles of human cells even at concentrations that highly exceed endogenous expression levels. This indicates that the rhomboid transmembrane core is intrinsically monomeric. Our findings will find use in the application of FRET and fluorescence correlation spectroscopy for the analysis of oligomerization of transmembrane proteins in cell-derived lipid membranes.     

Expression of Prostate-Specific Membrane Antigen in Lung Cancer Cells and Tumor Neovasculature Endothelial Cells and Its Clinical Significance

BackgroundProstate-specific membrane antigen (PSMA) has been found in tumor neovasculature endothelial cells (NECs) of non-prostate cancers and may become the most promising target for anti-tumor therapy. To study the value of PSMA as a potential new target for lung cancer treatment, PSMA expression in non-small cell lung cancer (NSCLC) and small cell lung cancer (SCLC) tissues and its relationship with clinicopathology were investigated in the current study.MethodsImmunohistochemistry was used to detect PSMA expression in a total of 150 lung specimens of patients with lung cancer. The data were analyzed using univariate and multivariate statistical analyses.ResultsThe percentages of NSCLC patients who had PSMA (+) tumor cells and PSMA (+) NECs were 54.02% and 85.06%, respectively. The percentage of patients younger than 60 years old who had PSMA (+) tumor cells was 69.05%, which was significantly greater than the percentage of patients aged 60 years or older (40.00%, p<0.05). A significant difference was observed in the percentage of NSCLC patients with PMSA (+) NECs and stage I or II cancer (92.98%) and those patients with stage III or IV cancer (76.77%). In the SCLC tissues, NEC PSMA expression (70.00%) did not differ significantly from NSCLC. SCLC tumor cells and normal lung tissues cells were all negative. There was no significant correlation between the presence of PSMA (+) NECs in SCLC patients and the observed clinicopathological parameters.ConclusionsPSMA is expressed not only in NECs of NSCLC and SCLC but also in tumor cells of most NSCLC patients. The presence of PSMA (+) tumor cells and PSMA (+) NECs in NSCLC was negatively correlated with age and the clinicopathological stage of the patients, respectively.     

Evaluation of Phage Display Discovered Peptides as Ligands for Prostate-Specific Membrane Antigen (PSMA)

The aim of this study was to identify potential ligands of PSMA suitable for further development as novel PSMA-targeted peptides using phage display technology. The human PSMA protein was immobilized as a target followed by incubation with a 15-mer phage display random peptide library. After one round of prescreening and two rounds of screening, high-stringency screening at the third round of panning was performed to identify the highest affinity binders. Phages which had a specific binding activity to PSMA in human prostate cancer cells were isolated and the DNA corresponding to the 15-mers were sequenced to provide three consensus sequences: GDHSPFT, SHFSVGS and EVPRLSLLAVFL as well as other sequences that did not display consensus. Two of the peptide sequences deduced from DNA sequencing of binding phages, SHSFSVGSGDHSPFT and GRFLTGGTGRLLRIS were labeled with 5-carboxyfluorescein and shown to bind and co-internalize with PSMA on human prostate cancer cells by fluorescence microscopy. The high stringency requirements yielded peptides with affinities K_D∼1 µM or greater which are suitable starting points for affinity maturation. While these values were less than anticipated, the high stringency did yield peptide sequences that apparently bound to different surfaces on PSMA. These peptide sequences could be the basis for further development of peptides for prostate cancer tumor imaging and therapy.     

Association of Low Prostate-Specific Antigen Concentration and Panhypopituitarism

ObjectiveTo report the association of undetectable or very low prostate-specific antigen (PSA) concentrations with hypopituitarism.MethodsWe present a case series of 4 patients with low or undetectable PSA concentrations and associated panhypopituitarism and summarize the clinical presentation and pertinent laboratory and radiologic findings. We review related literature and discuss possible mechanisms explaining the described association.ResultsFour men with PSA values below the second percentile of a healthy population had hypopituitarism. In 3 men, low PSA concentrations were noted before large pituitary tumors were diagnosed. No man had headaches, visual problems, or other symptoms that were severe enough to prompt a search for tumor. All 4 patients had undetectable total testosterone levels. Luteinizing hormone and follicle-stimulating hormone levels were low to low-normal in 3 of the 4 patients. Baseline growth hormone level was low in 1 patient and undetectable in the other 3. The insulinlike growth factor 1 concentration was less than 73 ng/mL in each patient.ConclusionsWe believe that the association of low PSA concentrations and hypopituitarism is not incidental and that the extremely low PSA values in this case series were a consequence of both gonadal and growth hormone deficiency. We suggest that low PSA is a marker of combined profound testosterone and growth hormone deficiency in men with panhypopituitarism. This marker is important because PSA is frequently measured during routine health care visits; a low concentration may be the first clue to the presence of hypopituitarism in an otherwise asymptomatic patient. (Endocr Pract. 2008;14:432-436)     

High-Melting Lipid Mixtures and the Origin of Detergent-Resistant Membranes Studied with Temperature-Solubilization Diagrams

The origin of resistance to detergent solubilization in certain membranes, or membrane components, is not clearly understood. We have studied the solubilization by Triton X-100 of binary mixtures composed of egg sphingomyelin (SM) and either ceramide, diacylglycerol, or cholesterol. Solubilization has been assayed in the 4–50°C range, and the results are summarized in a novel, to our knowledge, form of plots, that we have called temperature-solubilization diagrams. Despite using a large detergent excess (lipid/detergent 1:20 mol ratio) and extended solubilization times (24–48 h) certain mixtures were not amenable to Triton X-100 solubilization at one or more temperatures. DSC of all the lipid mixtures, and of all the lipid + detergent mixtures revealed that detergent resistance was associated with the presence of gel domains at the assay temperature. Once the system melted down, solubilization could occur. In general adding high-melting lipids limited the solubilization, whereas the addition of low-melting lipids promoted it. Lipidomic analysis of Madin-Darby canine kidney cell membranes and of the corresponding detergent-resistant fraction indicated a large enrichment of the nonsolubilized components in saturated diacylglycerol and ceramide. SM-cholesterol mixtures were special in that detergent solubilization was accompanied, for certain temperatures and compositions, by an independent phenomenon of reassembly of the partially solubilized lipid bilayers. The temperature at which lysis and reassembly prevailed was ∼25°C, thus for some SM-cholesterol mixtures solubilization occurred both above and below 25°C, but not at that temperature. These observations can be at the origin of the detergent resistance effects observed with cell membranes, and they also mean that cholesterol-containing detergent-resistant membrane remnants cannot correspond to structures existing in the native membrane before detergent addition.     

Pituitary Evaluation in Patients with Low Prostate-Specific Antigen

Objective: To evaluate pituitary function in men with a low screening prostate-specific antigen (PSA) of ≤0.1 ng/mL and test the hypothesis that low PSA is associated with hypogonadism alone or other hormone deficiency.Methods: This was a case-control study evaluating the rates of hypogonadism and low insulin-like growth factor (IGF)-1 in a cohort of men with low or normal screening PSA level. Sixty-four men >40 years old without known prostate disease were divided into a low-PSA group (PSA ≤0.1 ng/mL) and normal-PSA group (PSA 1 to 4 ng/mL). Hormonal evaluation included total testosterone, prolactin, luteinizing hormone, follicle-stimulating hormone, IGF-1, growth hormone, thyroid-stimulating hormone, free thyroxine, morning cortisol, and adrenocorticotropic hormone. The difference between each patient's observed IGF-1 and the IGF-1 age-specific lower limit was calculated. The odds ratios (ORs) for having hypogonadism and associated 95% confidence intervals (CIs) were calculated using the Cochran-Mantel-Haenszel test.Results: The rate of hypogonadism was significantly higher in the low-PSA group (n = 44) compared with the normal-PSA control group (n = 20) (45.5% vs. 15.0%; OR, 4.7; 95% CI, 1.2 to 18.4; P = .027). The total testosterone in the low-PSA group was significantly lower compared with the control group (181.7 ng/dL vs. 263.7 ng/dL; P = .008). IGF-1 values were below their lower bound in 18.6% of subjects in the low-PSA group, compared with 0% in the control group.Conclusion: Men with low PSA have significantly higher rates of hypogonadism and low IGF-1 compared with those with normal PSA. In such men, we recommend hormonal evaluation to exclude associated pituitary dysfunction.Abbreviations: BMI = body mass index; GH = growth hormone; IGF-1 = insulin-like growth factor 1; MRI = magnetic resonance imaging; PSA = prostate-specific antigen; T2DM = type 2 diabetes mellitus; VA-NWIHCS = VA-Nebraska Western Iowa Health Care System     

Effect of Cholesterol Depletion and Temperature on the Isolation of Detergent-Resistant Membranes from Human Erythrocytes

Transient lateral microdomains or lipid rafts play important roles in many physiological membrane-mediated cell processes. Detergent-resistant membranes (DRMs) are good models for the study of lipid rafts. Here we report that DRMs can be obtained by treating human erythrocytes with the nonionic detergents Triton X-100 or octaethylene glycol monododecyl ether (C₁₂E₈) at 37°C, and by treatment at 4°C of cholesterol-depleted erythrocytes. Electron paramagnetic resonance with spin labels inserted at different membrane depths (5- and 16-doxyl stearic acids, 5-SASL and 16-SASL) were used to measure the order parameter (S) of the cell membranes and DRMs. We previously reported significantly higher S values in DRMs with respect to intact erythrocyte membranes. Here we show that higher S values were still measurable in DRMs prepared from intact erythrocytes at 37°C, or from cholesterol-depleted cells at 4°C, for both detergents. For 5-SASL only, increased S values were measured in 4°C DRMs obtained from cholesterol-depleted versus intact erythrocytes. Flotillin-2, a protein marker of lipid rafts, was found in DRMs from intact cells in trace amounts but it was sensitively increased in C₁₂E₈ DRMs prepared at 4°C from cholesterol-depleted erythrocytes, while the membrane-skeletal proteins spectrin and actin were excluded from both Triton X-100 and C₁₂E₈ DRMs. However, contrary to the 4°C treatment results, flotillin-2 and stomatin were not resistant to Triton X-100 and C₁₂E₈ treatment at physiological temperature. The role of cholesterol in DRMs formation is discussed and the results presented provide further support for the use of C₁₂E₈ to the study of DRMs.     

PSA与慢性非细菌性前列腺炎的相关性研究

目的:探讨慢性非细菌性前列腺炎患者血清PSA与其主要临床指标间的关系;及血清PSA对慢性非细菌性前列腺炎程度的评估及其在临床诊断中的价值.方法:收集2007年4月至2010年2月门诊304例已确诊的慢性非细菌性前列腺炎患者病例,并抽血测其PSA值,经腹B超测前列腺三径,直肠指检(DRE)取EPS作常规镜检和细菌培养.结果:①304例慢性非细菌性前列腺炎患者血清PSA值平均为1.49±1.26ng/ml,PSA>4.0ng/ml者20例,年龄均在45岁以上;前列腺体积平均17.1±7.4ml,PSAD平均0.081±0.052ng/ml.cc-1.②PSA与慢性非细菌性前列腺炎患者年龄、前列腺体积、PSAD有正相关性,与病程、EPS WBC计数、脓球数、卵磷脂小体无明显直线相关性,多元逐步回归分析发现年龄和前列腺体积均进入方程,前列腺体积对PSA的决定系数R2=0.213;年龄和前列腺体积对PSA的总的决定系数R2=0.277;前列腺体积和年龄标准化系数β分别为0.336和0.282.结论:年龄和前列腺体积都是影响慢性非细菌性前列腺炎患者血清PSA水平的高危因素,而炎症本身仍是影响其血清PSA水平的最重要因素.     

Alterations in Detergent-Resistant Plasma Membrane Microdomains in Arabidopsis thaliana During Cold Acclimation

Microdomains in the plasma membrane (PM) have been proposedto be involved in many important cellular events in plant cells.To understand the role of PM microdomains in plant cold acclimation,we isolated the microdomains as detergent-resistant plasma membranefractions (DRMs) from Arabidopsis seedlings and compared lipidand protein compositions before and after cold acclimation.The DRM was enriched in sterols and glucocerebrosides, and theproportion of free sterols in the DRM increased after cold acclimation.The protein-to-lipid ratio in the DRM was greater than thatin the total PM fraction. The protein amount recovered in DRMsdecreased gradually during cold acclimation. Cold acclimationfurther resulted in quantitative changes in DRM protein profiles.Subsequent mass spectrometry and Western blot analyses revealedthat P-type H⁺-ATPases, aquaporins and endocytosis-related proteinsincreased and, conversely, tubulins, actins and V-type H⁺-ATPasesubunits decreased in DRMs during cold acclimation. Functionalcategorization of cold-responsive proteins in DRMs suggeststhat plant PM microdomains function as platforms of membranetransport, membrane trafficking and cytoskeleton interaction.These comprehensive changes in microdomains may be associatedwith cold acclimation of Arabidopsis.     

Genetically Encoded FRET Biosensor Detects the Enzymatic Activity of Prostate-Specific Antigen

Prostate cancer is the most common cancer among men beyond 50 years old, and ranked the second in mortality. The level of Prostate-specific antigen (PSA) in serum has been a routine biomarker for clinical assessment of the cancer development, which is detected mostly by antibody-based immunoassays. The proteolytic activity of PSA also has important functions. Here a genetically encoded biosensor based on fluorescence resonance energy transfer (FRET) technology was developed to measure PSA activity. In vitro assay showed that the biosensor containing a substrate peptide ‘RLSSYYSGAG’ had 400% FRET change in response to 1 µg/ml PSA within 90 min, and could detect PSA activity at 25 ng/ml. PSA didn’t show enzymatic activity toward the biosensor in serum solution, likely reflecting the existence of other inhibitory factors besides Zn2+. By expressing the biosensor on cell plasma membrane, the FRET responses were significant, but couldn’t distinguish well the cultured prostate cancer cells from non-prostate cancer cells under microscopy imaging, indicating insufficient speci- ficity to PSA. The biosensor with the previously known ‘HSSKLQ’ substrate showed little response to PSA in solution. In summary, we developed a genetically encoded FRET biosensor to detect PSA activity, which may serve as a useful tool for relevant applications, such as screening PSA activation substrates or inhibitors; the purified biosensor protein can also be an alternative choice for measuring PSA activity besides currently commercialized Mu-HSSKLQ-AMC substrate from chemical synthesis.     

Influence of Serum Proteins on Conformation of Prostate-Specific Antigen

Abstract

Partition behavior of prostate-specific antigen (PSA) was studied in aqueous Dextran-Ficoll two-phase system. It was found that the partitioning of PSA changed in the presence of other proteins, in particular, bovine serum albumin, human serum albumin, human transferrin, and human gamma-globulin. The partition coefficient of PSA in mixtures with increasing amounts of these proteins decreased along the S-shaped curve and dropped to essentially the same value at the 10⁴-10⁵ protein: PSA molar ratio. Partition behavior of the above proteins was examined separately. Partition coefficient of a protein represents the protein solvent exposed residues; i.e., it reflects the 3D-structure of the protein in solution. Partition of binary protein mixtures reflects the interaction of the two proteins and therefore characterizes the PSA-induced conformational changes in a protein agent and the change in the PSA conformation induced by a protein agent. In other words, the protein effect on the partition behavior of free PSA may be explained by the effect of the non-specific PSA-protein interactions on PSA conformation. Formation of such PSA-protein encounter complexes was shown to be dominated by the electrostatic forces, since the efficiency of a given protein agent to induce changes in the partition behavior of PSA was proportional to its absolute mean net charge. Furthermore, in agreement with the earlier hypothesis that the protein segments with increased dynamic propensities (i.e., ‘discrete breathers’) can be important for conformational transitions accompanying binding processes, our analysis of intrinsically disordered regions (IDR) in all the proteins examined showed that the propensity for intrinsic disorder is related to the PSA partition-modulating capability of the protein.     

Membrane Mechanics of Endocytosis in Cells with Turgor

Endocytosis is an essential process by which cells internalize a piece of plasma membrane and material from the outside. In cells with turgor, pressure opposes membrane deformations, and increases the amount of force that has to be generated by the endocytic machinery. To determine this force, and calculate the shape of the membrane, we used physical theory to model an elastic surface under pressure. Accurate fits of experimental profiles are obtained assuming that the coated membrane is highly rigid and preferentially curved at the endocytic site. The forces required from the actin machinery peaks at the onset of deformation, indicating that once invagination has been initiated, endocytosis is unlikely to stall before completion. Coat proteins do not lower the initiation force but may affect the process by the curvature they induce. In the presence of isotropic curvature inducers, pulling the tip of the invagination can trigger the formation of a neck at the base of the invagination. Hence direct neck constriction by actin may not be required, while its pulling role is essential. Finally, the theory shows that anisotropic curvature effectors stabilize membrane invaginations, and the loss of crescent-shaped BAR domain proteins such as Rvs167 could therefore trigger membrane scission.     

Arrestin-Mediated Endocytosis of Yeast Plasma Membrane Transporters

Many plasma membrane transporters in yeast are endocytosed in response to excess substrate or certain stresses and degraded in the vacuole. Endocytosis invariably requires ubiquitination by the HECT domain ligase Rsp5. In the cases of the manganese transporter Smf1 and the amino acid transporters Can1, Lyp1 and Mup1 it has been shown that ubiquitination is mediated by arrestin-like adaptor proteins that bind to Rsp5 and recognize specific transporters. As yeast contains a large family of arrestins, this has been suggested as a general model for transporter regulation; however, analysis is complicated by redundancy amongst the arrestins. We have tested this model by removing all the arrestins and examining the requirements for endocytosis of four more transporters, Itr1 (inositol), Hxt6 (glucose), Fur4 (uracil) and Tat2 (tryptophan). This reveals functions for the arrestins Art5/Ygr068c and Art4/Rod1, and additional roles for Art1/Ldb19, Art2/Ecm21 and Art8/Csr2. It also reveals functional redundancy between arrestins and the arrestin-like adaptors Bul1 and Bul2. In addition, we show that delivery to the vacuole often requires multiple additional ubiquitin ligases or adaptors, including the RING domain ligase Pib1, and the adaptors Bsd2, Ear1 and Ssh4, some acting redundantly. We discuss the similarities and differences in the requirements for regulation of different transporters.     

Role of a Putative gp41 Dimerization Domain in Human Immunodeficiency Virus Type 1 Membrane Fusion

The entry of human immunodeficiency virus type 1 (HIV-1) into a target cell entails a series of conformational changes in the gp41 transmembrane glycoprotein that mediates the fusion of the viral and target cell membranes. A trimer-of-hairpins structure formed by the association of two heptad repeat (HR) regions of the gp41 ectodomain has been implicated in a late step of the fusion pathway. Earlier native and intermediate states of the protein are postulated to mediate the antiviral activity of the fusion inhibitor enfuvirtide and of broadly neutralizing monoclonal antibodies (NAbs), but the details of these structures remain unknown. Here, we report the identification and crystal structure of a dimerization domain in the C-terminal ectodomain of gp41 (residues 630 to 683, or C54). Two C54 monomers associate to form an asymmetric, antiparallel coiled coil with two distinct C-terminal α-helical overhangs. This dimer structure is conferred largely by interactions within a central core that corresponds to the sequence of enfuvirtide. The mutagenic alteration of the dimer interface severely impairs the infectivity of Env-pseudotyped viruses. Moreover, the C54 structure binds tightly to both the 2F5 and 4E10 NAbs and likely represents a potential intermediate conformation of gp41. These results should enhance our understanding of the molecular basis of the gp41 fusogenic structural transitions and thereby guide rational, structure-based efforts to design new fusion inhibitors and vaccine candidates intended to induce broadly neutralizing antibodies.The entry of human immunodeficiency virus type 1 (HIV-1) into its target cell to establish an infection requires the fusion of viral and cellular membranes, a process that is mediated by the viral envelope glycoprotein (Env) through interactions with receptors on the target cell membrane (CD4 and a coreceptor, such as CCR-5 or CXCR-4) (14). HIV-1 Env is synthesized as the glycoprotein precursor gp160, which oligomerizes in the endoplasmic reticulum and subsequently is cleaved by the cellular furin endoprotease to create a metastable state that is primed for the induction of membrane fusion activity (19). The resulting Env complex is a trimeric structure comprising three gp120 surface glycoproteins, each associated noncovalently with one of three subunits of the gp41 transmembrane glycoprotein (24, 27, 47, 48). This native (prefusion) Env spike protrudes from the virus surface and is the target for neutralizing antibodies (NAbs) (reviewed in reference 3). It is generally accepted that HIV-1 membrane fusion is promoted by a series of receptor binding-triggered conformational changes in the Env complex, culminating in the formation of an energetically stable trimer of α-helical hairpins in gp41 (10, 14).The core structure of the trimer-of-hairpins is an antiparallel six-helix bundle: a central, three-stranded coiled coil formed by the first heptad repeat (HR_N) region of gp41 is sheathed by three α-helices derived from the second HR (HR_C) (5, 27, 42, 44). HR_N is immediately C terminal to the fusion peptide, while HR_C is adjacent to the transmembrane helix anchored in the viral membrane. The interaction of gp120 with CD4 and a chemokine receptor is thought to alter intersubunit interactions in the native Env complex, leading to gp41 reorganization into a postulated prehairpin intermediate (reviewed in references 10 and 14). At this point, the N-terminal HR_N coiled-coil trimer is formed, relocating the fusion peptides to allow them to insert into the cellular membrane. The HR_C region then is thought to jackknife so as to pack against the inner coiled-coil core and form the postfusion trimer-of-hairpin structure that brings the attached target cell and viral membranes together. Evidence for the existence of these different gp41 conformational states in the fusion pathway is indirect, being inferred from the antiviral activity of peptides derived from the two HR regions of gp41 (20, 45). These peptide inhibitors likely act in a dominant-negative manner by binding to the prehairpin intermediate, preventing the formation of the trimer-of-hairpins (6, 13, 27, 31). This intermediate is relatively stable, with a half-life of many minutes, as detected by the capacity of such peptides to inhibit fusion once prefusion gp41 has undergone a conformational transition (21, 31). Although mounting evidence indicates that the prefusogenic and intermediate states are important targets for drug- and vaccine-elicited NAbs (reviewed in references 3 and 10), little is known about their structures and how they modulate gp41 fusogenicity or serve as targets for inhibition.The C-terminal part of the gp41 ectodomain consists of HR_C (or C34) and the membrane-proximal external region (MPER) (Fig. ​(Fig.1).1). The C34 peptide is intrinsically disordered in isolation and forms an outer-layer α-helix only in the six-helix bundle (27, 29). Structural studies of the trimeric coiled-coil state of the MPER and of its bent helix conformation after binding to lipid membranes have begun to provide clues regarding the function of this unusual and important NAb-associated segment (25, 41). The MPER is the established target for two very rare but broadly reactive NAbs, 2F5 and 4E10/z13, which are elicited during natural human infection (50). These neutralizing epitopes seem to be poorly exposed on the surface of both HIV-1-infected cells and virions (reviewed in reference 3). Their exposure is enhanced or triggered by receptor binding but diminishes on the formation of the trimer-of-hairpins, suggesting that both of the NAbs target a more extended intermediate conformation rather than the native gp41 structure (8, 12). Despite extensive efforts, how structural aspects of the MPER explain its antigenicity and immunogenicity remains unclear. Here, we report the identification of the C-terminal dimerization domain of gp41 and present the 1.65-Å crystal structure of this domain. We characterize the role of this antiparallel two-stranded coiled-coil structure in NAb reactivity and viral function. Our study provides a potential structure for the fusion-intermediate state of gp41 and for the future design of new HIV-1 immunogens that may elicit broad and potent NAbs.Open in a separate windowFIG. 1.Structural and functional domains of HIV-1 gp41. (Upper) Schematic view of gp41 showing the location of the fusion peptide (FP), the two HR regions, the MPER, the transmembrane segment (TM), and the cytoplasmic region (CP). HR_C and MPER are depicted in blue and green, respectively. (Lower) Sequences of the C56, C54, C54_N656L, and C39 peptides employed in the study. The Asn-656→Leu mutation in C54_N656L is shown in red. The sequences of T-20 and core epitopes recognized by the human 2F5 and 4E10 MAbs are indicated.     

Role of Contractile Microfilaments in Macrophage Movement and Endocytosis

PHAGOCYTOSIS of bacteria and other large particles and pinocytosis of colloids—two processes collectively termed endocytosis—are among the characteristic properties of macrophages. When mouse peritoneal macrophages in culture are observed by phase contrast microscopy, most small endocytotic vesicles (pinosomes) are seen to be formed in the region of ruffled membrane activity, usually in a pseudopod¹. The phase-lucent pinosomes move rapidly towards the Golgi region where they unite with phase-dense granules to form secondary lysosomes. Although there is evidence that both phagocytosis and pinocytosis in macrophages have a high temperature coefficient and require metabolic energy¹, the mechanism of endocytosis is unknown. Clearly, movement of the plasma membrane and directional movement of pinosomes is involved. During the past few years attention has been drawn to the apparent association in many cells between movement and the presence of contractile microfilaments of about 50 Â diameter^2,3. Some of these are actin-like and can bind heavy meromyosin to give distinctive “arrowhead” structures in electron micrographs⁴. One of us (S. de P., in preparation) has found that the peripheral or cortical cytoplasm of macrophages contains a network of microfilaments, some of which may be inserted into the plasma membrane. These filaments bind heavy meromyosin (Figs. 1 and 2) and details of their structure and disposition will be published later.     

Cytoplasmic Membranes and the Nuclear Membrane in the Flagellate Trichonympha

The structure of the nuclear and cytoplasmic membranes of Trichonympha, a complex flagellate, has been studied in the electron microscope. The nuclear membrane consists of two 70 A membranes, penetrated by numerous pores. Small (100 A) granules occur on the outer surface, around the rims of the pores. Granule-bearing membranes, only 30 to 40 A thick, form long, ribbon-shaped sacs, with 100 A granules on their outer surface. They apparently form close to the nucleus, from which they probably derive their granules. Smooth membranes occur in the parabasal bodies, which consist of stacks of 70 A membranes, joined at their edges in pairs to form flattened sacs. These can inflate and form cytoplasmic vesicles. A protein fibre is applied laterally to the pile of sacs. New sacs, replacing those lost by inflation, appear to form by a process involving the granular membranes, and there may be a transformation of one into the other. Starving eliminates granular membranes and results in a failure in the formation of new parabasal sacs. Refeeding reverses these effects. A parabasal body is a steady-state system, in which the rates of loss and gain of sacs are normally approximately equal. Parabasal bodies resemble the Golgi apparatus.     

ABCA1, ABCG1, and ABCG4 Are Distributed to Distinct Membrane Meso-Domains and Disturb Detergent-Resistant Domains on the Plasma Membrane

ATP-binding cassette A1 (ABCA1), ABCG1, and ABCG4 are lipid transporters that mediate the efflux of cholesterol from cells. To analyze the characteristics of these lipid transporters, we examined and compared their distributions and lipid efflux activity on the plasma membrane. The efflux of cholesterol mediated by ABCA1 and ABCG1, but not ABCG4, was affected by a reduction of cellular sphingomyelin levels. Detergent solubility and gradient density ultracentrifugation assays indicated that ABCA1, ABCG1, and ABCG4 were distributed to domains that were solubilized by Triton X-100 and Brij 96, resistant to Triton X-100 and Brij 96, and solubilized by Triton X-100 but resistant to Brij 96, respectively. Furthermore, ABCG1, but not ABCG4, was colocalized with flotillin-1 on the plasma membrane. The amounts of cholesterol extracted by methyl-β-cyclodextrin were increased by ABCA1, ABCG1, or ABCG4, suggesting that cholesterol in non-raft domains was increased. Furthermore, ABCG1 and ABCG4 disturbed the localization of caveolin-1 to the detergent-resistant domains and the binding of cholera toxin subunit B to the plasma membrane. These results suggest that ABCA1, ABCG1, and ABCG4 are localized to distinct membrane meso-domains and disturb the meso-domain structures by reorganizing lipids on the plasma membrane; collectively, these observations may explain the different substrate profiles and lipid efflux roles of these transporters.     

A Role for Myocilin in Receptor-Mediated Endocytosis

Myocilin is a broadly expressed protein that when mutated uniquely causes glaucoma. While no function has been ascribed to explain focal disease, some properties of myocilin are known. Myocilin is a cytoplasmic protein that also localizes to vesicles specifically as part of a large membrane-associated complex with properties similar to the SNARE machinery that function in vesicle fusion. Its role in vesicle dynamics has not been detailed, however myocilin intersects with the endocytic compartment at the level of the multivesicular body. Since internalized GPCRs are sorted in the multivesicular body, we investigated whether myocilin functions in ligand-dependent GPR143 endocytosis. Using recombinant systems we found that the kinetics of myocilin recruitment to biotinylated membrane proteins was similar to that of arrestin-3. We also co-localized myocilin with GPR143 and Arrestin-2 by confocal microscopy. However, wild-type myocilin differed significantly in its association kinetics and co-localization with internalized proteins from mutant myocilin (P370L or T377M). Moreover, we found that myocilin bound to the cytoplasmic tail of GPR143, an interaction mediated by its amino terminal helix-turn-helix domain. Hydrodynamic analyses show that the myocilin-GPR143 protein complex is >158 kD and stable in 500 mM KCl, but not 0.1% SDS. Collectively, data indicate that myocilin is recruited to the membrane compartment, interacting with GPCR proteins during ligand-mediated endocytosis and that GPCR signaling underlies pathology in myocilin glaucoma.