Src kinases relax adherens junctions between the neighbors of apoptotic cells to permit apical extrusion

Epithelia can eliminate apoptotic cells by apical extrusion. This is a complex morphogenetic event where expulsion of the apoptotic cell is accompanied by rearrangement of its immediate neighbors to form a rosette. A key mechanism for extrusion is constriction of an actomyosin network that neighbor cells form at their interface with the apoptotic cell. Here we report a complementary process of cytoskeletal relaxation that occurs when cortical contractility is down-regulated at the junctions between those neighbor cells themselves. This reflects a mechanosensitive Src family kinase (SFK) signaling pathway that is activated in neighbor cells when the apoptotic cell relaxes shortly after injury. Inhibiting SFK signaling blocks both the expulsion of apoptotic cells and the rosette formation among their neighbor cells. This reveals the complex pattern of spatially distinct contraction and relaxation that must be established in the neighboring epithelium for apoptotic cells to be extruded.     

Erythrocyte rosettes provide an analogue for Schiff base formation in specific T cell activation

Human T cells spontaneously bind sheep E and this reflects physiologic interactions between specific adhesion molecules, principally T cell CD2, and the sheep equivalent of LFA-3. This interaction is important in T cell adhesion and in transmission of accessory activational signals. In this respect, E rosettes provide a partial analogue for T cell:accessory cell interaction and rosetting induces functional alterations in T cells. In studies of Ag-dependent T cell activation, we have obtained evidence that the formation of covalent Schiff bases between ligands on APC and T cell is an essential element. In our study, the specific chemical criteria defining Schiff base formation were applied to T cell E rosettes formed at room temperature, as follows: 1) Prior formation of Schiff bases on T cell epsilon-amino groups by glutaraldehyde inhibited E rosette formation. 2) Rosette formation was inhibited in the presence of exogenous lysine. 3) Reduction of constitutive T cell aldehydes by NaBH4 inhibited subsequent E rosette formation. In response to these chemical modifications of cellular ligands, T cell E rosette formation and T cell inductive interaction with APC were affected in the same way. 4) Oxidation of NaBH4-treated T cells by NaIO4 or galactose oxidase to regenerate cell-surface aldehydes on N-acetylneuraminic acid or galactose residues respectively, consistently restored E rosette formation. 5) Conversion of reversible Schiff bases to irreversible secondary amines by NaCNBH3 stabilized E rosettes against mechanical disruption. Together, these data demonstrate that E rosettes provide an analogue for the Schiff base-forming reactions that are essential in specific T cell activation.     

The significance of varying SRBC/lymphocyte ratio in T cell rosette formation.

The incubation ratio of sheep red blood cells (SRBC) to lymphocytes is a critical factor in rosette formation, whereas the length of time SRBC and lymphocytes are incubated together does not significantly affect the percentage of lymphocytes forming rosettes. The graph obtained by plotting percentage of rosette formation against the ratio of SRBC to lymphocytes is similar to that resulting from the formation of bimolecular complexes. If rosette formation is analogous to formation of bimolecular complexes, maximal rosette formation occurs when the system is saturated, i.e., with excess SRBC, and is a measure of the total capacity of a lymphocyte population to form rosettes. In addition, the percentage of rosette formation observed at a limiting SRBC/lymphocyte ratio gives an indication of the avidity of the lymphocytes for SRBC. This interpretation may provide an explanation for the difference between the "active" and "total" rosettes. When the log of the SRBC/lymphocyte ratio is plotted against percentage of rosette formation, a straight line is obtained, suggesting that within a given normal lymphocyte sample, T cell subsets with different avidities are not detected by rosette formation at different SRBC/lymphocyte ratios.     

Inductive effect of recombinant human interleukin-1 alpha and beta on differentiation of macrophage-like tumor cell line P388D1

We used the mouse monocyte/macrophage-like tumor cell line P388D1 to test whether or not interleukin-1 (IL-1) stimulates differentiation of monocyte/macrophage progenitors. Incubation of these cells with recombinant human interleukin-1 (rhIL-1) alpha and beta resulted in their increased adherence, stimulation of nonspecific esterase activity, and increased Fc rosette formation. rhIL-1s inhibited cell growth and stimulated Fc rosette formation in a dose-dependent fashion. The cell growth inhibition due to rhIL-1s depended on the concentration of serum in culture medium. Synergism between rhIL-1 and calcium ionophore A23187 was found for the cell growth inhibition and Fc rosette formation. The presence of ethylene glycol bis- (beta-aminoethyl ether) N,N,N,N,-tetraacetic acid(EGTA) in the medium abolished the stimulatory effect of rhIL-1 on Fc rosette formation of the cell line. These results demonstrate that rhIL-1s are a potent inducer of the differentiation of the macrophage-like tumor cell line P388D1.     

Differentiation between chronic lymphocytic leukaemia (B-CLL) and non-Hodgkin lymphomas in the leukaemic phase by the mouse red blood cell rosette assay

A distinction between B-CLL and other malignant B-cell lymphomas in the leukaemic phase may be difficult. Mouse red blood cell rosette formation of lymphocytes from 97 patients with B-CLL and 19 patients suffering from other B-cell lymphoproliferative disorders was examined together with lymphocyte rosette formation of healthy controls. The majority of circulating lymphocytes of B-CLL patients formed rosettes with mouse red cells, whereas there was no relationship between the number of peripheral neoplastic B-cells and that of rosette forming cells in other lymphoproliferative diseases. The relatively simple mouse red blood cell rosette assay proved to be of value in the differentiation of otherwise nearly related conditions.     

Multicellular rosette formation links planar cell polarity to tissue morphogenesis

Elongation of the body axis is accompanied by the assembly of a polarized cytoarchitecture that provides the basis for directional cell behavior. We find that planar polarity in the Drosophila embryo is established through a sequential enrichment of actin-myosin cables and adherens junction proteins in complementary surface domains. F-actin accumulation at AP interfaces represents the first break in planar symmetry and occurs independently of proper junctional protein distribution at DV interfaces. Polarized cells engage in a novel program of locally coordinated behavior to generate multicellular rosette structures that form and resolve in a directional fashion. Actin-myosin structures align across multiple cells during rosette formation, and adherens junction proteins assemble in a stepwise fashion during rosette resolution. Patterning genes essential for axis elongation selectively affect the frequency and directionality of rosette formation. We propose that the generation of higher-order rosette structures links local cell interactions to global tissue reorganization during morphogenesis.     

人和猴T淋巴细胞表面TRBC受体和E受体的比例研究

In 1985, rosette formation of human and macaque pan-T lymphocytes with tree shrew red blood cells (TRBC) (TRBC rosette) was first found by Ben K et al, showing different physico-chemical properties from that of rosette formation with sheep red blood cells (E-rosette). In order to approach the correlation between TRBC receptor, E receptor (CD2) and other differentiation antigens (CDs) on T lymphocytes, rosette inhibition assay and antigenic modulation or co-modulation were performed with monoclonal antibodies (McAbs) to CDs, and the distribution of TRBC receptor in other peripheral immunocytes, cell lines was also examined. TRBC rosette appeared in 88.8% of E rosette positive peripheral blood lymphocytes (E(+)-PBL) and in 4.16% of E(-)-PBL. TRBC receptor was also found on all T cell lines tested (CEM, H33 HJ-JA 1, Jurkat, MLA-144, Molt-3, Molt-4, Molt-4 clone 8, PEER) and some myeloid lines (U 937 and HL 60), but not on human granulocytes, B cell lines (Daudi, Raji and Reh) and myeloid line K 562. The modulation or co-modulation of CD 3, TCR, CD 5, CD 6 and CD 7 with McAbs OKT 3, T 108 (F 1), T 136 (F 101-15), T 149 (M-T 604) and T 152 (7 G 5) did not affect TRBC rosette formation of PBL. TRBC rosette of human and rhesus monkey PBL was not inhibited by T 11.1 McAb OKT 11 (CD 2 McAb), in contrast human and rhesus monkey E rosette formations were obviously blocked at inhibition rates of 77.9% and 49.3%, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Probabilistic modeling of rosette formation

Rosetting, or forming a cell aggregate between a single target nucleated cell and a number of red blood cells (RBCs), is a simple assay for cell adhesion mediated by specific receptor-ligand interaction. For example, rosette formation between sheep RBC and human lymphocytes has been used to differentiate T cells from B cells. Rosetting assay is commonly used to determine the interaction of Fc gamma-receptors (FcgammaR) expressed on inflammatory cells and IgG coated on RBCs. Despite its wide use in measuring cell adhesion, the biophysical parameters of rosette formation have not been well characterized. Here we developed a probabilistic model to describe the distribution of rosette sizes, which is Poissonian. The average rosette size is predicted to be proportional to the apparent two-dimensional binding affinity of the interacting receptor-ligand pair and their site densities. The model has been supported by experiments of rosettes mediated by four molecular interactions: FcgammaRIII interacting with IgG, T cell receptor and coreceptor CD8 interacting with antigen peptide presented by major histocompatibility molecule, P-selectin interacting with P-selectin glycoprotein ligand 1 (PSGL-1), and L-selectin interacting with PSGL-1. The latter two are structurally similar and are different from the former two. Fitting the model to data enabled us to evaluate the apparent effective two-dimensional binding affinity of the interacting molecular pairs: 7.19x10(-5) microm4 for FcgammaRIII-IgG interaction, 4.66x10(-3) microm4 for P-selectin-PSGL-1 interaction, and 0.94x10(-3) microm4 for L-selectin-PSGL-1 interaction. These results elucidate the biophysical mechanism of rosette formation and enable it to become a semiquantitative assay that relates the rosette size to the effective affinity for receptor-ligand binding.     

Rosette formation of guinea pig lymphoid cells with rabbit erythrocytes—Differences between thymocytes and peripheral blood lymphocytes

Rosette formation of guinea pig thymocytes (Th) and thymus-derived peripheral blood lymphocytes (TBL) was tested under different experimental conditions. Up to 93% of Th and 38% of TBL showed an affinity to rabbit red blood cells (RRBC). Treatment with metabolic inhibitors like sodium azide and sodium cyanide or freezing and thawing nearly abolished rosette formation by TBL but was ineffective with respect to Th. Heating the cells destroyed rosette-forming capacity of both cell types. These results indicate that spontaneous rosette formation with RRBC by Th does not require the live cell.     

树鼩(Tupaia belangeri)淋巴细胞的自体花结

参与人自体花结(A花结)形成的分子(如CD2/LFA-3),与免疫细胞的粘附和激活有关。我们曾发现,人和猴淋巴细胞表面的树鼩红细胞(TRBC)受体不同于绵羊红细胞(SRBC)受体(CD2),可能是一种新的白细胞分化抗原。花结试验表明,树鼩的外周血淋巴细胞(TPBL)和胸腺细胞都能形成A花结,结花率分别为20.9％和11.1％;而绵羊红细胞花结(E花结)形成率分别是20.9％和1.1％。以四种单克隆抗体(McAb)(Leu 5,0-275,AICD2.1和E2 McAb)进行树鼩A花结和E花结的抑制与抗原调变试验,结果表明,这些抗体对树鼩的A花结都没有明显的抑制或调变作用,但对E花结的抑制及调变作用明显。说明TPBL表面的TRBC受体不同于SRBC受体,与CD2/LFA-3及E2分子无关。因此,TPBL的A花结与E花结形成机制不同。     

Dependence of mouse thymocyte-erythrocyte rosette formation on complete identity at class-I-MHC

Mouse thymocytes and erythrocytes form rosettes when incubated together at 4 degrees C. The frequency is much higher when the thymocytes and erythrocytes are MHC-identical. If the indolizidine alkaloid swainsonine (SW) is present during rosette formation at concentrations of 1 microgram/ml (5.7 microM) or greater, rosette formation between MHC-identical pairs is inhibited to levels comparable to those observed for MHC-different pairs; rosette formation by MHC-different pairs is not affected. This was confirmed by examining 17 different MHC-identical combinations (9 completely syngeneic and 8 differing in non-MHC genes) and 13 MHC-different combinations (3 of these identical everywhere except at MHC). A SW-inhibitable component of rosette formation was observed only when thymocyte and erythrocyte were completely identical at MHC. Thus F1-parent pairs behaved as if allogeneic, although both F1-F1 and parent-parent had a SW-inhibitable rosetting component. Similarly, inbred strains only partially MHC-identical (B10.BR-B10.A, B10.D2-B10.A) behaved as if allogeneic. The SW-inhibitable component of rosetting could be partially but significantly blocked by including monoclonal antibodies against Thy-1, and anti-CD4 plus anti-CD8 (together but not separately); anti-class-I-MHC produced some inhibition of marginal significance. Monoclonal antibodies against class-I-MHC, LFA-1, and CD3 did not block. Pretreatment of erythrocytes with neuraminidase, greatly reduced the SW-inhibitable component of rosetting. The SW effect would appear to be due to a direct interaction of SW with a cell surface structure involved in syngeneic rosette formation rather than the known ability of SW to block the processing of N-linked sugar structures. The results are consistent with cell surface lectins and cell surface sugars playing a role in rosette formation.     

An intrinsic suppressor cell-controlling formation of autologous rosettes in peripheral mouse lymphocytes

The existence of intrinsic suppressor cell-controlling autologous rosette formation in mouse peripheral blood lymphocytes was demonstrated. This cell is glass adherent, Thy 1,2 positive, and loses its activity after treatment with monoclonal anti-Lyt 2 antibodies plus complement. Suppression of the autologous rosette formation also involves a factor released by these cells directed against autologous erythrocytes. The suppressive phenomenon is strain specific.     

Inhibition of T-lymphocyte rosetting by HL-A alloantisera and complement.

The relationship between HL-A antigens and rosetting of sheep red blood cells (SRBC) with peripheral human lymphocytes has been investigated by incubating them with HL-A antibodies. Although sensitizing the lymphocytes with HL-A alloantisera had no effect on their ability to form rosettes with SRBC, further sensitization with C6 deficient rabbit serum as a source of early complement components inhibited the formation of rosettes with SRBC. The involvement of HL-A alloantibodies in the inhibition of rosette formation was shown first by correlating the HL-A phenotype of the lymphocytes and the HL-A specificity of the alloantisera and, second, by specifically absorbing the HL-A alloantibodies from the alloantisera. Complement was needed to inhibit rosette formation since this effect was lost when rabbit serum was treated to inactivate complement. The participation of complement's classical pathway in rosette inhibition was shown by chelating the Ca2+ ions by EGTA treatment of the C6 deficient rabbit serum. Perhaps, binding of HL-A antibodies and early complement components to the lymphocyte surface disturbs the distribution of the receptors or affects the charge of the cell membrane, thus inhibiting the rosette formation with SRBC.     

Migration inhibitory factor (MIF) and proliferative responses by human lymphocyte subpopulations separated by sheep erythrocyte rosette formation.

Human peripheral blood lymphocytes were separated by a combination of rosette formation with sheep erythrocytes and differential density centrifugation into subpopulations of rosette positive (T-enriched) cells and rosette negative (T depleted) cells. These were then tested in vitro for the production of macrophage migration inhibitory factor (MIF) and for incorporation of ³H-thymidine in response to specific antigens. Both T enriched and T depleted cell populations produced MIF but only T enriched cells exhibited significant antigen-induced ³H-thymidine incorporation. These findings using a T cell surface marker as the basis for cell separation, a technique which should not alter the B cell surface, confirm an earlier report in which human cells were separated on the basis of surface immunoglobulin, a B cell marker.     

人和猴T淋巴细胞表面TRBC受体及其配体不同于E2分子和CD2的配体

CD2 (E receptor, LFA-3 receptor) and E2 molecules (Bernard, 1988) on human T lymphocytes, CD58 (LFA-3, lymphocyte function associated antigen 3) on human erythrocytes and S14,S42,S110-220 molecules (Bernard, 1987) of sheep erythrocytes are involved in rosette formation of human T lymphocytes with human or sheep erythrocytes. Rosette formation of human and macaque pan-T lymphocytes with tree shrew (Tupaia belangeri) red blood cells (TRBC) (TRBC rosette) has shown different physicochemical properties from that of rosette formation with sheep red blood cells (E rosette) (Ben, 1985). CD2, CD3/TCR complex, CD5, CD6, and CD7 are not involved in TRBC rosette formation (Zheng, 1990). In order to know whether E2, LFA-3,S14,S42 and S110-220 molecules are involved in TRBC rosette formation or human and macaque T lymphocytes, rosette inhibition and antigenic modulation or co-modulation were performed with relevant monoclonal antibodies (McAbs), and hemolytic assay and slide agglutination were also conducted. TRBC rosette formation of human and rhesus monkey PBL was not blocked by E2 McAb (inhibition rate 2.8% and 2.1%, respectively). In contrast, human E rosette formation was obviously blocked at inhibition rate of 49.8% and macaque E rosette formation was slightly inhibited (13.3%). The modulation or co-modulation of E2 molecule with E2 McAb did not affect human TRBC rosette formation. Similar results were shown in rosette formation inhibition of Jurkat cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibition of E-rosette formation by two iron salts.

The effects of four different metal salts on E-rosette formation by human peripheral blood lymphocytes and cells from a human T-cell line were examined. Pretreatment of lymphocytes with FeCl₃ and Fe-citrate inhibited rosette formation. The inhibition was related to cell and iron salt concentrations. Zinc chloride and Na-citrate had no significant effect on rosette formation. The results indicate that lymphocytes can bind Fe³⁺ and the possible implications of this finding are discussed in relation to the known roles played by T lymphocytes in the control of erythropoiesis and cellular immunity.     

Attachment and Rosette Formation by Hyphomicrobia

The processes of reversible and irreversible sorption of Hyphomicrobium sp. strain ZV580 to solid surfaces was investigated with the use of swarmer cell populations. Various compounds and physical conditions were examined for their effect on the cell-cell interactions which lead to the formation of rosette-like cell aggregates. The monosaccharides galactose and mannose were able to completely inhibit rosette formation. Concanavalin A and chloramphenicol were also able to prevent rosette formation, and both trypsin and pronase caused the disassociation of rosettes. The results indicate that the adhesin is a glycoprotein or a peptido-polysaccharide and that the flagellum may act as a vehicle for the transport of this adhesin from the cell to a surface.     

Genetic analysis of membrane differentiation in Paramecium. Freeze- fracture study of the trichocyst cycle in wild-type and mutant strains

Using a series of mutants of Paramecium tetraurelia, we demonstrate, for the first time, changes in the internal structure of the cell membrane, as revealed by freeze-fracture, that correspond to specific single gene mutations. On the plasma membrane of Paramecium circular arrays of particles mark the sites of attachment of the tips of the intracellular secretory organelles-trichocysts. In wild-type paramecia, where attached trichocysts can be expelled by exocytosis under various stimuli, the plasma membrane array is composed of a double outer ring of particles (300 nm in diameter) and inside the ring a central rosette (fusion rosette) of particles (76 nm in diameter). Mutant nd9, characterized by a thermosensitive ability to discharge trichocysts, shows the same organization in cells grown at the permissive temperature (18 degrees C), while in cells grown at the nonpermissive temperature (27 degrees C) the rosette is missing. In mutant tam 8, characterized by normal but unattached trichocysts, and in mutant tl, completely devoid of trichocysts, no rosette is formed and the outer rings always show a modified configuration called "parentheses", also found in wild-type and in nd9 (18 degrees C) cells. From this comparison between wild type and mutants, we conclude: (a) that the formation of parentheses is a primary differentiation of the plasma membrane, independent of the presence of trichocysts, while the secondary transformation of parentheses into circular arrays and the formation of the rosette are triggered by interaction between trichocysts and plasma membranes; and (b) that the formation of the rosette is a prerequisite for trichocyst exocytosis.     

Ultrastructural studies of C1300 neuroblastoma cell interaction with syngeneic spleen lymphoid cells.

Sensitized and unsensitized spleen lymphoid cells from A/J mice were induced to form rosettes with cells of clone NB6R of syngeneic C1300 neuroblastoma cells. Light and transmission electron microscopy were applied in combination with ⁵¹Cr release experiments to follow the time course of reaction after rosette formation. With unsensitized lymphoid cells, rosettes formed but target cell morphology in general remained unchanged. With sensitized lymphoid cells a progressive series of morphological changes in the target cells was seen, initially in the mitochondria and, later, when specific ⁵¹Cr release became significant, in the formation of large surface blebs and protrusions. Our data also show another phenomenon occasionally following rosette formation. Lymphocytes were seen within the target cell; these either apparently transformed to lymphoblasts and killed the target cell from the inside or alternatively were destroyed by the host cell and their material was reutilized.     

Differential inhibitory effect of iron on E, EA, and EAC rosette formation

The effect of ferric citrate on active E, EA, and EAC rosette formation by human peripheral blood mononuclear (PBM) cells was examined. Active E and EAC rosette formation was significantly inhibited at four of the five concentrations tested. Inhibition of EAC rosette formation was generally lower than that observed with active E rosette formation. Treatment with Fe³⁺ had no effect on EA rosette-forming cells.