The role of dendritic spine morphology in the compartmentalization and delivery of surface receptors

Since AMPA receptors are major molecular players in both short- and long-term plasticity, it is important to identify the time-scales of and factors affecting the lateral diffusion of AMPARs on the dendrite surface. Using a mathematical model, we study how the dendritic spine morphology affects two processes: (1) compartmentalization of the surface receptors in a single spine to retain local chemistry and (2) the delivery of receptors to the post-synaptic density (PSD) of spines via lateral diffusion following insertion onto the dendrite shaft. Computing the mean first passage time (MFPT) of surface receptors on a sample of real spine morphologies revealed that a constricted neck and bulbous head serve to compartmentalize receptors, consistent with previous works. The residence time of a Brownian diffusing receptor on the membrane of a single spine was computed to be ～ 5 s. We found that the location of the PSD corresponds to the location at which the maximum MFPT occurs, the position that maximizes the residence time of a diffusing receptor. Meanwhile, the same geometric features of the spine that compartmentalize receptors inhibit the recruitment of AMPARs via lateral diffusion from dendrite insertion sites. Spines with narrow necks will trap a smaller fraction of diffusing receptors in the their PSD when considering competition for receptors between the spines, suggesting that ideal geometrical features involve a tradeoff depending on the intent of compartmentalizing the current receptor pool or recruiting new AMPARs in the PSD. The ultimate distribution of receptors among the spine PSDs by lateral diffusion from the dendrite shaft is an interplay between the insertion location and the shape and locations of both the spines and their PSDs. The time-scale for delivery of receptors to the PSD of spines via lateral diffusion was computed to be ～ 60 s.     

Receptor‐dependent regulation of dendrite formation of noradrenaline and dopamine in non‐gabaergic cerebral cortical neurons

The present study characterized the receptor‐dependent regulation of dendrite formation of noradrenaline (NA) and dopamine (DA) in cultured neurons obtained from embryonic day 16 rat cerebral cortex. Morphological diversity of cortical dendrites was analyzed on various features: dendrite initiation, dendrite outgrowth, and dendrite branching. Using a combination of immunocytochemical markers of dendrites and GABAergic neurons, we focused on the dendrite morphology of non‐GABAergic neurons. Our results showed that (1) NA inhibited the dendrite branching, (2) β adrenergic receptor (β‐AR) agonist inhibited the dendrite initiation, while promoted the dendrite outgrowth, (3) β1‐AR and β2‐AR were present in all the cultured neurons, and both agonists inhibited the dendrite initiation, while only β1‐AR agonist induced the dendrite branching; (4) DA inhibited the dendrite outgrowth, (5) D1 receptor agonist inhibited the dendrite initiation, while promoted the dendrite branching. In conclusion, this study compared the effects of NA, DA and their receptors and showed that NA and DA regulate different features on the dendrite formation of non‐GABAergic cortical neurons, depending on the receptors. © 2012 Wiley Periodicals, Inc. Develop Neurobiol 73: 370–383, 2013     

Internalization of insulin receptors and HLA antigens in human hepatoma cells.

Human HepG2 hepatoma cells express a high number of insulin receptors. Growing cells exhibit 70% of their insulin receptors on the plasma membrane. Moreover, cell-surface insulin receptors form molecular complexes with class I major histocompatibility antigens, as determined by co-immunoprecipitation of the receptors by anti-class I monoclonal antibodies. On exposure to saturating concentrations of insulin, the hormone is rapidly internalized into a Pronase-resistant compartment. Internalization of insulin is accompanied by a rapid (t1/2 = 2-3 min) redistribution of insulin receptors from the cell surface to an intracellular compartment. On removal of insulin from the medium, functional receptors recycle back to the plasma membrane, where they can bind insulin again. With chronic exposure of HepG2 cells to insulin, the initial redistribution of receptors is followed by a slow (t1/2 = 9 h) down-regulation of the receptors. Finally, notwithstanding their interaction at the cell surface, insulin receptors and class I major histocompatibility antigens are internalized at different rates and with independent regulation.     

Monociliary receptors in interstitial Proseriata and Neorhabdocoela (Turbellaria Neoophora)

Summary The ultrastructure of monociliary receptors in 10 species of the Proseriata and Neorhabdocoela is described, with particular reference to the epidermal dendritic part.Sensory cells with a single kinocilium situated at the level of the distal epidermis membrane are considered as mechano- or chemoreceptors.There exist sensory cells with a dendrite penetrating one epidermis cell and bearing an embedded kinocilium and a collar of 8 stereocilia or ridges with a fribrillose substructure. These collared receptors probably function as mechanoreceptors.In comparison with collared sensory cells in species of other turbellarian orders, the embedded receptors in the Proseriata and Neorhabdocoela are more advanced and possess synapomorphous characteristics. With the embedded receptors a new evidence is given for the close phylogenetic relationship between the Proseriata and Neorhabdocoela.The distribution of collared cells in the animal system and their phylogenetic implication for a choanoflagellate origin of the Metazoa are briefly discussed.List of abbreviations ar annular rootlet - bm basement membrane - cb crystalline body - cc collar cell - cw cell web - cwt cell web-thickening - d dendrite - kc kinocilium - lm longitudinal musculature - mv microvilli - n nerve - nt neurotubuli - pb parenchymal branches - r rootlet - rd ridges - rh rhabdite - rm ring musculature - sc stereocilia - sd septate desmosomes - tm transversal musculature - u ultrarhabdites - za zonula adhaerens     

Large-scale co-aggregation of fluorescent lipid probes with cell surface proteins

Large scale aggregation of fluorescein-labeled immunoglobulin E (IgE) receptor complexes on the surface of RBL cells results in the co- aggregation of a large fraction of the lipophilic fluorescent probe 3,3'-dihexadecylindocarbocyanine (diI) that labels the plasma membranes much more uniformly in the absence of receptor aggregation. Most of the diI molecules that are localized in patches of aggregated receptors have lost their lateral mobility as determined by fluorescence photobleaching recovery. The diI outside of patches is mobile, and its mobility is similar to that in control cells without receptor aggregates. It is unlikely that the co-aggregation of diI with IgE receptors is due to specific interactions between these components, as two other lipophilic probes of different structures are also observed to redistribute with aggregated IgE receptors, and aggregation of two other cell surface antigens also results in the coredistribution of diI at the RBL cell surface. Quantitative analysis of CCD images of labeled cells reveals some differences in the spatial distributions of co- aggregated diI and IgE receptors. The results indicate that cross- linking of specific cell surface antigens causes a substantial change in the organization of the plasma membrane by redistributing pre- existing membrane domains or causing their formation.     

Functional significance of the complement receptors on B lymphocytes

The functional role of complement receptor (CR⁺) lymphocytes in antibody responses was investigated. Initially it was found that in the spleens of 6–8-week-old CBA/H mice only approximately 40% of the B cells were CR⁺. The CR⁺ and CR^? splenocytes were then separated by a recently described fractionation procedure (Parish, C. R., et al., Eur. J. Immunol.4, 808, 1974) and assayed alone or in combination for their ability to transfer a range of antibody responses to irradiated recipients. All of the antigens studied, irrespective of their structure or T-cell dependence, were capable of activating CR⁺ B cells to synthesize antibody. However, only repeating determinant antigens, such as horse red blood cells (HRBC) and dinitrophenyl-polymerized flagellin (DNP-POL), were capable of activating CR^? B cells, the soluble antigen DNP-flagellin (DNP-MON) being unable to trigger these cells. Repeating determinant nature rather than T-cell dependence appeared to be the factor that determined whether an antigen could provoke the CR^? B cells to synthesize antibody, as HRBC and DNP-POL differ widely in their T-cell dependence. The same phenomenon was observed with direct and indirect PFC responses and also with primary and secondary antibody responses. In addition, there was no evidence for collaboration between CR⁺ and CR^? B cells in the induction of antibody responses to the T-dependent antigens, HRBC and DNP-MON. Furthermore, no CR⁺ helper T cells were detected.It is postulated that complement receptors facilitate T-B interaction by stabilizing the union of soluble antigens with antigen-specific receptors on CR⁺ B cells. In contrast, repeating determinant antigens can avidly bind to antigen-specific receptors on B lymphocytes without involvement of the complement receptors.     

The growth of B cell receptor microcluster is a universal response of B cells encountering antigens with different motion features

B lymphocyte cell senses and acquires foreign antigens through clonal distributed B cell receptors (BCRs) expressed on the surface of plasma membrane. The presentation formats of antigens are quite diverse. Based on their Brownian diffusion mobility, there are three forms: free mobile soluble antigens, lateral mobile membrane bound antigens, and fixed immobile antigens. Here, using high resolution high speed live cell imaging approaches, we provide evidence that BCR microclusters are formed on the surface of B cells shortly after B cell’s encountering of antigens with each format of motion features. Through high speed live cell imaging, we determine that these BCR microclusters show dynamic growth feature and by doing so function as the basic platforms for B cells to acquire the antigens. We propose that the formation and dynamic growth of BCR microcluster is a universal mechanism for B cell to response to antigens with diverse motion features.     

Cross-linking of insulin receptors to MHC antigens in human B lymphocytes: evidence for selective molecular interactions

Molecular interactions between insulin receptors and MHC antigens were investigated in human B cells. Two B lymphoblastoid cell lines, IM-9 and 526, chosen for their high insulin binding capacity, were found to express 15,000 and 25,000 insulin receptors per cell, respectively. Insulin receptors were labeled with a 125I-photoreactive insulin analogue, and all other surface proteins by lactoperoxidase-catalyzed radioiodination. Neighbor proteins were cross-linked with a cleavable homobifunctional reagent dithio-bis-(succinimidyl propionate) (DSP) and solubilized before immunoprecipitation by anti-HLA monoclonal antibodies. Gel analysis of the precipitated proteins showed that 90% of insulin receptors precipitable by anti-insulin receptor antibodies were precipitated by anti-class I antibodies (anti-heavy chain and anti-beta 2-microglobulin) after cross-linking with 2 mM DSP. In neither IM-9- nor 526 cells could HLA antigens be precipitated by anti-insulin receptor antibodies, suggesting that the concentration of class I antigens largely exceeds the concentration of insulin receptors at the cell surface. In 526 lymphocytes, class I MHC antigens were also found to adjoin class II antigens, since both molecules could be coprecipitated with anti-HLA A, B, C and with anti-HLA-DR antibodies after chemical cross-linking. Down-regulation of insulin receptors by chronic exposure of IM-9 cells to insulin did not affect the amount of MHC molecules present on the cell surface, and conversely, class I MHC molecules were internalized in 526 cells irrespective of the presence of insulin. These results thus show that insulin receptors and MHC antigens form multimolecular complexes in the plasma membrane of cultured human B cells. These interactions, which do not appear to influence the regulation of these proteins on the cell surface, may be involved in the mechanism of hormone signaling.     

Stimulation of expression of IgM and IgG receptors on human thymus lymphocytes after treatment with lactoferrin in vitro

It was established by immunofluorescence that lactoferrin, one of the heteroorganic thymus antigens, can stimulate the expression of Fc mu and Fcj receptors on thymus lymphocytes. The stimulating effect of lactoferrin on T mu cells is more pronounced with the level of these cells in the thymus being low. Its effect on Tj cells seems independent of their level in the thymus and may be related to their precursor differentiation. It can be assumed that one of the functions of lactoferrin in the thymus is to influence the process of differentiation of T mu and Tj cells and to regulate their level in the thymus. Lactoferrin, like other heteroorganic thymus antigens, may take part in the functional maturation of different subpopulations of thymocytes, including T mu and Tj thymus cells.     

CD14 Targets Complement Receptor 3 to Lipid Rafts during Phagocytosis of Borrelia burgdorferi

Phagocytosis of Borrelia burgdorferi, the causative agent of Lyme disease, is mediated partly by the interaction of the spirochete with Complement Receptor (CR) 3. CR3 requires the GPI-anchored protein, CD14, in order to efficiently internalize CR3-B. burgdorferi complexes. GPI-anchored proteins reside in cholesterol-rich membrane microdomains, and through its interaction with partner proteins, help initiate signaling cascades. Here, we investigated the role of CD14 on the internalization of B. burgdorferi mediated by CR3. We show that CR3 partly colocalizes with CD14 in lipid rafts. The use of the cholesterol-sequestering compound methyl-β-cyclodextran completely prevents the internalization of the spirochete in CHO cells that co-express CD14 and CR3, while no effect was observed in CD11b-deficient macrophages. These results show that lipid rafts are required for CR3-dependent, but not independent, phagocytosis of B. burgdorferi. Our results also suggest that CD14 interacts with the C-lectin domain of CR3, favoring the formation of multi-complexes that allow their internalization, and the use of β-glucan, a known ligand for the C-lectin domain of CR3, can compensate for the lack of CD14 in CHO cells that express CR3. These results provide evidence to understand the mechanisms that govern the interaction between CR3 and CD14 during the phagocytosis of B. burgdorferi.     

Active and late rosette-forming cells: immunological and cytochemical characterization

In order to characterize T-cell subpopulations with different affinities for sheep red blood cells, a possible correlation between active and late rosette-forming cells (RFC), expression of Fc receptors, and the presence of Ia antigens was investigated. Further analysis of their spontaneous in vitro DNA synthesis, and their cytochemical pattern was also performed. Most of the active T cells lacked Fc receptors and expressed Ia antigens, whereas the large majority of cells with Fc-IgG and -IgM receptors were included as late T cells, but lacked Ia determinants. Analysis of spontaneous blastogenesis showed that late RFC, but not active RFC, synthesize DNA in unstimulated cultures. Cytochemical analysis suggested that Active RFC display a more immature phenotype compared to late RFC, which have enzymatic markers present in mature T cells. Possible interpretations of these findings are discussed.     

Role of tumor-associated gangliosides in cancer progression

Neuroectodermic tumors can mostly be characterized by the presence of tumor-associated glycosphingolipid antigens, such as gangliosides, defined by monoclonal antibodies. Recently, cumulative evidence indicates that gangliosides modify the biological effects of several trophic factors, in vitro and in vivo, as well as the mitogenic signaling cascade that these factors generate. The functional roles of gangliosides in tumor progression can be revisited: (i) ganglioside antigens on the cell surface, or shed from the cells, act as immunosuppressors, as typically observed for the suppression of cytotoxic T cells and dendritic cells, (ii) certain gangliosides, such as GD3 or GM2, promote tumor-associated angiogenesis, (iii) gangliosides strongly regulate cell adhesion/motility and thus initiate tumor metastasis, (iv) ganglioside antigens are directly connected with transducer molecules in microdomains to initiate adhesion coupled with signaling, and (v) ganglioside antigens and their catabolites are modulators of signal transduction through interaction with tyrosine kinases associated with growth factor receptors or other protein kinases. Given the potential importance of these sialylated gangliosides and their modulating biological behavior in vivo, further studies on the role of gangliosides are warranted.     

Calcitonin Gene-Related Peptide (CGRP) Stimulates Purkinje Cell Dendrite Growth in Culture

Previous reports described the transient expression during development of Calcitonin Gene-Related Peptide (CGRP) in rodent cerebellar climbing fibers and CGRP receptor in astrocytes. Here, mixed cerebellar cultures were used to analyze the effects of CGRP on Purkinje cells growth. Our results show that CGRP stimulated Purkinje cell dendrite growth under cell culture conditions mimicking Purkinje cell development in vivo. The stimulation was not blocked by CGRP8-37, a specific antagonist, suggesting the activation of other related receptors. CGRP did not affect survival of Purkinje cells, granule cells or astrocytes. The selective expression of Receptor Component Protein (RCP) (a component of CGRP receptor family) in astrocytes points to a role of these cells as mediators of CGRP effect. Finally, in pure cerebellar astrocyte cultures CGRP induced a transient morphological differentiation from flat, polygonal to stellate form. It is concluded that CGRP influences Purkinje cell dendrite growth in vitro, most likely through the involvement of astrocytes.     

Autoantibodies and immunologic theories]

A hypothesis is put forward to the effect that immunological phenomena represent a particular case of the transport of metabolites, rather than obligatory "defense mechanism". This hypothesis excludes the necessity in additional postulates (forbidden clones, somatic mutations, cells-repressors etc.) to account for the basic immunological phenomena, such as recognition, appearance of autoantibodies and tolerance. It suffices to assume that: 1) autolytic enzymes destroy "their" antigens but cannot destroy completely "foreign" antigens; 2) as a result of decomposition of antigens by enzymes, "tolerogens" may appear which block the receptors in immunocompetent cells thus preventing the appearance of antibodies; 3) cells capable to synthesize autoantibodies exist in the normal organism but not activated due to the absence of "their" antigens. When such antigens appear, they initiate the synthesis of antibodies. The hypothesis advanced may appear too simple as compared with the existing theories, but experiments have to confirm it.     

Type I and II insulin-like growth factor receptors on human phytohemagglutinin-activated T lymphocytes

Human T cells activated with mitogens, antigens, or antibodies to the T-cell receptor complex acquire a cascade of new receptors, including the receptors for interleukin-2, transferrin, and insulin. We investigated whether receptors for insulin-like growth factors (IGF) also were expressed on activated T cells. Based on competitive binding studies, immunoprecipitation of labeled cell surface receptors and blocking of radiolabeled peptide binding by a specific monoclonal antibody (alpha IR-3) to the type I IGF receptor, as well as affinity crosslinking of radiolabeled peptides to their receptors, we concluded that both type I and type II IGF receptors are expressed on activated T cells. A specific binding site for IGF-II also was observed on the type I IGF receptor which was not inhibited by alpha IR-3. Receptors for IGF were more numerous on activated T cells than on resting T cells, and their peak expression appeared by the peak of DNA synthesis. Thus, human activated T cells were shown to express both type I and II IGF receptors which could potentially play a role in the regulation of T-cell proliferation, differentiation, and function.     

The CD4/CD8:p56lck complex in T lymphocytes: a potential mechanism to regulate T-cell growth

The CD4 and CD8 antigens on the surface of T cells appear to bind to major histocompatibility complex (MHC) class II and I antigens, respectively. These receptors have also been found to regulate T cell growth in a manner independent of MHC recognition. In this report, we describe recent work showing that the CD4 and CD8 receptors are coupled to a protein-tyrosine kinase, p56lck, from T lymphocytes. The p56lck protein is a member of the src family, which plays a crucial role in the activation and transformation of various mammalian cells. The CD4/CD8:p56lck complex is catalytically active as shown by its ability to phosphorylate at 55-60 kDa. Two-dimensional, nonequilibrium gel electrophoresis demonstrated the similarity of p56lck associated with the CD4 and CD8 antigens. Detergents were found to vary in their ability to solubilize the CD4:p56lck complex in a catalytically active form. We further demonstrated by in vitro phosphorylation that members of the CD3 complex including the gamma, delta, and epsilon chains, as well as a putative zeta subunit can be phosphorylated at tyrosyl residues by the CD4/CD8:p56lck complex. Thus, this interaction may play an important role in the activation of T cells, and may mediate the cooperative interaction between the CD4/CD8 antigens and the Ti(TcR)/CD3 complex. This interaction also represents a possible precedent by which other members of the src family (c-src, c-yes, c-fgr, etc.) may be found to interact with mammalian growth receptors.     

A concept of immune regulation of somatic cell differentiation

On the basis of several lines of experimental evidence a hypothesis is advanced on autoimmune regulation of somatic cell differentiation in an immunologically mature organism ("self-anti-self" hypothesis of differentiation). There are supposed to be clones of lymphocytes interacting via their antigen-recognizing receptors with autologous differentiation antigens on various target cells. This interaction would modify the genetically determined rate of cell differentiation. Some implications of the hypothesis are discussed in relation to immunological memory, tolerance etc. In particular, the new concept might imply similarity (or identity) of the genes coding for autologous differentiation antigens and those responsible for the idiotypes of antigen-recognizing lymphocyte receptors.     

Differentiation antigens in human T-cell activation: Evidence that anti-VH antibodies react with a membrane structure on human T Lymphocytes distinct from the antigens detected by monoclonal antibodies of the OKT and Leu series

The effect of a panel of monoclonal antibodies and heteroantibodies on T-cell proliferation in various assay systems has been examined. The antibodies tested were directed against T-cell differentiation antigens, HLA-DR antigens, and structures defined by an anti-human V_H antiserum. As the test cell system highly purified subpopulations of T-cell growth factor (TCGF)-dependent T-cell lines activated either by mitogen or antigen were used. A survey of the data indicates the following: (1) Mitogenic and antigenic triggering of T lymphocytes are mediated through partly different membrane structures. (2) Antigenic stimulation by purified protein derivative (PPD) as well as polyclonal activation induced by OKT3/anti-Leu 4 monoclonal antibodies can be inhibited by heteroantibodies raised against human immunoglobulin V_H fragments thus pointing to a possible connection between the antigens detected by these antisera. (3) There does not seem to be differences between the two major subpopulations of T lymphocytes (i.e., helper/inducer and suppressor/cytotoxic cells) as to how they respond to antigens or mitogens in the investigated assay systems. (4) A clear distinction was found between T blasts specific for PPD and allogeneic cells as compared to cytotoxic T cells (CTL), as the T4 and T8 antigens seem to be functionally important for antigen recognition among CTL but not for the blasts proliferating in response to PPD and allogeneic cells. (5) An inhibitory effect of OKT3/anti-Leu 4, OKIal, and anti-HLA-DR on TCGF-dependent growth was detected, possibly indicating a steric relationship between these antigens and TCGF receptors on mitogen-induced T blasts. (6) Soluble factors obtained after incubating adherent cells with OKIal and anti-HLA-DR antibodies seemed to have an inhibitory effect on overall T-cell proliferation stressing the importance of studying the T-cell activation process at different levels in these kinds of experiments. (7) The results further suggest a complexity in the build up of antigen receptors on the various T-effector cells, perhaps also involving receptors for growth factors, HLA-DR antigens, and receptors for the latter.