Your search keyword '"Roess DA"' showing total 64 results

1. Biological Consequences of Vanadium Effects on Formation of Reactive Oxygen Species and Lipid Peroxidation.

Author

Aureliano M, De Sousa-Coelho AL, Dolan CC, Roess DA, and Crans DC

Subjects

Humans, Reactive Oxygen Species pharmacology, Lipid Peroxidation, Oxidative Stress, Vanadium toxicity, Salts pharmacology

Abstract

Lipid peroxidation (LPO), a process that affects human health, can be induced by exposure to vanadium salts and compounds. LPO is often exacerbated by oxidation stress, with some forms of vanadium providing protective effects. The LPO reaction involves the oxidation of the alkene bonds, primarily in polyunsaturated fatty acids, in a chain reaction to form radical and reactive oxygen species (ROS). LPO reactions typically affect cellular membranes through direct effects on membrane structure and function as well as impacting other cellular functions due to increases in ROS. Although LPO effects on mitochondrial function have been studied in detail, other cellular components and organelles are affected. Because vanadium salts and complexes can induce ROS formation both directly and indirectly, the study of LPO arising from increased ROS should include investigations of both processes. This is made more challenging by the range of vanadium species that exist under physiological conditions and the diverse effects of these species. Thus, complex vanadium chemistry requires speciation studies of vanadium to evaluate the direct and indirect effects of the various species that are present during vanadium exposure. Undoubtedly, speciation is important in assessing how vanadium exerts effects in biological systems and is likely the underlying cause for some of the beneficial effects reported in cancerous, diabetic, neurodegenerative conditions and other diseased tissues impacted by LPO processes. Speciation of vanadium, together with investigations of ROS and LPO, should be considered in future biological studies evaluating vanadium effects on the formation of ROS and on LPO in cells, tissues, and organisms as discussed in this review.

Published

2023

2. Targeting Epigenetic Changes Mediated by Members of the SMYD Family of Lysine Methyltransferases.

Author

Padilla A, Manganaro JF, Huesgen L, Roess DA, Brown MA, and Crans DC

Subjects

Humans, DNA-Binding Proteins metabolism, Histones metabolism, Lysine metabolism, Transcription Factors metabolism, Neoplasms genetics, Epigenesis, Genetic, Histone-Lysine N-Methyltransferase metabolism

Abstract

A comprehensive understanding of the mechanisms involved in epigenetic changes in gene expression is essential to the clinical management of diseases linked to the SMYD family of lysine methyltransferases. The five known SMYD enzymes catalyze the transfer of donor methyl groups from S-adenosylmethionine (SAM) to specific lysines on histones and non-histone substrates. SMYDs family members have distinct tissue distributions and tissue-specific functions, including regulation of development, cell differentiation, and embryogenesis. Diseases associated with SMYDs include the repressed transcription of SMYD1 genes needed for the formation of ion channels in the heart leading to heart failure, SMYD2 overexpression in esophageal squamous cell carcinoma (ESCC) or p53-related cancers, and poor prognosis associated with SMYD3 overexpression in more than 14 types of cancer including breast cancer, colon cancer, prostate cancer, lung cancer, and pancreatic cancer. Given the importance of epigenetics in various pathologies, the development of epigenetic inhibitors has attracted considerable attention from the pharmaceutical industry. The pharmacologic development of the inhibitors involves the identification of molecules regulating both functional SMYD SET (Suppressor of variegation, Enhancer of Zeste, Trithorax) and MYND (Myeloid-Nervy-DEAF1) domains, a process facilitated by available X-ray structures for SMYD1, SMYD2, and SMYD3. Important leads for potential pharmaceutical agents have been reported for SMYD2 and SMYD3 enzymes, and six epigenetic inhibitors have been developed for drugs used to treat myelodysplastic syndrome (Vidaza, Dacogen), cutaneous T-cell lymphoma (Zoinza, Isrodax), and peripheral T-cell lymphoma (Beleodag, Epidaza). The recently demonstrated reversal of SMYD histone methylation suggests that reversing the epigenetic effects of SMYDs in cancerous tissues may be a desirable target for pharmacological development.

Published

2023

3. Glycoprotein G-protein Coupled Receptors in Disease: Luteinizing Hormone Receptors and Follicle Stimulating Hormone Receptors.

Author

Althumairy D, Zhang X, Baez N, Barisas G, Roess DA, Bousfield GR, and Crans DC

Abstract

Signal transduction by luteinizing hormone receptors (LHRs) and follicle-stimulating hormone receptors (FSHRs) is essential for the successful reproduction of human beings. Both receptors and the thyroid-stimulating hormone receptor are members of a subset of G-protein coupled receptors (GPCRs) described as the glycoprotein hormone receptors. Their ligands, follicle-stimulating hormone (FSH) and luteinizing hormone (LH) and a structurally related hormone produced in pregnancy, human chorionic gonadotropin (hCG), are large protein hormones that are extensively glycosylated. Although the primary physiologic functions of these receptors are in ovarian function and maintenance of pregnancy in human females and spermatogenesis in males, there are reports of LHRs or FSHRs involvement in disease processes both in the reproductive system and elsewhere. In this review, we evaluate the aggregation state of the structure of actively signaling LHRs or FSHRs, their functions in reproduction as well as summarizing disease processes related to receptor mutations affecting receptor function or expression in reproductive and non-reproductive tissues. We will also present novel strategies for either increasing or reducing the activity of LHRs signaling. Such approaches to modify signaling by glycoprotein receptors may prove advantageous in treating diseases relating to LHRs or FSHRs function in addition to furthering the identification of new strategies for modulating GPCR signaling.

Published

2020

4. Polyoxometalates function as indirect activators of a G protein-coupled receptor.

Author

Althumairy D, Postal K, Barisas BG, Nunes GG, Roess DA, and Crans DC

Subjects

Animals, CHO Cells, Cell Membrane metabolism, Chorionic Gonadotropin metabolism, Cricetulus, Electron Spin Resonance Spectroscopy, Magnetic Resonance Spectroscopy, Receptors, G-Protein-Coupled genetics, Vanadates metabolism, Anions metabolism, Polyelectrolytes metabolism, Receptors, G-Protein-Coupled metabolism, Vanadium Compounds metabolism

Abstract

The luteinizing hormone receptor (LHR), a G protein-coupled receptor (GPCRs), can initiate signaling in the presence of some vanadium-containing compounds as a result of vanadium compound interactions with the membrane lipids and/or the cell membrane lipid interface. The ability of LHR expressed in CHO cells to initiate signaling in the presence of highly charged and water-soluble polyoxovanadates (POV) including Na3[H3V10O28] (V10) and two mixed-valence heteropolyoxovanadates, K(NH4)4[H6V14O38(PO4)]·11H2O (V14) and [(CH3)4N]6[V15O36(Cl)] (V15), was investigated here. Interactions of the vanadium compounds with CHO cells decreased the packing of membrane lipids, drove aggregation of LHR and increased signal transduction by LHR. Cell responses were comparable to, or in the case of V14 and V15, greater than those seen for cells treated with human chorionic gonadotropin (hCG), a naturally-occurring LHR ligand produced in early pregnancy in humans. POV effects were observed for CHO cells where LHR was expressed at 10 000 or 32 000 LHR per cell but not when LHR was overexpressed with receptor numbers >100 000 LHR per cell. To determine which POV species were present in the cell medium during cell studies, the speciation of vanadate (V1), V10, V14 or V15 in cell medium was monitored using 51V NMR and EPR spectroscopies. We found that all the POVs initiated signaling, but V15 and V10 had the greatest effects on cell function, while V1 was significantly less active. However, because of the complex nature of vanadium compounds speciation, the effects on cell function may be due to vanadium species formed in the cell medium over time.

Published

2020

5. Effects of vanadium(IV) compounds on plasma membrane lipids lead to G protein-coupled receptor signal transduction.

Author

Althumairy D, Murakami HA, Zhang D, Barisas BG, Roess DA, and Crans DC

Subjects

Animals, CHO Cells, Cricetulus, Membrane Lipids metabolism, Vanadium chemistry, Coordination Complexes pharmacology, Membrane Microdomains drug effects, Receptors, LH metabolism, Signal Transduction drug effects

Abstract

Luteinizing hormone receptors (LHR), expressed at physiological numbers <30,000 receptors per cell, translocate to and signal within membrane rafts following binding of human chorionic gonadotropin (hCG). Similarly LHR signal in cells when treated with bis(maltolato)oxovanadium(IV) (BMOV), bis(ethylmaltolato)oxovanadium(IV) (BEOV) or VOSO 4 , which decrease membrane lipid packing. Overexpressed LHR (>85,000 receptors per cell) are found in larger clusters in polarized homo-transfer fluorescence resonance energy transfer (homo-FRET) studies that were not affected by either hCG or vanadium compounds. Intracellular cyclic adenylate monophosphate (cAMP) levels indicate that only clustered LHR are active and produce the intracellular second messenger, cAMP. When LHR are over-expressed, cell signaling is unaffected by binding of hCG or vanadium compounds. To confirm the existence of intact complex, the EPR spectra of vanadium compounds in cell media were obtained using 1 mM BMOV, BEOV or VOSO 4 . These data were used to determine intact complex in a 10 μM solution and verified by speciation calculations. Effects of BMOV and BEOV samples were about two-fold greater than those of aqueous vanadium(IV) making it likely that intact vanadium complex are responsible for effects of LHR function. This represents a new mechanism for activation of a G protein-coupled receptor; perturbations in the lipid bilayer by vanadium compounds lead to aggregation and accumulation of physiological numbers of LHR in membrane raft domains where they initiate signal transduction and production of cAMP, a second messenger involved in signaling., Competing Interests: Declaration of competing interest The authors have no conflict of interests with regard to this work., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

6. Fluorescence Observation of Single-Cell cAMP Signaling by G Protein-Coupled Receptors.

Author

Zhang D, Hadhoud GE, Helm K, Roess DA, and Barisas BG

Subjects

Animals, CHO Cells, Cells, Cultured, Cricetulus, Cyclic AMP metabolism, Humans, Optical Imaging, Receptors, G-Protein-Coupled metabolism, Cyclic AMP chemistry, Fluorescence, Receptors, G-Protein-Coupled chemistry, Signal Transduction, Single-Cell Analysis

Abstract

We present complementary flow cytometric and microscopic imaging methods, both utilizing a membrane-targeted cAMP sensor protein ICUE3, to examine hormone-dependent signaling by the luteinizing hormone (LH) receptor in individual cells. This receptor, a seven transmembrane domain protein belonging to the GPCR family, signals by activating adenylate cyclase to increase cAMP levels. The ICUE3 sensor protein exhibits fluorescence energy transfer between its CFP and YFP moieties and the ratio of CFP emission to YFP sensitized emission (YFPSE) increases with cAMP concentration. We used multichannel flow cytometry to compare CFP emission and YFPSE from each cell and hence measure that cell's cAMP level. This technique measured changes in cAMP levels in CHO cells expressing LH receptors and stimulated by forskolin or the hormone human chorionic gonadotropin (hCG) and showed that significant cell-to-cell variations exist in such cAMP responses. Because LH receptor behavior may reflect receptor expression levels, we developed a procedure to measure numbers of particular fluorescent cell proteins from measurements of MESF bead standards for slightly different fluorophores. We find that basal cAMP levels increase substantially in cells expressing high numbers mCherry-LH receptors per cell. This suggests activation through increased inter-receptor interactions at high concentrations. We then explored a microscope-based method for single cell measurements so that responses could be correlated with specific cell morphology and with time after treatments. This showed that cell responses to hCG are fully-developed after ~100 s. Taken together, these results demonstrate the utility of fluorescence methods in exploring cAMP signaling in individual cells.

Published

2019

7. Continuous Fluorescence Depletion Anisotropy Measurement of Protein Rotation.

Author

Zhang D, Song J, Pace J, Roess DA, and Barisas BG

Subjects

Glycerol chemistry, Protein Conformation, Viscosity, Fluorescence Polarization, Proteins chemistry, Rotation

Abstract

Protein rotation in viscous environments can be measured by fluorescence depletion anisotropy (FDA) which combines long lifetimes of chromophore triplet states with the sensitivity of fluorescence excitation and detection. FDA achieves sensitivity well beyond that attainable by the more common technique of time-resolved phosphorescence anisotropy (TPA). We have now combined benefits of both time-domain and frequency-domain FDA into a single continuous technique (CFDA). Intensity and polarization of a single laser beam are modulated continuously according to a complex, repeating waveform. Fluorescence signals excited from triplet-forming fluorescent probes are digitized over recurring waveform periods by a high-speed signal averager. CFDA experiments typically involve substantial ground state depletion. Thus signals, unlike those of TPA, are not linear in the exciting light intensity and simple data analysis based on such linearity is not appropriate. An exact solution of the coupled diffusion and triplet production/decay equation describing CFDA within individual data points has been combined with simulated annealing optimization to extract triplet and anisotropy decay kinetics from experimental data. Related calculations compare possible excitation waveforms with respect to rotational information provided per fluorescence photon. We present CFDA results for the model system of eosin conjugates of carbonic anhydrase, BSA and immunoglobulin G in 90% glycerol at various temperatures and initial cellular results on eosin-IgE bound to 2H3 cell Type I Fcε receptors. We explore how CFDA reflects rotational parameters of heterogeneous systems and discuss challenges of extending this method to single cell microscopic measurements.

Published

2018

8. Luteinizing hormone receptors are confined in mesoscale plasma membrane microdomains throughout recovery from receptor desensitization.

Author

Wolf-Ringwall AL, Winter PW, Roess DA, and George Barisas B

Subjects

Animals, CHO Cells, Chorionic Gonadotropin pharmacology, Cricetinae, Cricetulus, Humans, Luteinizing Hormone metabolism, Membrane Microdomains drug effects, Protein Transport drug effects, Membrane Microdomains metabolism, Receptors, LH metabolism

Abstract

We examined the involvement of membrane microdomains during human luteinizing hormone (LH) receptor recovery from receptor desensitization after removal of bound hormone. Lateral motions of individual desensitized LH receptors expressed on the surface of Chinese hamster ovary cells and transient association of these receptors with detergent-resistant membrane (DRM) microdomains isolated using isopycnic sucrose gradient ultracentrifugation were assessed. Single particle tracking experiments showed untreated individual LH receptors to be confined within cell-surface membrane compartments with an average diameter of 199 ± 17 nm and associated with membrane fractions characteristic of bulk plasma membrane. After brief exposure to human chorionic gonadotropin (hCG), LH receptors remained for several hours desensitized to hCG challenge. Throughout this period, significantly increased numbers of LH receptors were confined within smaller diameter (<120 nm) membrane compartments and associated with DRM fragments of characteristically low density. By 5 h, when cells again produced cAMP in response to hCG, unoccupied LH receptors were found in larger 169 ± 22 nm diameter cell-surface membrane compartments and >90 % of LH receptors were again found in high-density membrane fragments characteristic of bulk plasma membrane. Taken together, these results suggest that, during recovery from LH receptor desensitization, LH receptors are both located with DRM lipid environments and confined within small, mesoscale (80-160 nm) cell-surface compartments. This may reflect hormone-driven translocation of receptors into DRM and formation there of protein aggregates too large or too rigid to permit effective signaling. Once bound hormone is removed, receptor structures would have to dissociate before receptors can again signal effectively in response to hormone challenge. Moreover, such larger protein complexes would be more easily constrained laterally by membrane structural elements and so appear resident in smaller cell-surface compartments.

Published

2014

9. Raft localization of type I Fcε receptor and degranulation of RBL-2H3 cells exposed to decavanadate, a structural model for V2O5.

Author

Al-Qatati A, Fontes FL, Barisas BG, Zhang D, Roess DA, and Crans DC

Subjects

Animals, Dose-Response Relationship, Drug, Membrane Microdomains metabolism, Molecular Structure, Rats, Receptors, IgE metabolism, Signal Transduction drug effects, Structure-Activity Relationship, Tumor Cells, Cultured, Vanadates chemistry, Cell Degranulation drug effects, Membrane Microdomains drug effects, Receptors, IgE antagonists & inhibitors, Vanadates pharmacology

Abstract

Vanadium oxides (VOs) have been identified as low molecular weight sensitizing agents associated with occupational asthma and compromised pulmonary immunocompetence. Symptoms of adult onset asthma result, in part, from increased signal transduction by Type I Fcε receptors (FcεRI) leading to release of vasoactive compounds including histamine from mast cells. Exposure to (VOs) typically occurs in the form of particles which are insoluble. Upon contact with water or biological fluids, (VOs) form a series of soluble oxoanions, one of which is decavanadate, V10O28(6-) abbreviated V10, which is structurally related to a common vanadium oxide, that is vanadium pentoxide, V2O5. Here we investigate whether V10 may be initiating plasma membrane events associated with activation of FcεRI signal transduction. We show that exposure of RBL-2H3 cells to V10 causes a concentration-dependent increase in degranulation of RBL-2H3 and, in addition, an increase in plasma membrane lipid packing as measured by the fluorescent probe, di-4-ANEPPDHQ. V10 also increases FcεRI accumulation in low-density membrane fragments, i.e., lipid rafts, which may facilitate FcεRI signaling. To determine whether V10 effects on plasma membrane lipid packing were similarly observed in Langmuir monolayers formed from dipalmitoylphosphatidylcholine (DPPC), the extent of lipid packing in the presence and absence of V10 and vanadate was compared. V10 increased the surface area of DPPC Langmuir monolayers by 6% and vanadate decreased the surface area by 4%. These results are consistent with V10 interacting with this class of membrane lipids and altering DPPC packing.

Published

2013

10. The anti-diabetic bis(maltolato)oxovanadium(IV) decreases lipid order while increasing insulin receptor localization in membrane microdomains.

Author

Winter PW, Al-Qatati A, Wolf-Ringwall AL, Schoeberl S, Chatterjee PB, Barisas BG, Roess DA, and Crans DC

Subjects

Animals, Cell Line, Tumor, Cetrimonium, Cetrimonium Compounds chemistry, Insulin pharmacology, Insulin Receptor Substrate Proteins metabolism, Micelles, Movement drug effects, Oxidation-Reduction, Phosphorylation drug effects, Protein Transport drug effects, Rats, Hypoglycemic Agents pharmacology, Membrane Lipids chemistry, Membrane Lipids metabolism, Membrane Microdomains drug effects, Membrane Microdomains metabolism, Pyrones pharmacology, Receptor, Insulin metabolism, Vanadates pharmacology

Abstract

The effects of treatment with bis(maltolato)oxovanadium(IV) (BMOV) on protein localization in membrane microdomains were investigated by comparing the effects of insulin and treatment with BMOV on the lateral motions and compartmentalization of individual insulin receptors (IR). In addition, effects of insulin and BMOV on the association of IR, phosphorylated IR (pIR) and phosphorylated insulin receptor substrate-1 (pIRS-1) with chemically-isolated plasma membrane microdomains on rat basophilic leukemia (RBL-2H3) cells were evaluated. Single particle tracking experiments indicate that individual quantum dot-labeled IR on RBL-2H3 cells exhibit relatively unrestricted lateral diffusion of approximately 1 × 10(-10) cm(2) s(-1) and are confined in approximately 475 nm diameter cell-surface membrane compartments. After treating of RBL-2H3 cells with 10 μM BMOV, IR lateral diffusion and the size of IR-containing membrane compartments is significantly reduced to 6 × 10(-11) cm(2) s(-1) and approximately 400 nm, respectively. BMOV treatment also increases the association of IR with low-density, detergent-resistant membrane fragments isolated using isopycnic sucrose-gradient centrifugation from 2.4% for untreated cells to 25.8% for cells treated with 10 μM BMOV. Additionally, confocal fluorescence microscopic imaging of live RBL-2H3 cells labeled with the phase sensitive aminonaphthylethenylpyridinium-based dye, Di-4-ANEPPDHQ, indicates that BMOV treatment, but not insulin treatment, decreases cell-surface plasma membrane lipid order while fluorescence correlation spectroscopy measurements suggest that BMOV treatment does not affect IR surface-density or insulin binding affinity. Finally, model studies using microemulsions of cetyltrimethylammonium bromide (CTAB) micelles and (1)H NMR spectroscopy show that an oxidized form of BMOV readily localizes near the CTAB head-groups at the lipid-water interface. These observations were supported by IR spectroscopic studies using microemulsions of CTAB reverse micelles showing that both BMOV and oxidized BMOV are associated with the water pool. This conclusion is based on changes in (1)H NMR chemical shifts observed for the complex, oxidized BMOV. Moreover, these shifts appeared to be informative about the location of the complex. No differences were observed in the OD absorption peak positions for the CTAB reverse micelles prepared in the presence and absence of BMOV, oxidized BMOV or maltol. Combined, these results suggest that activation of IR signaling by both insulin and BMOV treatment involves increased association of IR with specialized, nanoscale membrane microdomains. The observed insulin-like activity of BMOV or decomposition products of BMOV may be due to changes in cell-surface membrane lipid order rather than due to direct interactions with IR.

Published

2012

11. Insulin receptors and downstream substrates associate with membrane microdomains after treatment with insulin or chromium(III) picolinate.

Author

Al-Qatati A, Winter PW, Wolf-Ringwall AL, Chatterjee PB, Van Orden AK, Crans DC, Roess DA, and Barisas BG

Subjects

Animals, Cell Line, Detergents chemistry, Hypoglycemic Agents pharmacology, Iron Chelating Agents pharmacology, Membrane Microdomains drug effects, Phosphorylation, Protein Binding, Pyridinium Compounds chemistry, Rats, Substrate Specificity, Insulin pharmacology, Membrane Microdomains metabolism, Picolinic Acids pharmacology, Receptor, Insulin metabolism

Abstract

We have examined the association of insulin receptors (IR) and downstream signaling molecules with membrane microdomains in rat basophilic leukemia (RBL-2H3) cells following treatment with insulin or tris(2-pyridinecarbxylato)chromium(III) (Cr(pic)(3)). Single-particle tracking demonstrated that individual IR on these cells exhibited reduced lateral diffusion and increased confinement within 100 nm-scale membrane compartments after treatment with either 200 nM insulin or 10 μM Cr(pic)(3). These treatments also increased the association of native IR, phosphorylated insulin receptor substrate 1 and phosphorylated AKT with detergent-resistant membrane microdomains of characteristically high buoyancy. Confocal fluorescence microscopic imaging of Di-4-ANEPPDHQ labeled RBL-2H3 cells also showed that plasma membrane lipid order decreased following treatment with Cr(pic)(3) but was not altered by insulin treatment. Fluorescence correlation spectroscopy demonstrated that Cr(pic)(3) did not affect IR cell-surface density or compete with insulin for available binding sites. Finally, Fourier transform infrared spectroscopy indicated that Cr(pic)(3) likely associates with the lipid interface in reverse-micelle model membranes. Taken together, these results suggest that activation of IR signaling in a cellular model system by both insulin and Cr(pic)(3) involves retention of IR in specialized nanometer-scale membrane microdomains but that the insulin-like effects of Cr(pic)(3) are due to changes in membrane lipid order rather than to direct interactions with IR., (© Springer Science+Business Media, LLC 2011)

Published

2012

12. Actin-dependent clustering of insulin receptors in membrane microdomains.

Author

Winter PW, Van Orden AK, Roess DA, and Barisas BG

Subjects

Animals, Cell Line, Fluorescence Polarization methods, Humans, Protein Binding physiology, Quantum Dots, Rats, Actins metabolism, Cholesterol metabolism, Insulin metabolism, Membrane Microdomains metabolism, Receptor, Insulin metabolism

Abstract

Recent evidence suggests that, after binding insulin, insulin receptors (IR) interact with specialized, cholesterol-containing, membrane microdomains and components of the actin cytoskeleton. Using single particle tracking techniques, we examined how binding of insulin, depletion of membrane cholesterol and disruption of actin filaments affect the lateral diffusion of individual quantum dot-labeled native IR on live rat basophilic leukemia 2H3 cells. We also examined the effects of similar treatments on IR clustering and multivalent insulin binding on these cells using both photon counting histogram analysis and polarization-based fluorescence resonance energy homo-transfer imaging. Our analyses indicate that binding of insulin to IR on these cells is multivalent, involving at least two insulin molecules per IR as labeling concentrations approach 1μM. Insulin binding also reduces lateral diffusion of IR and the size of membrane compartments accessed by IR. For IR that have not bound insulin, lateral diffusion of IR and the size of membrane compartments accessed by IR increase after disrupting actin filaments or depleting membrane cholesterol. However, clustering of insulin-occupied IR is reduced only by disrupting actin filaments or by fixing cells with paraformaldehyde prior to exposure to insulin, but not by depleting membrane cholesterol. Thus, it appears that, although restriction of IR lateral diffusion on these cells is sensitive to both actin filament dynamics and membrane cholesterol content, clustering of insulin-occupied IR primarily involves an actin-dependent mechanism., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2012

13. Fluorescence correlation spectroscopic examination of insulin and insulin-like growth factor 1 binding to live cells.

Author

Winter PW, McPhee JT, Van Orden AK, Roess DA, and Barisas BG

Subjects

Animals, Antibodies immunology, Binding Sites, Cell Line, Tumor, Insulin chemistry, Insulin-Like Growth Factor I chemistry, Protein Binding, Rats, Receptor, IGF Type 1 immunology, Receptor, Insulin immunology, Spectrometry, Fluorescence, Insulin metabolism, Insulin-Like Growth Factor I metabolism, Receptor, IGF Type 1 metabolism, Receptor, Insulin metabolism

Abstract

We used fluorescence correlation spectroscopy to examine the binding of insulin, insulin-like growth factor 1 (IGF1) and anti-receptor antibodies to insulin receptors (IR) and IGF1 receptors (IGF1R) on individual 2H3 rat basophilic leukemia cells. Experiments revealed two distinct classes of insulin binding sites with K(D) of 0.11 nM and 75 nM, respectively. IGF1 competes with insulin for a portion of the low-affinity insulin binding sites with K(D) of 0.14 nM and for the high-affinity insulin binding sites with K(D) of 10 nM. Dissociation rate constants of insulin and IGF1 were determined to be 0.015 min(-1) and 0.013 min(-1), respectively, allowing estimation of ligand association rate constants. Combined, our results suggest that, in addition to IR and IGF1R homodimers, substantial numbers of hybrid IR-IGF1R heterodimers are present on the surface of these cells., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

14. Restricted lateral diffusion of luteinizing hormone receptors in membrane microdomains.

Author

Wolf-Ringwall AL, Winter PW, Liu J, Van Orden AK, Roess DA, and Barisas BG

Subjects

Animals, CHO Cells, Chorionic Gonadotropin metabolism, Cricetinae, Cricetulus, Dose-Response Relationship, Drug, Female, Humans, Lipoylation physiology, Membrane Microdomains genetics, Receptors, LH genetics, Chorionic Gonadotropin pharmacology, Membrane Microdomains metabolism, Receptors, LH metabolism

Abstract

Single particle tracking was used to evaluate lateral motions of individual FLAG-tagged human luteinizing hormone (LH) receptors expressed on CHO cells and native LH receptors on both KGN human granulosa-derived tumor cells and M17 human neuroblastoma cells before and after exposure to human chorionic gonadotropin (hCG). Compared with LH receptors on untreated cells, LH receptors on cells treated with 100 nm hCG exhibit restricted lateral diffusion and are confined in small, nanometer-scale, membrane compartments. Similar to LH receptors labeled with Au-hCG, LH receptors labeled with gold-deglycosylated hCG, an hCG antagonist, also exhibit restricted lateral diffusion and are confined in nanoscale membrane compartments on KGN cells treated with 100 nm hCG. LH receptor point mutants lacking potential palmitoylation sites remain in large compartments despite treatment with 100 nm hCG as do LH receptors on cells treated with cytochalasin D. Finally, both polarization homotransfer fluorescence resonance energy transfer imaging and photon counting histogram analysis indicate that treatment with hCG induces aggregation of YFP-coupled LH receptors stably expressed on CHO cells. Taken together, our results demonstrate that binding of hCG induces aggregation of LH receptors within nanoscale, cell surface membrane compartments, that hCG binding also affects the lateral motions of antagonist binding LH receptors, and that receptor surface densities must be considered in evaluating the extent of hormone-dependent receptor aggregation.

Published

2011

15. Antidiabetic vanadium compound and membrane interfaces: interface-facilitated metal complex hydrolysis.

Author

Crans DC, Schoeberl S, Gaidamauskas E, Baruah B, and Roess DA

Subjects

Caco-2 Cells, Cetrimonium, Cetrimonium Compounds chemistry, Diabetes Mellitus drug therapy, Humans, Hydrolysis, Hypoglycemic Agents therapeutic use, Magnetic Resonance Spectroscopy, Micelles, Molecular Structure, Surface-Active Agents chemistry, Vanadium Compounds therapeutic use, Cell Membrane chemistry, Coordination Complexes chemistry, Hypoglycemic Agents chemistry, Vanadium Compounds chemistry

Abstract

The interactions of metabolites of the antidiabetic vanadium-containing drug bis(maltolato)oxovanadium(IV) (BMOV) with lipid interface model systems were investigated and the results were used to describe a potentially novel mechanism by which these compounds initiate membrane-receptor-mediated signal transduction. Specifically, spectroscopic studies probed the BMOV oxidation and hydrolysis product interaction with interfaces created from cetyltrimethylammonium bromide (CTAB) which mimics the positively charged head group on phosphatidylcholine. (1)H and (51)V NMR spectroscopies were used to determine the location of the dioxobis(maltolato)oxovanadate(V) and the maltol ligand in micelles and reverse micelles by measuring changes in the chemical shift, signal linewidth, and species distribution. Both micelles and reverse micelles interacted similarly with the complex and the ligand, suggesting that interaction is strong as anticipated by Coulombic attraction between the positively charged lipid head group and the negatively charged complex and deprotonated ligand. The nature of the model system was confirmed using dynamic light scattering studies and conductivity measurements. Interactions of the complex/ligand above and below the critical micelle concentration of micelle formation were different, with much stronger interactions when CTAB was in the form of a micelle. Both the complex and the ligand penetrated the lipid interface and were located near the charged head group. These studies demonstrate that a lipid-like interface affects the stability of the complex and raise the possibility that ligand exchange at the interface may be important for the mode of action for these systems. Combined, these studies support recently reported in vivo observations of BMOV penetration into 3T3-L1 adipocyte membranes and increased translocation of a glucose transporter to the plasma membrane.

Published

2011

16. Effects of vanadium-containing compounds on membrane lipids and on microdomains used in receptor-mediated signaling.

Author

Roess DA, Smith SML, Winter P, Zhou J, Dou P, Baruah B, Trujillo AM, Levinger NE, Yang X, Barisas BG, and Crans DC

Subjects

Animals, Calcium metabolism, Cells, Cultured, Glucose Transporter Type 4 metabolism, Insulin pharmacology, Ligands, Magnetic Resonance Spectroscopy methods, Magnetic Resonance Spectroscopy standards, Membrane Lipids chemistry, Molecular Structure, Rats, Reference Standards, Membrane Lipids metabolism, Membrane Microdomains drug effects, Membrane Microdomains metabolism, Organometallic Compounds pharmacology, Receptor, Insulin metabolism, Signal Transduction drug effects, Vanadium pharmacology

Abstract

There is increasing evidence for the involvement of plasma membrane microdomains in insulin receptor function. Moreover, disruption of these structures, which are typically enriched in sphingomyelin and cholesterol, results in insulin resistance. Treatment strategies for insulin resistance include the use of vanadium (V) compounds which have been shown in animal models to enhance insulin responsiveness. One possible mechanism for insulin-enhancing effects might involve direct effects of V compounds on membrane lipid organization. These changes in lipid organization promote the partitioning of insulin receptors and other receptors into membrane microdomains where receptors are optimally functional. To explore this possibility, we have used several strategies involving V complexes such as [VO(2)(dipic)](-) (pyridin-2,6-dicarboxylatodioxovanadium(V)), decavanadate (V(10)O(28)(6-), V(10)), BMOV (bis(maltolato)oxovanadium(IV)), and [VO(saltris)](2) (2-salicylideniminato-2-(hydroxymethyl)-1,3-dihydroxypropane-oxovanadium(V)). Our strategies include an evaluation of interactions between V-containing compounds and model lipid systems, an evaluation of the effects of V compounds on lipid fluidity in erythrocyte membranes, and studies of the effects of V-containing compounds on signaling events initiated by receptors known to use membrane microdomains as signaling platforms.

Published

2008

17. Compartmentalization of the Type I Fc epsilon receptor and MAFA on mast cell membranes.

Author

Barisas BG, Smith SM, Liu J, Song J, Hagen GM, Pecht I, and Roess DA

Subjects

Animals, Cell Line, Cell Membrane chemistry, Cell Membrane drug effects, Cholera Toxin pharmacology, Mast Cells chemistry, Mast Cells drug effects, Membrane Microdomains drug effects, Rats, Lectins, C-Type analysis, Lectins, C-Type metabolism, Mast Cells immunology, Membrane Glycoproteins analysis, Membrane Glycoproteins metabolism, Membrane Microdomains chemistry, Receptors, IgE analysis, Receptors, IgE metabolism

Abstract

The Mast cell Function-associated Antigen (MAFA) is a membrane glycoprotein on rat mast cells (RBL-2H3) expressed at a ratio of approximately 1:30 with respect to the Type I Fc epsilon receptor (Fc epsilon RI). Despite this stoichiometry, clustering MAFA by its specific mAb G63 substantially inhibits secretion of both granular and de novo synthesized mediators induced upon Fc epsilon RI aggregation. Since the Fc epsilon RIs apparently signal from within raft micro-environments, we investigated possible co-localization of MAFA within these membrane compartments containing aggregated Fc epsilon RI. We used cholera toxin B subunit (CTB) to cluster the raft component ganglioside GM1 and studied the effects of this perturbation on rotation of Fc epsilon RI and MAFA by time-resolved phosphorescence anisotropy of erythrosin-conjugated probes. CTB treatment would be expected to substantially inhibit rotation of raft-associated molecules. Experimentally, CTB has no effect on rotational parameters such as the long-time anisotropy (r(infinity)) of unperturbed Fc epsilon RI or MAFA. However, on cells where Fc epsilon RI-IgE has previously been clustered by antigen (DNP(14)-BSA), CTB treatment increases the Fc epsilon RI-IgE's r(infinity) by 0.010 and MAFA's by 0.014. Similarly, CTB treatment of cells where MAFA had been clustered by mAb G63 increases MAFA's r(infinity) by 0.010 but leaves Fc epsilon RI's unaffected. Evaluation of raft localization of Fc epsilon RI and MAFA using sucrose gradient ultracentrifugation of Triton X-100 treated membrane fragments demonstrates that a significant fraction of MAFA molecules sediments with rafts when Fc epsilon RI is clustered by antigen or when MAFA itself is clustered by mAb G63. The large excess of Fc epsilon RI over MAFA explains why clustering MAFA does not substantively affect Fc epsilon RI dynamics. Moreover, in single-particle tracking studies of individual Fc epsilon RI-IgE or MAFA molecules, these proteins, upon clustering by antigen, move into small membrane compartments of reduced, but similar, dimensions. This provides additional indication of constitutive interactions between Fc epsilon RI and MAFA. Taken together, these results of distinct methodologies suggest that MAFA functions within raft microdomains of the RBL-2H3 cell membrane and thus in close proximity to the Fc epsilon RI which themselves signal from within the raft environment.

Published

2007

18. Constitutively-active human LH receptors are self-associated and located in rafts.

Author

Lei Y, Hagen GM, Smith SM, Liu J, Barisas G, and Roess DA

Subjects

Animals, CHO Cells, Cricetinae, Cricetulus, Cyclic AMP metabolism, Energy Transfer drug effects, Fluorescence Resonance Energy Transfer, Humans, Luteinizing Hormone pharmacology, Membrane Microdomains drug effects, Mutation genetics, Photobleaching drug effects, Protein Structure, Quaternary, Protein Transport drug effects, Recombinant Fusion Proteins metabolism, Signal Transduction drug effects, Structure-Activity Relationship, beta-Cyclodextrins pharmacology, Membrane Microdomains metabolism, Receptors, LH chemistry, Receptors, LH metabolism

Abstract

Several naturally occurring mutations in human luteinizing hormone receptors (LHR) at position 578 are associated with constitutive activation of the receptor. To determine whether human LHRs that signal in the absence of ligand are self-associated, fluorescence resonance energy transfer (FRET) between receptors was evaluated. Values for FRET between wild type LHR in the absence of ligand were less than 1% and increased significantly to over 11% after exposure to hCG. Constitutively active receptors exhibited 11-15% FRET efficiency in the absence of hormone and these values did not change with hCG treatment. A large fraction of constitutively active LHR-D578H receptors were also associated with so-called plasma membrane rafts. Disruption of these membrane microdomains reduced FRET efficiency but did not affect signalling through cAMP. Thus, in the absence of ligand, constitutively active receptors are self-associated and located in high buoyancy membrane fractions, both characteristics of the hormone-treated wild type receptor.

Published

2007

19. Fluorescence photobleaching recovery using total internal reflection interference fringes.

Author

Hagen GM, Roess DA, and Barisas BG

Subjects

Animals, CHO Cells, Cell Membrane metabolism, Cricetinae, Green Fluorescent Proteins metabolism, Recombinant Fusion Proteins metabolism, Fluorescence Recovery After Photobleaching methods

Abstract

Lateral diffusion measurements on cell membrane molecules, most commonly accomplished through fluorescence photobleaching recovery (FPR or FRAP), provide information on such molecules' size, environment, and participation in intermolecular interactions. However, difficulties arise in FPR measurements of lateral dynamics of materials, such as visible fluorescent protein (VFP) fusion proteins, where fluorescent intracellular species contribute to the fluorescence recovery signal and thus distort measurements intended to reflect surface molecules only. A new method helps eliminate these difficulties. In total internal reflection interference fringe FPR, interfering laser beams enter a 1.65-numercial aperture (NA) Olympus objective at the periphery of the back focal plane where the NA exceeds 1.38. This creates an extended interference pattern totally internally reflected at the coverslip-medium interface which excites fluorescence only from fluorescent molecules located where the cell contacts the coverslip. The large illuminated area interrogates many more membrane receptors than spot methods and hence obtains more diffusion information per measurement while rejecting virtually all interfering intracellular fluorescence. We report successful measurements of membrane dynamics of both VFP-containing and conventionally labeled molecules by this technique and compare them with results of other FPR methods.

Published

2006

20. Luteinizing hormone receptors translocate to plasma membrane microdomains after binding of human chorionic gonadotropin.

Author

Smith SM, Lei Y, Liu J, Cahill ME, Hagen GM, Barisas BG, and Roess DA

Subjects

Animals, CHO Cells, Cholesterol physiology, Cricetinae, Cyclic AMP physiology, Protein Transport, Rats, Signal Transduction, beta-Cyclodextrins pharmacology, Chorionic Gonadotropin metabolism, Membrane Microdomains metabolism, Receptors, LH metabolism

Abstract

Receptor-mediated signal transduction by G protein-coupled receptors can involve redistribution of plasma membrane receptors into membrane structures that are characterized by insolubility in Triton X-100 and low buoyant density in sucrose gradients. Here we describe the translocation of wild-type (wt) rat LH receptors (LHR-wt) from the bulk membrane into membrane microdomains (rafts) after the binding of human chorionic gonadotropin (hCG). In sucrose gradient ultracentrifugation of plasma membranes from cells stably expressing FLAG-tagged LHR-wt, receptors were located in high-density membrane fractions before binding of hormone and in low-density fractions after hCG treatment. Receptor translocation to low-density sucrose fractions did not occur when cells were pretreated with 1% methyl-beta-cyclodextrin, which reduces membrane cholesterol and disrupts rafts. Single-particle tracking of individual FLAG-LHR-wt receptors showed that hCG-treated receptors become confined in small compartments with a diameter of 86 +/- 36 nm, significantly smaller than 230 +/- 79 nm diameter regions accessed by the untreated receptor. Receptors were no longer confined in these small compartments after disruption of rafts by methyl-beta-cyclodextrin, a treatment that also decreased levels of cAMP in response to hCG. Finally, translocation of LHR into rafts required a functional hormone-receptor complex but did not occur after extensive receptor cross-linking that elevated cAMP levels. Thus, retention of LHR in rafts or small membrane compartments is a characteristic of functional, hormone-occupied LHR-wt. Although raft translocation was not essential for cAMP production, it may be necessary for optimizing hormone-mediated signaling.

Published

2006

21. Chimeric GnRH-LH receptors and LH receptors lacking C-terminus palmitoylation sites do not localize to plasma membrane rafts.

Author

Lei Y, Hagen GM, Smith SM, Barisas BG, and Roess DA

Subjects

Animals, Binding Sites, Gene Deletion, Protein Structure, Tertiary, Rats, Receptors, LH genetics, Receptors, LHRH genetics, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Signal Transduction, Sucrose metabolism, Cell Membrane metabolism, Palmitates metabolism, Receptors, LH metabolism, Receptors, LHRH metabolism

Abstract

Luteinizing hormone and gonadotropin releasing hormone receptors (LHR and GnRHR, respectively) are G protein-coupled receptors with important functions in reproduction. We have developed chimeric GnRHR-LHR that contain the full GnRHR coupled to various forms of the LH receptor C-terminus to explore the role of the LH receptor C-terminus in raft localization of the receptor and signaling. Addition of the full-length LHR C-terminus to GnRHR resulted in localization of the resting chimeric receptor in the bulk membrane rather than plasma membrane rafts as has been reported for the wild-type GnRHR [A. Navratil, S. Bliss, K. Berghorn, J. Haughian, T. Farmerie, J. Graham, C. Clay, M. Roberson, Constitutive localization of the gonadotropin-releasing hormone (GnRH) receptor to low density membrane microdomains is necessary for GnRH signaling to ERK, J. Biol. Chem. 278 (2003) 31593-31602]. With truncation of the LHR C-terminus, approximately 3% of chimeric receptors appeared in low density membrane fractions. Palmitoylation of sites on the LHR C-terminus appears important for raft localization. Mutations to C-terminus palmitoylation sites eliminated translocation of LH receptors from the bulk membrane to rafts upon binding of hCG although these mutant receptors retained the ability to signal via cAMP.

Published

2005

22. High probe intensity photobleaching measurement of lateral diffusion in cell membranes.

Author

Hagen GM, Roess DA, de León GC, and Barisas BG

Subjects

Animals, CHO Cells, Cricetinae, Cricetulus, Diffusion, Luminescent Proteins analysis, Molecular Probes analysis, Photobleaching, Rats, Recombinant Fusion Proteins analysis, Tumor Cells, Cultured, Cell Membrane chemistry, Fluorescence Recovery After Photobleaching methods, Membrane Proteins analysis

Abstract

Lateral diffusion measurements, most commonly accomplished through Fluorescence Photobleaching Recovery (FPR or FRAP), provide important information on cell membrane molecules' size, environment and participation in intermolecular interactions. However, serious difficulties arise when these techniques are applied to weakly expressed proteins of either of two types: fusions of membrane receptors with visible fluorescent proteins or membrane molecules on autofluorescent cells. To achieve adequate sensitivity in these cases, techniques such as interference fringe FPR are needed. However, in such measurements, cytoplasmic species contribute to the fluorescence recovery signal and thus yield diffusion parameters not properly representing the small number of surface molecules. A new method helps eliminate these difficulties. High Probe Intensity (HPI)-FPR measurements retain the intrinsic confocality of spot measurements to eliminate interference from fluorescent cytoplasmic species. However, HPI-FPR methods lift the previous requirement that FPR procedures be performed at probe beam intensities low enough to not induce bleaching in samples during measurements. The high probe intensities now employed provide much larger fluorescence signals and thus more information on molecular diffusion from each measurement. We report successful measurement of membrane dynamics by this technique.

Published

2005

23. Self-association and raft localization of functional luteinizing hormone receptors.

Author

Roess DA and Smith SM

Subjects

Animals, Female, Humans, Luteinizing Hormone metabolism, Protein Transport, Signal Transduction, Membrane Microdomains metabolism, Receptors, LH metabolism

Abstract

Membrane motions of LH receptors following binding of hormone agonists are consistent with hormone-driven aggregation. It is increasingly apparent that G protein-coupled receptors, including the LH receptor, are engaged in dynamic interactions with one another and other membrane components. These interactions are governed, in part, by a number of factors including whether the receptor has bound ligand, whether the receptor is capable of transducing a hormone-mediated signal, and the nature of the membrane environment within which the receptor is found. Microscopic methods, including laser-optical techniques, are ideally suited to probe dynamic events on cell membranes and provide an opportunity to examine interactions between receptors and other membrane components on viable cells. We and others have used a variety of techniques, some of which are summarized below, to examine functional and nonfunctional LH receptors on viable cells and the membrane environment of these receptors during cell signaling events.

Published

2003

24. Membrane organization of luteinizing hormone receptors differs between actively signaling and desensitized receptors.

Author

Hunzicker-Dunn M, Barisas G, Song J, and Roess DA

Subjects

Animals, Anisotropy, Diffusion, Fluorescence Resonance Energy Transfer, Luminescent Measurements, Microscopy, Confocal, Protein Binding, Receptors, LH metabolism, Swine, Time Factors, Cell Membrane metabolism, Receptors, LH chemistry, Signal Transduction

Abstract

Signaling by the luteinizing hormone/choriogonadotropin receptor (LHR) is of considerable interest because of its requirement for successful reproduction. Time-resolved phosphorescence anisotropy and fluorescence resonance energy transfer were used to investigate the organization of endogenous LHRs in porcine follicular membranes in two distinct signaling states, active and desensitized. Desensitized LHRs exhibited approximately 3-fold slower rotational correlation times compared with active LHRs (59 +/- 4 and 21 +/- 9 mus, respectively), suggesting that with agonist-dependent desensitization the receptors are organized into larger protein complexes. Incubation of membranes with inhibitors of LHR desensitization, such as neutralizing anti-arrestin antibodies, a synthetic peptide corresponding to the third intracellular loop of the LHR but not the corresponding scrambled peptide, or catalytically inactive ARNO, resulted in faster rotational diffusion times equivalent to those of actively signaling LHRs. Furthermore, desensitized LHRs exhibited a 2.4-fold increase in fluorescence resonance energy transfer between LHRs suggesting that the larger protein aggregates formed during desensitization contain more self-associated LHRs. These results indicate that agonist-dependent LHR desensitization precedes organization of LHRs at the cells surface into larger protein aggregates.

Published

2003

25. Interactions of the mast cell function-associated antigen with the type I Fcepsilon receptor.

Author

Song J, Hagen G, Smith SM, Roess DA, Pecht I, and Barisas BG

Subjects

Animals, Antibodies, Monoclonal chemistry, Antibodies, Monoclonal immunology, Cell Degranulation, Diffusion, Fluorescence Polarization, Fluorescence Resonance Energy Transfer, Immunoglobulin E metabolism, Lectins, C-Type analysis, Lectins, C-Type immunology, Membrane Glycoproteins analysis, Membrane Glycoproteins immunology, Membrane Microdomains chemistry, Protein Structure, Tertiary, Protein Transport, Rats, Receptors, Cell Surface metabolism, Rotation, Tumor Cells, Cultured, Lectins, C-Type metabolism, Mast Cells immunology, Membrane Glycoproteins metabolism, Receptors, IgE metabolism

Abstract

Clustering the mast cell function-associated antigen (MAFA), a membrane glycoprotein expressed on 2H3 cells, by its specific monoclonal antibody G63 substantially inhibits secretion normally triggered by aggregating these cells' Type I Fcepsilon receptor (FcepsilonRI). To explore possible MAFA-FcepsilonRI interactions giving rise to this inhibition, we have studied by time-resolved phosphorescence anisotropy the rotational behavior of both MAFA and FcepsilonRI as ligated by various reagents involved in FcepsilonRI-induced degranulation and MAFA-mediated inhibition thereof. From 4 to 37 degrees C the rotational correlation times (mean+/-S.D.) of FcepsilonRI-bound, erythrosin-conjugated IgE resemble those observed for MAFA-bound erythrosin-conjugated G63 Fab, 82+/-17 micros and 79+/-31 micros at 4 degrees C, respectively. Clustering the FcepsilonRI-IgE complex by antigen or by anti-IgE increases the phosphorescence anisotropy of G63 Fab and slows its rotational relaxation. Lateral diffusion of G63 Fab is also slowed by antigen clustering of the receptor. Taken together, these results suggest that unperturbed MAFA associates with clustered FcepsilonRI. They are also consistent with its interaction with the isolated receptor, a situation also suggested by FRET measurements on the system.

Published

2002

26. The mast cell function-associated antigen and its interactions with the type I Fcepsilon receptor.

Author

Song J, Hagen GM, Roess DA, Pecht I, and Barisas BG

Subjects

Animals, Antibodies, Monoclonal, Antibody Specificity, Cross-Linking Reagents, Erythrosine metabolism, Immunoglobulin E metabolism, Immunoglobulin Fab Fragments immunology, Kinetics, Luminescent Measurements, Membrane Glycoproteins chemistry, Mucous Membrane immunology, Mucous Membrane physiology, Rats, Receptors, IgE chemistry, Tumor Cells, Cultured, Lectins, C-Type, Membrane Glycoproteins immunology, Receptors, IgE physiology

Abstract

Rat mucosal-type mast cells of the RBL-2H3 line express a glycoprotein termed the MAst cell Function-associated Antigen (MAFA). When MAFA is clustered by its specific monoclonal antibody G63, secretion normally triggered by aggregating these cells' type I Fcepsilon receptor (FcepsilonRI) is substantially inhibited. The nature of MAFA-FcepsilonRI interactions giving rise to this inhibition remains unclear. Rotational diffusion of a membrane protein is a sensitive probe of its involvement in intermolecular interactions. We have therefore studied by time-resolved phosphorescence anisotropy the rotational behavior of both MAFA and FcepsilonRI as ligated by various reagents involved in FcepsilonRI-induced degranulation and MAFA-mediated inhibition thereof. From 4 to 37 degrees C, the rotational correlation times (mean +/- SD) of FcepsilonRI-bound, erythrosin-conjugated IgE resemble those observed for MAFA-bound, erythrosin-conjugated G63 Fab, 82 +/- 17 and 79 +/- 31 micros at 4 degrees C, respectively. Clustering the FcepsilonRI-IgE complex by antigen or by anti-IgE increases the phosphorescence anisotropy of G63 Fab and slows its rotational relaxation. Lateral diffusion of G63 Fab is also slowed by antigen clustering of the receptor. Taken together, these results indicate that unperturbed MAFA associates with clustered FcepsilonRI. They are also consistent with its interaction with the isolated receptor.

Published

2002

27. Molecular dynamics of point mutated I-A(k) molecules expressed on lymphocytes.

Author

Munnelly HM, Brady CJ, Hagen GM, Horvat RD, Wade WF, Roess DA, and Barisas BG

Subjects

Animals, Antibodies, Monoclonal immunology, Antigen Presentation, Bucladesine pharmacology, CD40 Antigens immunology, Diffusion, Dimerization, Energy Transfer, Fluorescence, Histocompatibility Antigens Class II genetics, Mice, Muramidase pharmacology, Peptide Fragments pharmacology, Point Mutation, Rotation, Tumor Cells, Cultured, B-Lymphocytes immunology, Histocompatibility Antigens Class II chemistry, Histocompatibility Antigens Class II immunology

Abstract

We have recently reported the lateral and rotational diffusion parameters for I-A(k) molecules expressing various cytoplasmic truncations (Int. Immunol. 12 (2000) 1319). We now describe the membrane dynamics of I-A(k) with various mutations in the presumed contact region between alphabeta-heterodimers in an (alphabeta)2 dimer of dimers structure. Such mutations are known to strongly affect the antigen presentation ability of these molecules (Int. Immunol. 10 (1998) 1237-1249) but cause relatively small changes in the molecular dynamics of I-A(k). Lateral diffusion coefficients of I-A(k) wild-type molecules and mutants obtained via fringe fluorescence photobleaching recovery (FPR) ranged from 1.1 to 2.3x10(-10)cm2/s at room temperature while fractional mobilities averaged 75+/-6%. For all cell types examined, treatment with either hen egg lysozyme 46-61 peptide or db-cAMP reduced the I-A(k) mobile fraction by about 10% relative to untreated cells, suggesting that these treatments may increase lateral confinement of class II in lipid rafts or cytoskeletal interactions of the molecules. Wild-type I-A(k) and mutants capable of normal or partial antigen presentation exhibited, as a group, slightly longer rotational correlation times (RCT) at 4 degrees C than did mutants inactive in antigen presentation, 14+/-4 versus 10+/-1 micros, respectively. Moreover, peptide, cAMP and anti-CD40 mAb treatment all increased rotational correlation times for fully- and partially-functional I-A(k) but not for non-functional molecules. For example, 16 h peptide treatment yielded average RCTs of 28+/-12 and 10+/-1 micros for the groups of functional and non-functional molecules, respectively. Such modulation of the dynamics of functional class II molecules is consistent with these treatments' stabilization of class II or induction of new gene expression. Measurements of fluorescence resonant energy transfer between I-A(k), though complicated by cellular autofluorescence, averaged 6+/-7% over 15 cells or treatments, a result consistent with the presence of a small fraction of I-A(k) as a dimer of dimers species. In summary, our results suggest subtle changes in the molecular motions of class II molecules correlate with a significant impact on class II function. Molecules active in antigen presentation exhibit more restricted motion in the membrane, and thus presumably more extensive intermolecular interactions, than non-functional molecules. Further, treatments, such as db-cAMP and anti-CD40, which rescue antigen presentation by partially defective mutants, appear to increase such interactions, several types of which have already been reported for class II. A more detailed understanding of these phenomena will require both more sensitive biophysical tools and a more refined model of the role of class II intermolecular interactions in antigen presentation.

Published

2001

28. Binding of agonist but not antagonist leads to fluorescence resonance energy transfer between intrinsically fluorescent gonadotropin-releasing hormone receptors.

Author

Horvat RD, Roess DA, Nelson SE, Barisas BG, and Clay CM

Subjects

Animals, Bacterial Proteins chemistry, CHO Cells, Cricetinae, Cyclic AMP biosynthesis, Cyclic AMP metabolism, Diffusion, Gonadotropin-Releasing Hormone analogs & derivatives, Gonadotropin-Releasing Hormone metabolism, Green Fluorescent Proteins, Hormone Antagonists metabolism, Kinetics, Luminescent Proteins chemistry, Oligopeptides metabolism, Receptors, LHRH agonists, Receptors, LHRH antagonists & inhibitors, Recombinant Fusion Proteins chemistry, Signal Transduction physiology, Spectrometry, Fluorescence, Gonadotropin-Releasing Hormone pharmacology, Hormone Antagonists pharmacology, Oligopeptides pharmacology, Receptors, LHRH physiology

Abstract

We have used spot fluorescence photobleaching recovery methods to measure the lateral diffusion of GnRH receptor (GnRHR) fused at its C terminus to green fluorescent protein (GFP) after binding of either GnRH agonists or antagonist. Before ligand binding, GnRHR-GFP exhibited fast rates of lateral diffusion (D = 18 +/- 2.8 x 10(-10)cm2 x sec(-1)) and high values for fractional fluorescence recovery (%R) after photobleaching (73 +/- 1%). Increasing concentrations of agonists, GnRH or D-Ala6-GnRH, caused a dose-dependent slowing of receptor lateral diffusion as well as a decreased fraction of mobile receptors. Increasing concentrations of the GnRH antagonist Antide slowed the rate of receptor diffusion but had no effect on the fraction of mobile receptors, which remained high. To determine whether the decrease in %R caused by GnRH agonists was due, in part, to increased receptor self-association, we measured the fluorescence resonance energy transfer efficiency between GnRHR-GFP and yellow fluorescent protein-GNRHR: There was no energy transfer between GnRHR on untreated cells. Treatment of cells with GnRH agonists led to a concentration-dependent increase in the energy transfer between GnRH receptors to a maximum value of 16 +/- 1%. There was no significant energy transfer between GnRH receptors on cells treated with Antide, even at a concentration of 100 nM. These data provide direct evidence that, before binding of ligand, GnRHR exists as an isolated receptor and that binding of GnRH agonists, but not antagonist, leads to formation of large complexes that exhibit slow diffusion and contain receptors that are self-associated.

Published

2001

29. Luteinizing hormone receptors are self-associated in slowly diffusing complexes during receptor desensitization.

Author

Horvat RD, Barisas BG, and Roess DA

Subjects

Animals, Bacterial Proteins genetics, Bacterial Proteins metabolism, CHO Cells, Cell Membrane metabolism, Chorionic Gonadotropin pharmacology, Cricetinae, Cyclic AMP metabolism, Energy Transfer, Fluorescence, Fluorescent Dyes chemistry, Green Fluorescent Proteins, Humans, Luminescent Proteins genetics, Luminescent Proteins metabolism, Luteinizing Hormone pharmacology, Rats, Receptors, LH drug effects, Receptors, LH genetics, Rhodamines chemistry, Sheep, Chorionic Gonadotropin metabolism, Luteinizing Hormone metabolism, Receptors, LH metabolism

Abstract

We have previously shown that rat LH receptors (LHRs) occupied by human CG (hCG) exhibit slow receptor lateral diffusion and are self-associated. Here we have examined whether LHRs become self-associated and enter slowly diffusing structures in response to hormone binding and whether these receptors retain this organization while in the desensitized state. Before hormone exposure, wild-type rat LHRs coupled at the C terminus to enhanced green fluorescent protein (GFP-LHR-wt) exhibited fast lateral diffusion, as assessed by fluorescent photobleaching recovery (FPR) methods, and most receptors were laterally mobile. After 30 min exposure to hCG and subsequent removal of hormone by low pH wash, hormone challenge at any time within the next 4 h produced no increase in cellular cAMP levels. During this time, LHRs were either laterally immobile or exhibited slower lateral diffusion. When LHRs were again responsive to binding of hormone, the rate of receptor lateral diffusion had become significantly faster and the fraction of mobile receptors was again large. Desensitized LHRs were also self-associated and present in microscopically visible clusters on the plasma membrane. Fluorescence energy transfer (FET) methods were used to measure the extent of interaction between receptors coupled to either GFP or to yellow fluorescent protein (YFP). Before hormone treatment, there was essentially no energy transfer between LHRs. After desensitization of the receptors by 30 min exposure to hCG, energy transfer efficiency increased to 18%. Values for FET efficiency between desensitized receptors decreased over time, and receptors were responsive to hormone only after measurable energy transfer had completely disappeared. Together these results suggest that desensitized LHRs exist in large, slowly diffusing structures containing self-associated receptors and that these structures must dissipate before the receptor can again respond to hormone.

Published

2001

30. Steroidogenic acute regulatory protein and peripheral-type benzodiazepine receptor associate at the mitochondrial membrane.

Author

West LA, Horvat RD, Roess DA, Barisas BG, Juengel JL, and Niswender GD

Subjects

Animals, COS Cells, Chlorocebus aethiops, Kinetics, Membrane Proteins metabolism, Recombinant Fusion Proteins metabolism, Sheep, Transfection, Steroidogenic Acute Regulatory Protein, Intracellular Membranes metabolism, Mitochondria metabolism, Phosphoproteins metabolism, Receptors, GABA-A metabolism

Abstract

Steroidogenic acute regulatory protein (StAR) and peripheral-type benzodiazepine receptor (PBR) have both been implicated in the transport of cholesterol across mitochondrial membranes in steroidogenic cells. Therefore, we hypothesized that StAR and PBR were associated in this process. To test this hypothesis, we measured fluorescence energy transfer (FET) between these proteins by fusing enhanced green fluorescent protein (GFP, donor fluorophore) and yellow fluorescent protein (YFP, acceptor fluorophore) to the C-terminus of ovine StAR (37GFP) and ovine PBR (PBRYFP), respectively. These intrinsically fluorescent proteins were stably transfected into Cos-7 cells and determined to be biologically active. For FET to occur the appropriate fluorescent molecules need to be <100 A from each other. We observed 22.0 +/- 0.9% energy transfer efficiency for 37GFP and PBRYFP, a 4.9 fold increase above non-specific energy transfer between free GFP and PBRYFP (p <.0001). Thus, it appears that StAR and PBR are closely associated in mitochondrial membranes and that these molecules may interact in the transportation of cholesterol.

Published

2001

31. Luteinizing hormone receptors are self-associated in the plasma membrane.

Author

Roess DA, Horvat RD, Munnelly H, and Barisas BG

Subjects

Animals, Cells, Cultured, Chemical Phenomena, Chemistry, Physical, Chorionic Gonadotropin metabolism, Diffusion, Dimerization, Energy Transfer, Fluorescein-5-isothiocyanate, Fluorescence, Fluorescent Dyes, Gene Expression, Humans, Luteinizing Hormone metabolism, Microscopy, Fluorescence, Photochemistry, Rats, Receptors, LH chemistry, Receptors, LH genetics, Rhodamines, Structure-Activity Relationship, Transfection, Cell Membrane metabolism, Receptors, LH metabolism

Abstract

We have evaluated rat LH receptor self-association and lateral dynamics for functional and nonfunctional receptors after binding of hormone. We demonstrate, for the first time, that grouped receptors observed in electron or light microscopy represent actual receptor dimers or oligomers rather than simply the concentration of receptors within membrane microdomains. Fringe fluorescence photobleaching recovery methods showed that, after binding of either LH or human CG (hCG), functional wild-type LH receptors, expressed on 293 cells (LHR-wt cells), have mobilities that are 25% lower than those of nonfunctional LH receptors containing an arginine substitution for lysine at position 583 (LHR-K583R cells). Because lateral diffusion coefficients in two dimensions depend only on the logarithm of the molecular size of the diffusing species, this result implies that functional receptors exist in substantially larger membrane complexes than do nonfunctional receptors. In single-cell measurements of fluorescence energy transfer after hormone binding, functional LH receptors were also characterized by receptor self-aggregation. Values for fluorescence resonant energy transfer efficiency were 13 +/- 2% and 17 +/- 3% between fluorophore-conjugated LH or hCG, respectively, bound to receptors on LHR-wt cells. However, there was little or no energy transfer between receptors on LHR-K583R cells. These results suggest that receptor functionality involves receptor-receptor interactions and that the extent of such receptor self-association depends on whether LH or hCG binds the receptor.

Published

2000

32. Rotational and lateral dynamics of I-A(k) molecules expressing cytoplasmic truncations.

Author

Munnelly HM, Brady CJ, Hagen GM, Wade WF, Roess DA, and Barisas BG

Subjects

Anisotropy, Antibodies, Monoclonal immunology, Antigen Presentation, Cell Line, Histocompatibility Antigens Class II immunology, Immunoglobulin Fab Fragments immunology, Luminescent Measurements, Membrane Proteins chemistry, Histocompatibility Antigens Class II chemistry

Abstract

Rotational and lateral diffusion of I-A(k) molecules with various alpha and beta chain cytoplasmic truncations known to affect class II function were measured to assess the role of cytoplasmic domains in regulating I-A(k) molecular motions. Deletion of all 12 alpha chain C-terminal residues and all 18 corresponding beta chain residues (alpha-12/beta-18) is known to abrogate translocation of protein kinase C to the nucleus upon class II cross-linking. Similarly, truncation of the entire cytoplasmic alpha chain domain and the 10 C-terminal residues of the beta chain impairs presentation of antigenic peptides to T cells. The rotational correlation time of the wild-type molecule, 11.9 +/- 2.6 micros as measured by time-resolved phosphorescence anisotropy, decreased to 7. 2 +/- 3.7 micros in the fully truncated alpha-12/beta-18 protein. Other truncated class II molecules exhibited only small changes in molecular rotation rates relative to the wild-type. The rate of lateral diffusion of the fully truncated molecule, measured with two independent methods, 2.3 x 10(-10) cm(2)/s, was comparable with that of the wild-type molecule. Thus, it appears that the alpha and beta chain cytoplasmic domains regulate the molecular motions of unperturbed I-A(k) molecules only modestly, despite the known involvement of these regions in class II signaling. Various explanations for this behavior are discussed, e.g. the possibility that class II membrane complexes are sufficiently large that association and dissociation of specific signaling proteins during antigen presentation do not significantly perturb the apparent molecular motions of the complex.

Published

2000

33. Biological function of the LH receptor is associated with slow receptor rotational diffusion.

Author

Roess DA, Brady CJ, and Barisas BG

Subjects

Animals, Anisotropy, Cell Line, Cyclic AMP metabolism, Diffusion, Erythrosine, Gene Expression, Humans, Kinetics, Luminescent Measurements, Luteinizing Hormone metabolism, Mutation, Rats, Receptors, LH chemistry, Receptors, LH genetics, Rotation, Structure-Activity Relationship, Temperature, Transfection, Chorionic Gonadotropin metabolism, Receptors, LH metabolism

Abstract

The biological activity of luteinizing hormone (LH) receptors can be affected by modifications to the receptor's amino acid sequence or by binding of hormone antagonists such as deglycosylated hCG. Here we have compared rotational diffusion of LH receptors capable of activating adenylate cyclase with that of non-functional hormone-occupied receptors at 4 degrees C and 37 degrees C using time-resolved phosphorescence anisotropy techniques. Binding of hCG to the rat wild-type receptor expressed on 293 cells (LHR-wt cells) or to the LH receptor on MA-10 cells produces functional receptors which exhibit rotational correlation times longer than 1000 micros. However, modification of the LH receptor by substitution of Lys583-->Arg (LHR-K583R) results in a receptor that is non-functional and which has a significantly shorter rotational correlation time of 130+/-12 micros following binding of hCG. When these receptors are treated with deglycosylated hCG, an inactive form of hCG, the rotational correlation times for the LH receptors on LHR-wt and MA-10 cells are also shorter, namely 64+/-8 and 76+/-14 micros, respectively. Finally, a biologically active truncated form of the rat LH receptor expressed in 293 cells (LHR-t631) has slow rotational diffusion, greater than 1000 micros, when occupied by hCG and a significantly shorter rotational correlation time of 103+/-12 micros when occupied by deglycosylated hCG. The effects of rat LH binding to LH receptors on these various cell lines were similar to those of hCG although the magnitude of the changes in receptor rotational diffusion were less pronounced. We suggest that functional LH receptors are present in membrane complexes that exhibit slow rotational diffusion or are rotationally immobile. Shorter rotational correlation times for non-functional hormone-receptor complexes may reflect the absence of essential interactions between these complexes and other membrane proteins.

Published

2000

34. Dynamics of molecules involved in antigen presentation: effects of fixation.

Author

Barisas BG, Wade WF, Jovin TM, Arndt-Jovin D, and Roess DA

Subjects

Animals, Anisotropy, Antigen-Presenting Cells immunology, Cell Line, Diffusion, Fixatives, Formaldehyde, Histocompatibility Antigens Class II chemistry, Luminescent Measurements, Mice, Polymers, Antigen Presentation, Histocompatibility Antigens Class II metabolism

Abstract

Antigen presentation by MHC class II molecules can be enhanced by paraformaldehyde fixation of antigen-presenting cells prior to assay. This treatment might be expected to aggregate membrane proteins and thus stabilize and strengthen transient protein-protein interactions involved in intercellular cooperation. Lateral and rotational dynamics of the MHC class II antigen I-Ad on A20 cells fixed with various concentrations of paraformaldehyde were examined by fluorescence photobleaching recovery and time-resolved phosphorescence anisotropy, respectively. Probes were tetramethylrhodamine and erythrosin conjugates of MKD6 Fab fragments. Increasing concentrations of paraformaldehyde led to a progressive increase in the limiting anisotropy of I-Ad at 4 degrees C from the value of 0.042 for untreated cells, indicative of large aggregate formation, while leaving the rotational correlation time of 29 micros unchanged, a measure of the unperturbed molecule. On the other hand, the translational diffusion constants decreased from approximately 2x10(-10) cm2 s(-1), while the fractional recovery remained unchanged at about 40-50%. Taken together, these results suggest that fixation crosslinks class II molecules to each other or to other membrane proteins into structures large enough (>500,000 kDa) to diffuse translationally with perceptibly size-dependent rates. The fixation effects on both class II rotation and lateral diffusion were half-maximal at paraformaldehyde concentrations of approximately 0.2%. Possible relations between the biological effector functions of class II and the physical sizes of fixation-induced aggregates are discussed.

Published

1999

35. Intrinsically fluorescent luteinizing hormone receptor demonstrates hormone-driven aggregation.

Author

Horvat RD, Nelson S, Clay CM, Barisas BG, and Roess DA

Subjects

Animals, CHO Cells, Cell Membrane chemistry, Cell Membrane metabolism, Chorionic Gonadotropin metabolism, Cricetinae, Cyclic AMP biosynthesis, Green Fluorescent Proteins, Humans, Luminescent Proteins biosynthesis, Luminescent Proteins genetics, Microscopy, Confocal, Microscopy, Fluorescence, Receptors, LH biosynthesis, Receptors, LH genetics, Recombinant Fusion Proteins biosynthesis, Luminescent Proteins metabolism, Receptor Aggregation, Receptors, LH metabolism, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins metabolism

Abstract

The possibility that LH receptors exist as isolated molecules when unbound and aggregate upon binding gonadotropins has previously been untestable in viable cells for want of a suitable nonhormone probe. We have now expressed in CHO cells an intrinsically-fluorescent LH receptor involving enhanced green fluorescent protein (GFP) fused to the C-terminus of the rat LH receptor (rLHR-GFP). More than half of these receptors (54 +/- 4%) are located on the plasma membrane and are functional: cAMP levels increase 3-5 fold in response to 10 nM LH or hCG. In fluorescence photobleaching recovery studies at 37 degrees C, 54 +/- 13% of unoccupied rLHR-GFP were laterally mobile with a diffusion coefficient D of 16 +/- 3.5 x 10(-10)cm2sec-1. Introduction of 10 nM LH for 1 h slowed receptor lateral diffusion to 6.6 +/- 1.3 x 10(-10)cm2sec-1 and reduced fluorescence recovery after photobleaching to 27 +/- 1%. Following treatment with 1 nM hCG, rLHR-GFP were laterally immobile and were distributed into small fluorescent patches over the cell surface. Thus, unoccupied rLHR-GFP receptors apparently exist as dispersed plasma membrane proteins with comparatively fast lateral diffusion. Interaction of receptors with LH or hCG caused clustering of rLHR-GFP receptors, significantly restricting lateral diffusion., (Copyright 1999 Academic Press.)

Published

1999

36. Characterization of an intrinsically fluorescent gonadotropin-releasing hormone receptor and effects of ligand binding on receptor lateral diffusion.

Author

Nelson S, Horvat RD, Malvey J, Roess DA, Barisas BG, and Clay CM

Subjects

Animals, Binding, Competitive, CHO Cells, COS Cells, Cell Membrane metabolism, Cricetinae, Diffusion, Gonadotropin-Releasing Hormone analogs & derivatives, Gonadotropin-Releasing Hormone metabolism, Green Fluorescent Proteins, Indicators and Reagents, Ligands, Luminescent Proteins genetics, Mice, Receptors, LHRH genetics, Receptors, LHRH metabolism, Recombinant Fusion Proteins metabolism, Receptors, LHRH physiology

Abstract

The GnRH receptor (GnRHR) is a G protein-coupled receptor expressed by gonadotropes in the anterior pituitary gland. In the past several years, much has been learned about the structure-function relationships that exist in this receptor with regard to ligand binding and signal transduction. However, the lack of specific antibodies has precluded any analyses of the behavior of the unbound form of this receptor. We have constructed a functional GnRHR in which enhanced green fluorescent protein is fused to the carboxyl-terminus of the murine GnRHR. This fusion receptor was expressed diffusely throughout the cell, with approximately 38% of the fusion receptors colocalized with a plasma membrane marker in the gonadotrope-derived alphaT3 cell line, and approximately 82% of the fusion receptors colocalized with a membrane marker in Chinese hamster ovary cells. Furthermore, the fusion receptor displayed a Kd of 0.8 nM for iodinated des-Gly10,D-Ala-6-GnRH N-ethyl amide in Chinese hamster ovary cells, which was similar to the Kd of the native GnRHR expressed in alphaT3 cells. The surface mobility of the fusion protein was examined by fluorescence photobleaching recovery methods. In the unbound state the majority of the receptors were laterally mobile and displayed a lateral diffusion rate of 1.2-1.6 x 10(-9) cm2/sec. Binding of GnRH reduced the rate of lateral diffusion over 3-fold and reduced the fraction of mobile receptors from approximately 76-91% to 44-61%. Like GnRH, the competitive GnRH antagonist antide slowed the rate of receptor diffusion approximately 3-fold. In contrast to GnRH, antide had no effect on the fraction of mobile receptors. Thus, an intrinsically fluorescent GnRHR is trafficked to the plasma membrane of mammalian cells, is capable of ligand binding and signal transduction, and allows direct observation of the GnRHR in the nonligand-bound state. Furthermore, fluorescence photobleaching recovery analysis of the GnRHR-green fluorescent protein fusion reveals fundamental differences in the membrane dynamics of the GnRHR induced by the binding of an agonist vs. that induced by the binding of an antagonist.

Published

1999

37. Interferometric fringe fluorescence photobleaching recovery interrogates entire cell surfaces.

Author

Munnelly HM, Roess DA, Wade WF, and Barisas BG

Subjects

Animals, Cardiolipins, Cell Line, Cholesterol, Diffusion, Equipment Design, Histocompatibility Antigens Class II biosynthesis, Kinetics, Liposomes, Mice, Microscopy, Interference instrumentation, Microscopy, Interference methods, Models, Theoretical, Phosphatidylcholines, Recombinant Proteins biosynthesis, Recombinant Proteins chemistry, Reproducibility of Results, Sensitivity and Specificity, Spectrometry, Fluorescence instrumentation, Spectrometry, Fluorescence methods, Transfection, Histocompatibility Antigens Class II chemistry

Abstract

Fluorescence photobleaching recovery (FPR) measurements of cell surface protein lateral diffusion typically employ an interrogated spot of 0.5 microm 1/e2 radius. The effective spot area represents only 1/500 of the total surface of an 8-microm cell. An FPR measurement of a protein expressed as 50,000 copies per cell reflects the dynamics of 100 molecules. This limits the precision and reproducibility of FPR measurements. We describe a method for interferometric fringe pattern FPR that permits simultaneous interrogation of the entire cell's surface. Fringe patterns are generated interferometrically within the optical path of an FPR system. Methods for interpreting fluorescence recovery kinetics on cells and for determining the protein mobile fraction are presented. With fringe FPR, the murine major histocompatibility complex class II antigen I-Ak expressed on M12.C3.F6 cells has 100-fold improved fluorescence signals relative to spot FPR, with corresponding improvements in signal-to-noise ratios of recovery traces. Diffusion coefficients (+/- standard deviation) of (2.1 +/- 0.4) x 10(-10) and (1.8 +/- 1.0) x 10(-10) cm2 s-1 with corresponding mobile fractions of I-Ak of 66.1 +/- 7.8% and 63.4 +/- 18.0% were obtained by fringe and spot methods, respectively. The improved reproducibility of fringe over spot results is less than signal improvements predict. There may thus be substantial variation from cell to cell in protein dynamics, and this method may permit the assessment of such variation.

Published

1998

38. Luteinizing hormone receptors are associated with non-receptor plasma membrane proteins on bovine luteal cell membranes.

Author

Roess DA, Rahman NA, Munnelly H, Meiklejohn BI, Brady CJ, and Barisas BG

Subjects

Animals, Azides, Cattle, Cell Membrane chemistry, Chorionic Gonadotropin, Energy Transfer, Female, Fluorescent Dyes, Humans, Iodine Radioisotopes, Luteinizing Hormone, Membrane Proteins chemistry, Molecular Weight, Sheep, Corpus Luteum chemistry, Membrane Proteins analysis, Receptors, LH chemistry

Abstract

Biophysical studies of the bovine luteinizing hormone (LH) receptor on luteal cell membranes suggest that this receptor may be part of a larger molecular weight structure. We have used 5-iodonaphthyl-1-azide (INA) to identify plasma membrane proteins near LH receptors on plasma membranes from bovine corpora lutea. Following binding of eosin isothiocyanate-derivatized ovine LH or human chorionic gonadotropin (hCG), five proteins with molecular weights of 71, 57, 55, 49 and 36 kDa were selectively derivatized with [125I]-INA following 2 h exposure at 22 degreesC to 514 nm light. However, there was no fluorescence energy transfer between LH receptors occupied by ovine LH or hCG indicating that LH receptors were not self-associated in these membrane preparations. Together these results suggest that, following hormone binding, single copies of the LH receptor may exist in large molecular weight structures that include non-receptor proteins., (Copyright 1998 Elsevier Science B.V.)

Published

1998

39. The rotational diffusion of LH receptors differs when receptors are occupied by hCG versus LH and is increased by cytochalasin D.

Author

Roess DA, Jewell MA, Philpott CJ, and Barisas BG

Subjects

Actin Cytoskeleton drug effects, Animals, Cell Line, Cell Membrane metabolism, Colchicine pharmacology, Cytochalasin B pharmacology, Diffusion, Fluorescence Polarization, Leydig Cells metabolism, Male, Microtubules drug effects, Receptors, LH chemistry, Receptors, LH metabolism, Temperature, Chorionic Gonadotropin metabolism, Cytochalasin D pharmacology, Luteinizing Hormone metabolism, Receptors, LH drug effects

Abstract

We have examined the rotational diffusion of the luteinizing hormone (LH) receptors binding human chorionic gonadotropin (hCG) or ovine luteinizing hormone (oLH) in MA-10 Leydig tumor cells using time-resolved phosphorescence anisotropy techniques. LH receptors binding erythrosin isothiocyanate (ErITC)-derivatized oLH were rotationally mobile with rotational correlation times of 62 micros, 48 micros, 38 micros, and 29 micros at 4 degrees C, 15 degrees C, 25 degrees C, and 37 degrees C, respectively. ErITC-hCG bound to the LH receptor was rotationally immobile, showing no anisotropy decay at 4 degrees C, 15 degrees C, 25 degrees C, and 37 degrees C. To determine whether cytoskeletal components influenced the rotational diffusion of LH receptors, we measured rotational diffusion of LH receptors on MA-10 cells treated with 20 microg/ml cytochalasin D and on plasma membrane preparations. Following 1 h exposure to cytochalasin D, the rotational correlation times for hCG-occupied LH receptors were typically 11 micros at 37 degrees C compared to > 1000 micros on untreated cells. Treatment of MA-10 cells with cytochalasin B or colchicine had no affect on LH receptor rotational diffusion. Rotational correlation times for LH-occupied receptors decreased from 29 micros to 12 micros at 37 degrees C following cytochalasin D treatment. The rotational diffusion of LH receptors on plasma membrane preparations was similar to that observed for LH- and hCG-occupied receptors on intact cells treated with cytochalasin D. These various results indicate that there are differential effects of LH and hCG binding on the interactions of LH receptors with plasma membrane proteins and that microfilaments anchor the hCG- and LH-occupied receptors.

Published

1997

40. 5-iodonaphthyl-1-azide labeling of plasma membrane proteins adjacent to specific sites via energy transfer.

Author

Meiklejohn BI, Rahman NA, Roess DA, and Barisas BG

Subjects

Animals, B-Lymphocytes, Blood Proteins chemistry, Energy Transfer, Eosine Yellowish-(YS), Erythrocyte Membrane, Female, Fluorescein, Fluoresceins, Humans, Immunoglobulin mu-Chains chemistry, Leukemia, Basophilic, Acute, Membrane Proteins analysis, Mice, Mice, Inbred BALB C, Photosensitizing Agents, Rats, Tumor Cells, Cultured, Azides, Cross-Linking Reagents, Membrane Proteins chemistry, Receptors, IgE chemistry

Abstract

We have examined conditions optimal for 5-iodonaphthyl-1-azide (INA4) labeling of membrane proteins proximal to known membrane sites. Membrane-bound INA can be indirectly activated by energy transfer from visible chromophores. We demonstrate that the efficiency of this sensitized activation is enhanced by use of triplet-forming chromophores such as eosin and by deoxygenation. Variation of sensitized activation efficiency with INA concentration indicates that the critical distance for eosin-INA energy transfer in solution is 8-14 A. We suggest that photosensitization occurs through triplet exchange and present an improved labeling protocol based on these findings. This protocol was used to examine whether different accessory proteins are associated with isolated and crosslinked Type I Fc epsilon receptors on 2H3 rat basophilic leukemia cells. 2H3 cells were incubated with eosin-conjugated IgE and irradiated at 514 nm yielding [125I]INA derivatized peptides at 53, 38, 34, and 29 kDa. Crosslinking IgE with mouse anti-rat IgE prior to irradiation labeled three additional proteins at 60, 54, and 43 kDa. These results demonstrate the utility of sensitized INA labeling in characterizing protein-protein interactions in membranes of intact cells and indicate the importance of considering photophysical factors when selecting sensitizers and reaction conditions. We discuss estimation of the size of the membrane region surrounding a sensitizing chromophore within which INA labeling of membrane proteins occurs.

Published

1997

41. Lateral dynamics of major histocompatibility complex class II molecules bound with agonist peptide or altered peptide ligands.

Author

Qiu Y, Wade WF, Roess DA, and Barisas BG

Subjects

Animals, Binding Sites, Cell Line, Mice, Peptides immunology, T-Lymphocytes immunology, Tumor Cells, Cultured, Antigens immunology, Histocompatibility Antigens Class II immunology, Ligands, Ovalbumin immunology, Vaccines, Synthetic immunology

Abstract

We examined the lateral diffusion of I-Ad on A20 cells following the binding of ovalbumin-derived peptides. The peptides were OVA323-339 and OVA325-335 and a related peptide OVA325-335s substituted H331Q. Only OVA323-339 and OVA325-335 were effectively presented by A20 cells to DO-11.10/S4.4 T cells as assessed by IL-2 production. Fluorescence photobleaching recovery (FPR) measurements showed anti-I-Ad to have a lateral diffusion coefficient on untreated A20 cells of 1.8 +/- 1.0 x 10(-10) cm2 s-1 at 25 degrees C with fluorescence recovery after photobleaching greater than 50%. After 24 h incubation of A20 cells with OVA323-339 or OVA325-335, a subpopulation of A20 cells appeared that were approximately half the size of untreated A20 cells. Culture of A20 with OVA325-355s did not stimulate DO-11.10 cells or induce a size change in A20 cells. Class II molecules were laterally immobile on these small cells with fluorescence recoveries after photobleaching of less than 20%. The relative number of small cells in the A20 cell population was correlated with the immunogenicity of the peptides. These results suggest that immobilization of surface I-Ad may be an important event in antigen presentation.

Published

1996

42. Rotational dynamics of luteinizing hormone receptors on bovine and ovine luteal cell plasma membranes.

Author

Philpot CJ, Rahman NA, Kenny N, Barisas BG, and Roess DA

Subjects

Animals, Anisotropy, Cattle, Cell Membrane chemistry, Cell Membrane ultrastructure, Chorionic Gonadotropin metabolism, Corpus Luteum ultrastructure, Diffusion, Epidermal Growth Factor metabolism, Erythrosine pharmacology, Female, Sheep, Species Specificity, Temperature, Corpus Luteum chemistry, Receptors, LH chemistry

Abstract

To determine whether LH receptor rotational diffusion is similar in closely related species, we compared the rotational correlation times of LH receptors on bovine CL membranes with those of LH receptors on sheep small luteal cells and luteal cell plasma membranes using time-resolved phosphorescence anisotropy techniques. After binding of erythrosin isothiocyanate (ErITC)-derived bovine LH (bLH), ErITC-ovine LH (oLH), or ErITC-hCG, there was no difference in the initial and final anisotropy at 4 degrees C, 15 degrees C, 25 degrees C, and 37 degrees C, indicating that the bLH receptor was rotationally immobile on the time scale of our experiments. On these same membrane preparations, the epidermal growth factor (EGF) receptor occupied by ErITC-murine EGF exhibited temperature-dependent rotational correlation times of 80 +/- 5 microseconds, 111 +/- 7 microseconds, 254 +/- 4 microseconds, and > 1000 microseconds at 4 degrees C, 15 degrees C, 25 degrees C, and 37 degrees C, respectively. Slower rotational times for EGF receptor observed at higher temperatures suggested the occurrence of temperature-dependent receptor aggregation. Like the bLH receptor, the oLH receptor on intact cells and on CL plasma membranes was rotationally immobile on the time scale of our experiments when occupied by ErITC-hCG. However, the oLH-occupied receptors on small luteal cells and on luteal cell membranes had comparable rotational correlation times at 37 degrees C. These results suggest that bLH receptors are present in large, rotationally immobile structures, whereas the receptor-containing structure formed on ovine luteal cells depends on whether that receptor is occupied by hCG or oLH. Also, despite the similarities between reproductive function in these species, the LH-occupied receptor appears to be organized differently in the plasma membranes of these hormone-responsive luteal cells.

Published

1995

43. Flow cytometric analysis of T-independent antigen binding to dinitrophenyl-specific cells.

Author

Woodard SL, Aldo-Benson M, Roess DA, and Barisas BG

Subjects

Animals, Antigenic Modulation immunology, Antigens, Surface metabolism, Cell Line, Dextrans immunology, Epitopes, Female, Flagellin immunology, Mice, Mice, Inbred BALB C, Papain immunology, T-Lymphocytes immunology, Dinitrobenzenes immunology, Dinitrobenzenes metabolism, Flow Cytometry methods, Receptors, Antigen, B-Cell immunology

Abstract

Binding of Ag to membrane Ig (mIg) can lead to either activation or desensitization of the B cell. For thymus-independent (TI) Ags the nature and concentration of the Ag determines what type of signal is delivered to the cell. These Ags are capable of directly activating B lymphocytes and are an important model system for the study of mechanisms involved in B cell responses. In this study, we quantified TI Ag binding and B cell receptor involvement as functions of TI Ag structure, concentration, and epitope density. Various epitope densities of two structurally different TI Ags, DNP-polymerized flagellin (pol) and DNP-dextran (dex), were labeled with tetramethylrhodamine isothiocyanate (TRITC) and reacted with DNP-specific murine splenic B lymphocytes and with cells of a cloned DNP-specific cell line. The amount of Ag bound to the cell surface at various doses was measured directly by flow cytometry. For each Ag and dose, FITC-labeled DNP-L-papain was used to quantitate receptor sites not occupied by Ag. Approximately 5% receptor occupancy was observed for immunogenic doses of Ag. Higher Ag concentrations that can induce tolerance caused a substantial increase in the fraction of occupied receptors. This suggests that tolerogenic responses result from an overly restrictive cross-linking of surface receptors. By comparing these data to previously published data on biologic activity of the Ags, we are able to more clearly define those conditions of Ag binding that lead to B cell activation.

Published

1995

44. Lovastatin inhibits proliferation and differentiation and causes apoptosis in lipopolysaccharide-stimulated murine B cells.

Author

Reedquist KA, Pope TK, and Roess DA

Subjects

Animals, B-Lymphocytes cytology, B-Lymphocytes physiology, Cell Differentiation drug effects, Cell Division drug effects, Cells, Cultured, DNA biosynthesis, DNA drug effects, Flow Cytometry, Hemolytic Plaque Technique, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Lymphocyte Depletion, Mice, Spleen immunology, T-Lymphocytes, Thymidine metabolism, Apoptosis drug effects, B-Lymphocytes drug effects, Cell Cycle drug effects, Lipopolysaccharides pharmacology, Lovastatin pharmacology, Lymphocyte Activation drug effects

Abstract

Lipopolysaccharide-stimulated murine B lymphocytes were incubated with the pharmacologic drug lovastatin, a competitive inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase at concentrations ranging from 10(-5)-10(-8) M. After 48 hr, treatment with 10(-5)M lovastatin inhibited [3H]thymidine incorporation 55%. Flow cytometric analysis indicated that the fraction of B cells in S phase was reduced from 26.7% +/- 5.44% to 11.6% +/- 2.9% when cells were incubated with 10(-5)M lovastatin. In addition, a large peak appeared to the left of the G1 peak that was indicative of apoptosis in cells treated with 10(-5)M lovastatin. At 96 hr, the number of plaque-forming B cells was decreased 50% in the presence of lovastatin. Together these results suggest that high concentrations of lovastatin can inhibit B cell proliferation and differentiation of murine B lymphocytes in lipopolysaccharide-activated B cells, perhaps through induction of programmed cell death.

Published

1995

45. Rotational dynamics of luteinizing hormone receptors and MHC class I antigens on murine Leydig cells.

Author

Philpott CJ, Rahman NA, Kenny N, Londo TR, Young RM, Barisas BG, and Roess DA

Subjects

Animals, Cell Membrane physiology, Chorionic Gonadotropin, Erythrosine, Fluorescence Polarization, Luteinizing Hormone, Male, Mice, Mice, Inbred BALB C, Histocompatibility Antigens Class I physiology, Leydig Cells physiology, Receptors, LH physiology

Abstract

We have examined the molecular motions of luteinizing hormone (LH) receptor and the Major Histocompatibility Complex Class I antigen on murine Leydig cells. Using time-resolved phosphorescence anisotropy methods, erythrosin (ErITC)-derivatized ovine luteinizing hormone (oLH) bound to the LH receptor appears rotationally mobile with rotational correlation times of 19.6 +/- 1.3 microseconds, 13.3 +/- 2.4 microseconds, 9.5 +/- 0.7 microseconds and 4.7 +/- 0.5 microseconds at 4 degrees C, 15 degrees C, 25 degrees C and 37 degrees C, respectively. Rotational correlation times for human chorionic gonadotropin (hCG)-occupied LH receptors were similar to those of the ErITC-oLH occupied receptor at each temperature. In addition, both oLH- and hCG-occupied LH receptors were laterally mobile in fluorescence photobleaching recovery experiments with diffusion coefficients at 29 degrees C of (5.8 +/- 0.9) x 10(-10) cm2 s-1 and (2.9 +/- 0.4) x 10(-10) cm2 s-1, respectively. We also measured the rotational correlation time of Class I antigen on murine Leydig cells using ErITC-derivatized 34-12-2S, an anti-Class I monoclonal antibody. Because there was no decay of the anisotropy function at 4 degrees C, 15 degrees C, 25 degrees C or 37 degrees C in the absence of oLH or following preincubation of Leydig cells with 1 nM oLH, it appears that Class I is rotationally immobile on the 1 ms timescale of our experiments. This result is consistent with the presence of Class I antigen in large molecular weight structures and may be the result of Class I self-aggregation. Further, treatment of cells with anti-Class I antibody had no effect on either basal or oLH-stimulated testosterone secretion. Thus, it appears that this anti-Class I antibody is not LH-mimetic on murine Leydig cells.

Published

1995

46. Quantitation of fluorescence energy transfer between cell surface proteins via fluorescence donor photobleaching kinetics.

Author

Young RM, Arnette JK, Roess DA, and Barisas BG

Subjects

Animals, Cells, Cultured, Energy Transfer, Female, Kinetics, Mice, Mice, Inbred BALB C, Microscopy, Fluorescence instrumentation, Microscopy, Fluorescence methods, Photolysis, Spectrometry, Fluorescence instrumentation, Spectrometry, Fluorescence methods, Time Factors, B-Lymphocytes metabolism, Concanavalin A metabolism, Membrane Proteins chemistry, Membrane Proteins metabolism, Models, Theoretical

Abstract

We describe practical aspects of photobleaching fluorescence energy transfer measurements on individual living cells. The method introduced by T. M. Jovin and co-workers (see, most recently, Kubitscheck et al. 1993. Biophys. J. 64:110) is based on the reduced rate of irreversible photobleaching of donor fluorophores when acceptor fluorophores are present. Measuring differences in donor photobleaching rates on cells labeled with donor only (fluorescein isothiocyanate-conjugated proteins) and with both donor and acceptor (tetramethylrhodamine-conjugated proteins) allows calculation of the fluorescence energy transfer efficiency. We assess possible methods of data analysis in light of the underlying processes of photobleaching and energy transfer and suggest optimum strategies for this purpose. Single murine B lymphocytes binding various ratios of donor and acceptor conjugates of tetravalent concanavalin A (Con A) and divalent succinyl Con A were examined for interlectin energy transfer by these methods. For Con A, a maximum transfer efficiency of 0.49 +/- 0.02 was observed. Under similar conditions flow cytometric measurements of donor quenching yielded a value of 0.54 +/- 0.03. For succinyl Con A, the maximum transfer efficiency was 0.36. To provide concrete examples of quantities arising in such energy transfer determinations, we present examples of individual cell data and kinetic analyses, population rate constant distributions, and error estimates for the various quantities involved.

Published

1994

47. Class I major histocompatibility complex antigens are not associated with the LH/CG receptor on ovine luteal cells.

Author

Kenny N, Rahman NA, Barisas BG, and Roess DA

Subjects

Animals, Corpus Luteum cytology, Female, Sheep, Corpus Luteum metabolism, Histocompatibility Antigens Class I metabolism, Receptors, LH metabolism

Abstract

We have examined the rotational dynamics of the luteinizing hormone (LH) receptor on day 10 intact ovine small luteal cells and isolated plasma membranes using polarized fluorescence depletion (PFD). This technique measures rotational correlation times which are proportional to the in-membrane volume of a protein and are useful for examining changes in protein size due to receptor aggregation or protein-protein interactions. Eosin isothiocyanate (EITC)-derivatized ovine LH (EITC-oLH) bound to the LH receptor on luteal cell plasma membranes had a rotational correlation time of 20 +/- 6 microseconds, while that for EITC-human chorionic gonadotropin (EITC-hCG)-occupied LH receptors was 46 +/- 13 microseconds. Slower rotational times for EITC-oLH and EITC-hCG, 63 +/- 19 and 87 +/- 20 microseconds, respectively, were obtained on intact ovine luteal cells. These results indicate that the LH receptor exists as a larger molecular mass complex when binding hCG than oLH, a difference which could be attributable to hCG-induced LH-receptor interaction with additional membrane protein(s). One candidate protein for such an interaction is the Major Histocompatibility Complex (MHC) Class-I antigen. However, the rotational correlation time of EITC-anti-MHC Class-I antibody (SBU I) Fab fragments was 247 +/- 34 microseconds, indicating that MHC Class I is located in complexes larger than those identified by EITC-OLH or EITC-hCG. Preincubation of plasma membranes with 1 nM unlabeled oLH or hCG had no significant effect on this rotational correlation time. Further, treatment of cells with SBU I had no affect on either basal or oLH-stimulated progesterone secretion. Thus it appears that the ovine luteal LH-receptor is not associated with MHC Class I and that antibody-induced aggregation of MHC Class I does not cause an LH-mimetic response.

Published

1993

48. Fluorescence depletion measurements in various experimental geometries provide true emission and absorption anisotropies for the study of protein rotation.

Author

Londo TR, Rahman NA, Roess DA, and Barisas BG

Subjects

Chemistry, Physical methods, Eosine Yellowish-(YS) chemistry, Fluorescence Polarization instrumentation, Isothiocyanates chemistry, Mathematical Computing, Sensitivity and Specificity, Serum Albumin, Bovine chemistry, Thermodynamics, Fluorescence Polarization methods, Protein Conformation

Abstract

Use of fluorescence depletion methods for measuring slow protein rotational diffusion has been limited by failure to obtain, from depletion data, well-defined anisotropy functions dependent on the distribution of either fluorophore emission or absorption transition dipoles, but not both. Such anisotropies would be directly comparable to those obtained from phosphorescence emission or triplet absorption measurements. We now describe such procedures applicable to cuvet and microscope experimental geometries, together with supporting experimental results. In cuvet measurements, the pump and probe beams are colinear and fluorescence is collected at 90 degrees to this axis. The data analysis procedure for this geometry has been suggested by Wegener (Biophys. J., 46 (1984) 795) and permits calculation of the absorption and emission anisotropies and the interdipole angle. In microscope experiments, fluorescence emission is collected along the pump/probe beam axis. For microscope measurements, a new experimental procedure permits evaluation of absorption and emission anisotropies when the interdipole angle is independently known. In either case multiple depletion measurements are required, each with different relative orientations of the probe beam polarization, pump beam polarization and emission polarizer axis. We have used these methods to calculate the time-dependent anisotropies for eosin-derivatized BSA rotation in glycerol solutions in both experimental geometries. These data correspond well with those obtained from time-resolved phosphorescence anisotropy measurements.

Published

1993

49. Membrane changes in lipopolysaccharide-stimulated murine B lymphocytes associated with cell activation.

Author

Printen JA, Woodard SL, Herman JR, Roess DA, and Barisas BG

Subjects

Animals, B-Lymphocytes drug effects, Carbocyanines chemistry, Female, Lipopolysaccharides, Membrane Fluidity, Mice, Mice, Inbred BALB C, Mice, Inbred C3H, Rhodamines, Temperature, B-Lymphocytes chemistry, Cell Membrane chemistry, Lymphocyte Activation

Abstract

The lateral diffusion of the fluorescent lipid analog 3,3'-dioctadecylindocarbocyanine iodide (DiI) was measured in the membranes of murine B lymphocytes treated with the B cell mitogen lipopolysaccharide (LPS). The mobility of DiI, as measured by fluorescence photobleaching recovery (FPR) techniques, was temperature-dependent with a value of 6.1.10(-9) cm2 s-1 at 37 degrees C. Untreated cells exhibited this diffusion coefficient over 72 h in culture. In contrast, DiI mobility decreased to 2.0.10(-9) cm2 s-1 at 37 degrees C in membranes of LPS-stimulated lymphocytes 24 h following LPS exposure. Interestingly, this decreased lipid lateral diffusion was not accompanied by any change in surface immunoglobulin lateral diffusion which remained essentially unchanged at 3.6-4.3.10(-11) cm2 s-1 over 72 h. To determine whether LPS effects on lipid lateral diffusion were due to insertion of LPS into the cell plasma membrane, we examined TRITC-LPS diffusion in B lymphocytes from LPS-responsive Balb/c and C3Heb/FeJ mice and from hypo-responsive C3H/HeJ mice. DiI and TRITC-LPS mobility decreased more than 50% in LPS-stimulated Balb/c and C3Heb/FeJ cells by 72 h. On C3H/HeJ lymphocytes, there was no change in DiI or TRITC-LPS lateral diffusion throughout the incubation period. These data indicate that B lymphocyte membrane composition is altered in LPS-activated lymphoblasts and that the decreased lateral diffusion of lipid probes does not result from membrane perturbation by LPS insertion into the lipid bilayer. Further, similarities between TRITC-LPS and DiI lateral diffusion suggest that most LPS molecules interact non-specifically with B cell membranes, presumably by acyl chain insertion of the lipid A moiety.

Published

1993

50. Molecular dynamics of luteinizing hormone receptors on rat luteal cells.

Author

Roess DA, Rahman NA, Kenny N, and Barisas BG

Subjects

Animals, Cells, Cultured, Chorionic Gonadotropin metabolism, Corpus Luteum cytology, Diffusion, Female, Fluorescence Polarization, Fluorescent Dyes, Humans, Luteinizing Hormone metabolism, Rats, Sheep, Corpus Luteum metabolism, Receptors, LH metabolism

Abstract

To better understand the in situ organization of the luteinizing hormone receptor on rat luteal cells, we have examined the molecular motions of this receptor following binding of ovine luteinizing hormone (oLH) or human chorionic gonadotropin (hCG). Fluorescence photobleaching recovery (FPR) measurements of LH receptor lateral diffusion were performed using tetramethylrhodamine isothiocyanate (TRITC)-derivatized oLH or hCG as a probe. These experiments indicate that TRITC-oLH occupied LH receptors on luteal cells obtained from superovulated female rats have a lateral diffusion coefficient D of (1.7 +/- 0.6).10(-10) cm2s-1 at 27 degrees C with fluorescence recovery after photobleaching of 46 +/- 5%. In similar experiments, binding of TRITC-hCG caused a significant decrease in LH receptor lateral diffusion; fluorescence recovery after photobleaching was less than 20%. To determine whether hCG-occupied receptors might exist in large aggregates, we measured the rotational correlation times (RCT) of hCG and oLH bound to the LH receptor on intact cells using single cell polarized fluorescence depletion (PFD). At 4 degrees C, LH receptors occupied by eosin isothiocyanate (EITC)-hCG exhibited a slower RCT (64 microseconds) than did receptors occupied by EITC-oLH (43 microseconds). At this temperature both TRITC-oLH and TRITC-hCG occupied LH receptors were laterally immobile. These FPR and PFD results suggest that the molecular motions of the luteal cell LH receptor are significantly modulated by the subtle structural differences in various bound gonadotropins.

Published

1992