γδ T-Cell Precursor-Derived CD4− CD8−αβ T Cells Retain γδ Cell Function

We have previously shown that some of the DNαβ⁺ T cells arising in TcRα-chain transgenic mice are of γδ T cell origin, based on phenotypic data and on their status of TcR gene rearrangements. In the present report we investigated the impact of αβ TcR expression on the functional programme of the mature γδ precursor-derived DNαβ⁺ T cells. Our results demonstrate that both their proliferative capacity and their cytokine production profile are similar to that of γδ T cells. Furthermore, both transgenic DNαβ⁺ T cells and DNγδ⁺ T cells up-regulate CD8α expression after activation, but, in contrast to CD4⁺αβ T cells, are unable to induce proliferation of naive B cells. Thus, our results suggest that the effector functions of mature T cells are determined independently of the TcR isotype, probably at an early stage of differentiation, and thereby have important implications for current models of T-cell lineage commitment.     

Vδ1+ Gamma/Delta T Lymphocytes Infiltrating Human Lung Cancer Express the CD8α/α Homodimer

Murine γ/δ T lymphocytes localize to different epithelial tissues and are phenotypically distinct from peripheral γ/δ T cell-populations in that they show limited TCR diversity, express the CD8 α/α homodimer and lack the CD8β chain. In humans, a compartmentalization of γ/δ cells sharing similar phenotypic features has been documented to date only in the case of intestinal epithelium. In the present study we show that about half of Vδ1⁺ (as well as Vδ1⁻Vδ2⁻) γ/δ lymphocytes, which can be selectively expanded from human lung cancers, coexpress the CD8α/α homodimer. The accumulation of intraepithelial CD8⁺γ/δ⁺ lymphocytes might then be a more general phenomenon, possibly as a result of common mechanisms operating at those sites.     

Structure of the T-Cell Receptor in a Tiαβ, Tiγδ Double Positive T-Cell Line

The multichain T-cell receptor is composed of at least six different polypeptide chains. The clonotypic Ti heterodimer (Tiαβ or Tiγδ) is non-covalently associated with the CD3 chains (CD3γδɛζ). The exact number of subunits constituting the T-cell receptor is still not known. It has been suggested that each T-cell receptor contains two Ti dimers. To gain insight into the structure of the T-cell receptor we constructed a Tiαβ, Tiγδ double positive T-cell line which contained four functional Ti chains (Tiαβ, β, γ, and δ). The data demonstrated an absence of Ti dimers containing mixtures of chains other than the typical Tiαβ and Tiγδ combinations. Furthermore, by co-modulation experiments we demonstrated that the Tiαβ and the Tiγδ dimers were not expressed in the same T-cell receptor. Our data indicate that the T-cell receptor does not contain two Ti dimers.     

Crucial function of the pre-T-cell receptor (TCR) in TCRP selection, TCRβ allelic exclusion and αβ versus γδ lineage commitment

Summary: The analysis of T-cell receptor (TCR) βselection, TCRβ allelic exclusion and TCRβ rearrangement in γδ T cells from normal and pre-TCR-deficient mice has shown that the pre-TCR has a crucial role in T-lyinpbocyte development:

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  The pre-TCR is by far the most effective receptor that generates large numbers of CD4⁺8⁺ T cells with productive TCRβ rearrangements.
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  In the absence of the pre-TCR, TCRβ rearrangement proceeds in developing cells irrespective of whether they already contain a productive TCRβ gene.
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  The pre-TCR directs developing T cells to the αβ lineage because y5 T cells from pTα^-/- mice proceed much further in TCRβ rearrangement than γδ T cells from wild-type mice. It is argued that the pre-TCR commits developing T cells to the αβ lineage by an instructive mechanism, which has largely replaced an evolutionarily more ancient mechanism that involves stochastic αβ lineage commitment.

     

Recent insights into the signals that control αβ/γδ-lineage fate

Summary:  During thymopoiesis, two major types of mature T cells are generated that can be distinguished by the clonotypic subunits contained within their T-cell receptor (TCR) complexes: αβ T cells and γδ T cells. Although there is no consensus as to the exact developmental stage where αβ and γδ T-cell lineages diverge, γδ T cells and precursors to the αβ T-cell lineage (bearing the pre-TCR) are thought to be derived from a common CD4⁻CD8⁻ double-negative precursor. The role of the TCR in αβ/γδ lineage commitment has been controversial, in particular whether different TCR isotypes intrinsically favor adoption of the corresponding lineage. Recent evidence supports a signal strength model of lineage commitment, whereby stronger signals promote γδ development and weaker signals promote adoption of the αβ fate, irrespective of the TCR isotype from which the signals originate. Moreover, differences in the amplitude of activation of the extracellular signal-regulated kinase- mitogen-activated protein kinase-early growth response pathway appear to play a critical role. These findings will be placed in context of previous analyses in an effort to more precisely define the signals that control T-lineage fate during thymocyte development.     

Experimental Human Plasmodium Falciparum Infections: Longitudinal Analysis of Lymphocyte Responses with Particular Reference to γδ T Cells

The kinetics of the γδ T-cell response was analysed in the context of the overall haematological response in subjects experimentally infected with sporozoites of Plasmodium falciparum . Numbers of γδ and αβ T cells and NK cells declined markedly during infection to reach minimum values 12–13 days post-infection when the patients were ill. This decline commenced from the beginning of the erythrocytic cycle and well before parasites could be detected microscopically and clinical symptoms developed. Platelet numbers also declined. In vivo activation of γδ T cells was evident with sequential up-regulation of the activation markers CD69 and HLA-DR. γδ T cell numbers were highest after treatment with the majority being CD4⁻CD8⁻, HLA-DR⁺ and showing reduced CD45RA expression. Contrary to some published observations γδ T-cell percentages remained within the normal range. Little evidence of up-regulation of activation or memory markers was observed in the αβ T-cell population. In vitro proliferative responses to malaria antigen which involve γδ T cells were lost as the infection progressed and the lymphocyte count declined but these could be restored with the addition of exogenous IL-2 to cultures. The authors findings are consistent with a protective and/or immunomodulatory role for γδ T cells in malaria.     

Expression of α5 (CD49e) and α6 (CD49f) Integrin Subunits on T Cells in the Circulation and the Lamina Propria of Normal and Inflammatory Bowel Disease Colonic Mucosa

Intestinal lamina propria T cells are believed to be derived, via the systemic circulation, from gut-associated lymphoid tissue. After migration into the lamina propria, T cells are capable of luminally directed migration following the loss of surface epithelial cells. For adhesion and migration within the extracellular matrix, T cells are likely to utilize the integrin family of adhesion molecules. The aim of this study was to quantitatively and qualitatively investigate the expression of α₅ and α₆ integrin subunits on the surface of human T cells that: (a) migrated out of the lamina propria, (b) remained resident within the matrix and (c) were present in the circulation. In both subpopulations of CD4 and CD8-positive T cells, from both normal and inflamed (inflammatory bowel disease) colonic mucosa, there were significantly fewer α₅ and α₆-positive cells than in the peripheral blood. In addition, there were significantly fewer α₆ integrin molecules on the surface of CD4 and CD8-positive lamina propria T-cell subpopulations, compared with those in the circulation. Our studies suggest that, following migration into the lamina propria, there is down-regulation of α₅ and α₆ integrin-subunit expression on the surface of T cells. Molecules other than members of very late activation antigen-5 (VLA-5) (α₅β₁) and VLA-6 (α₆β₁) families of adhesion molecules are likely to be important in interactions with extracellular components in the lamina propria of normal and inflamed human colonic mucosa.     

Characterization of Monoclonal Antibodies to the αIIbβ3 Integrin on Bovine Platelets

A set of monoclonal antibodies (MoAbs) to leucocyte antigens is an essential tool to identify different cell types and functional membrane molecules involved in immune responses. Since no MoAbs existed to bovine integrins, except against the β₂ subfamily, we generated MoAbs to β₃ integrin after the immunization of mice with bovine platelets. Two MoAbs, IL-A164 (IgG_2a) and IL-A166 (IgG₁), were selected that reacted specifically with bovine platelets and detected the same membrane molecule. The antigen was a heterodimer of two polypeptide chains of 122 kDa and 95 kDa as resolved by SDS-PAGE under reducing conditions. Although the Mr of the smaller subunit is identical to that of β₂ integrin, pre-absorption with an antibody to β₂ (or CD18) did not remove the bovine antigen. Comparing the molecular masses of the two subunits in reduced and non-reduced forms showed a pattern that was similar to that of human GPIIb/IIIa (also called α_IIbβ₃ or CD41a). Reduction of the bovine molecule increased the apparent Mr of the light chain from 76 kDa to 95 kDa, while the heavy subunit changed from 136 kDa to 122 kDa. As with human GPIIb, the decrease in Mr of the α-subunit is probably a result of a small disulphide-linked polypeptide, although no additional evidence for this was detected for the bovine integrin. Sequencing of the N-terminal amino acids of both bovine polypeptides showed identity of the bovine integrin with human GPIIb/IIIa.     

Activation of GABAA receptors containing the α4 subunit by GABA and pentobarbital

The activation properties of GABA_A receptors containing α4β2γ2 and α4β2δ subunits were examined in the presence of GABA or pentobarbital. The receptors were expressed transiently in HEK 293 cells, and the electrophysiological experiments were carried out using cell-attached single-channel patch clamp or whole-cell macroscopic recordings. The data show that GABA is a stronger activator of α4β2γ2 receptors than α4β2δ receptors. Single-channel clusters were recorded from α4β2γ2 receptors in the presence of 10–5000 μ m GABA. The maximal intracluster open probability was 0.35, with a half-maximal response elicited by 32 μ m GABA. Simultaneous kinetic analysis of single-channel currents obtained at various GABA concentrations yields a channel opening rate constant of 250 s⁻¹, and a K _D of 20 μ m . In contrast, only isolated openings were observed in the presence of GABA for the α4β2δ receptor. Pentobarbital was a strong activator of both α4β2γ2 and α4β2δ receptors. The maximal cluster open probability, recorded in the presence of 100 μ m pentobarbital, was 0.7. At higher pentobarbital concentrations, the cluster open probability was reduced, probably due to channel block. The results from single-channel experiments were confirmed by macroscopic recordings from HEK cells in the presence of GABA or pentobarbital.     

Tyrosine kinases enhance the function of glycine receptors in rat hippocampal neurons and human α1β glycine receptors

Glycine receptors (GlyRs) are transmitter-gated channels that mediate fast inhibitory neurotransmission in the spinal cord and brain. The GlyR β subunit contains a putative tyrosine phosphorylation site whose functional role has not been determined. To examine if protein tyrosine kinases (PTKs) regulate the function of GlyRs, we analysed whole-cell currents activated by applications of glycine to CA1 hippocampal neurons and spinal neurons. The role of a putative site for tyrosine phosphorylation at position 413 of the β subunit was examined using site-directed mutagenesis and expression of recombinant (α₁β^Y413F ) receptors in human embryonic kidney (HEK 293) cells. Lavendustin A, an inhibitor of PTKs, depressed glycine-evoked currents ( I _Gly) in CA1 neurons and spinal neurons by 31 % and 40 %, respectively. In contrast, the intracellular application of the exogenous tyrosine kinase, cSrc, enhanced I _Gly in CA1 neurons by 56 %. cSrc also accelerated GlyR desensitization and increased the potency of glycine 2-fold (control EC₅₀= 143 μ m ; cSrc EC₅₀= 74 μ m ). Exogenous cSrc, applied intracellularly, upregulated heteromeric α₁β receptors but not homomeric α₁ receptors. Substitution mutation of the tyrosine to phenylalanine at position β-413 prevented this enhancement. Furthermore, a selective inhibitor of the Src family kinases, PP2, down-regulated wild-type α₁β but not α₁β^Y413F receptors. Together, these findings indicate that GlyR function is upregulated by PTKs and this modulation is dependent on the tyrosine-413 residue of the β subunit.     

Expression of Integrin αvβ3 in Gliomas Correlates with Tumor Grade and Is not Restricted to Tumor Vasculature

In malignant gliomas, the integrin adhesion receptors seem to play a key role for invasive growth and angiogenesis. However, there is still a controversy about the expression and the distribution of α_vβ₃ integrin caused by malignancy. The aim of our study was to assess the extent and pattern of α_vβ₃ integrin expression within primary glioblastomas (GBMs) compared with low-grade gliomas (LGGs). Tumor samples were immunostained for the detection of α_vβ₃ integrin and quantified by an imaging software. The expression of α_vβ₃ was found to be significantly higher in GBMs than in LGGs, whereby focal strong reactivity was restricted to GBMs only. Subsequent analysis revealed that not only endothelial cells but also, to a large extent, glial tumor cells contribute to the overall amount of α_vβ₃ integrin in the tumors. To further analyze the integrin subunits, Western blots from histologic sections were performed, which demonstrated a significant difference in the expression of the β₃ integrin subunit between GBMs and LGGs. The presented data lead to new insights in the pattern of α_vβ₃ integrin in gliomas and are of relevance for the inhibition of α_vβ₃ integrin with specific RGD peptides and interfering drugs to reduce angiogenesis and tumor growth.     

γδ T cells: firefighters or fire boosters in the front lines of inflammatory responses

Summary:  Intradermal inoculation of cloned self-reactive αβ T cells into the footpads of mice induced cutaneous graft-versus-host disease (GVHD), and after recovery from GVHD, the epidermis became resistant to subsequent attempts to induce GVHD. Resistance to GVHD was not induced in the epidermis of T-cell receptor δ-deficient (TCRδ^−/−) mice that lacked γδ T cells bearing canonical Vγ5/Vδ1⁺γδTCRs, known as dendritic epidermal T cells (DETCs), and resistance was restored by reconstitution of these mutant mice with precursors of Vγ5⁺ DETCs. Pulmonary infection by Cryptococcus neoformans induced an increase of γδ T cells in the lung, and in comparison with wildtype mice, TCRδ^−/− mice eliminated C. neoformans more rapidly and synthesized more interferon-γ in the lung. In the mouse small intestine, the absence of γδ T cells is associated with a reduction in epithelial cell turnover and downregulation of the expression of major histocompatibility complex class II molecules. The protective role of γδ T cells was verified in a dextran sodium sulfate-induced inflammatory bowel disease (IBD) model, whereas in a spontaneous model of IBD, γδ T cells were involved in the exacerbation of colitis in TCRα^−/− mice. Taken together, in addition to the homeostatic regulation of epithelial tissues, γδ T cells appear to play a pivotal role in the modification of inflammatory responses induced in many organs containing epithelia.     

Thymic differentiation of TCRαβ+ CD8αα+ IELs

Summary:  Intraepithelial lymphocytes (IELs) contain several subsets, but the origin of the T-cell receptor (TCR)αβ⁺ CD8αα⁺ IELs has been particularly controversial. Here we provide a synthesis, based on recent work, that attempts to unify the divergent views. The intestine has a primordial function in lymphopoiesis, and precursors with the potential to differentiate into T cells are found both in the epithelium and underlying lamina propria. Moreover, the thymus has been reported to export cells to the intestine that are not fully differentiated. TCRαβ⁺ CD8αα⁺ IELs can differentiate in the intestine from each of these sources, but in normal euthymic mice, the thymus appears to be the major source for TCRαβ⁺ CD8αα⁺ IELs. This unique IEL subset is a self-reactive population that requires exposure to self-agonists for selection in the thymus, similar to other regulatory T-cell populations. IELs transition through a double-positive (DP) intermediate in the thymus, but they originate from a subset of the DP cells that can be identified by its expression of CD8αα homodimers. The agonist-selected cells in the thymus are TCRβ⁺ but CD4 and CD8 double negative. The evidence suggests that reacquired expression of CD8αα and downregulation of CD5 occur after thymus export, perhaps in the intestine under the influence of interleukin-15. As a result of agonist exposure, a new gene expression program is activated. Therefore, the increased understanding of the developmental origin of TCRαβ⁺ CD8αα⁺ IELs may help us to understand how they participate in immune regulation and protection in the intestine.     

γδ intraepithelial lymphocytes drive tumor necrosis factor-α responsiveness to intestinal iron challenge: relevance to hemochromatosis

Summary: The dependence of intestinal epithelial cell (IEC) growth and differentiation on intraepithelial lymphocytes (IELs) expressing the gamma/delta (γδ) T-cell receptor (TCR), suggested a potential role for γδ⁺ IELs in the regulation of iron absorption. We therefore examined the levels of hepatic iron and the IEL cytokine responses in C57BL/6J control and class I and TCR knockout lines (placed on a C57BL/6J genetic background) following the administration of supplemental dietary iron. The highest level of liver iron was found in the β2-microglobulin knockout (β2m^-/-) mice followed by the TCR-δ knockout (TCRδ^-/-) animals. TCR-α knockout (TCRα^-/-) and control animals did not differ in their iron levels. Liver iron loading correlated inversely with rhe ability of the mice to generate an IEL tumor necrosis factor (TNE)-α response. These observations suggest a model in which IEC iron loading is communicated to IELs via the HFE class I protein. The result of this communication is the initiation of TNE-α release by γδ⁺ IELs (sustained by macrophages and dendritic cells) contributing to the upregulation of ferritin expression and possibly to the normal maintenance of the IEC apoptotic pathway.     

Interaction and localization of Necl-5 and PDGF receptor beta at the leading edges of moving NIH3T3 cells: Implications for directional cell movement

It was previously shown that platelet-derived growth factor (PDGF) receptor physically and functionally interacts with integrin α_vβ₃, effectively inducing cell movement. We previously showed that Necl-5, originally identified as a poliovirus receptor, interacts with integrin α_vβ₃ and enhances its clustering and the formation of focal complexes at the leading edges of moving cells, resulting in an enhancement of cell movement. We showed here that Necl-5 additionally interacts with PDGF receptor in NIH3T3 cells and regulates the interaction between PDGF receptor and integrin α_vβ₃, effectively inducing directional cell movement. PDGF receptor co-localized with Necl-5 and integrin α_vβ₃ at peripheral ruffles over lamellipodia, which were formed at the leading edges of moving cells in response to PDGF, but not at the focal complexes under these ruffles, whereas Necl-5 and integrin α_vβ₃ co-localized at these focal complexes. The clustering of these three molecules at peripheral ruffles required the activation of integrin α_vβ₃ by vitronectin and the PDGF-induced activation of the small G protein Rac and subsequent re-organization of the actin cytoskeleton. These results indicate a key role of Necl-5 in directional cell movement by physically and functionally interacting with both integrin α_vβ₃ and PDGF receptor.     

Proton modulation of recombinant GABAA receptors: influence of GABA concentration and the β subunit TM2–TM3 domain

Regulation of GABA_A receptors by extracellular pH exhibits a dependence on the receptor subunit composition. To date, the molecular mechanism responsible for the modulation of GABA_A receptors at alkaline pH has remained elusive. We report here that the GABA-activated current can be potentiated at pH 8.4 for both αβ and αβγ subunit-containing receptors, but only at GABA concentrations below the EC₄₀. Site-specific mutagenesis revealed that a single lysine residue, K279 in the β subunit TM2–TM3 linker, was critically important for alkaline pH to modulate the function of both α1β2 and α1β2γ2 receptors. The ability of low concentrations of GABA to reveal different pH titration profiles for GABA_A receptors was also examined at acidic pH. At pH 6.4, GABA activation of αβγ receptors was enhanced at low GABA concentrations. This effect was ablated by the mutation H267A in the β subunit. Decreasing the pH further to 5.4 inhibited GABA responses via αβγ receptors, whereas those responses recorded from αβ receptors were potentiated. Inserting homologous β subunit residues into the γ2 subunit to recreate, in αβγ receptors, the proton modulatory profile of αβ receptors, established that in the presence of β2^H267, the mutation γ2^T294K was necessary to potentiate the GABA response at pH 5.4. This residue, T294, is homologous to K279 in the β subunit and suggests that a lysine at this position is an important residue for mediating the allosteric effects of both acidic and alkaline pH changes, rather than forming a direct site for protonation within the GABA_A receptor.     

Activated Human γδ T Lymphocytes Express Functional Lactoferrin Receptors

Lactoferrin (Lf), an iron-binding protein in milk, mucosal secretions and neutrophil granules has bactericidal properties and is a source of iron for breast-fed infants. In this paper the authors show that most in vivo activated lymphocytes, i.e. freshly isolated lymphocytes from first trimester human decidua, and most in vitro activated human blood lymphocytes, express lactoferrin receptors (Lf-R), while unstimulated blood lymphocytes do not. All major lymphocyte subsets, i.e. αβ T cells, γδ T cells, CD8⁺ T cells, CD4⁺ T cells, B cells and NK cells, express Lf-R after activation. The proportion of Lf-R expressing activated γδ T cells is significantly larger than that of activated αβ T cells. Lf-R and transferrin receptors (Tr-R/CD71) show the same kinetics of appearance on activated blood lymphocytes and are, to a large extent, expressed on the same cells. However, 35% of decidual lymphocytes and 15% of activated blood lymphocytes express Lf-R only. Addition of Lf to cultures containing an optimal concentration of Tr augments the proliferative response to polyclonal T cell activators and alloantigens, suggesting that presently used standard culture conditions for in vitro activation are suboptimal in particular for γδ T cells. Lf-R on decidual lymphocytes contain bound Lf, which probably is produced locally. The results suggest that Lf is a growth-supporting factor, especially important in local immune responses in the mucosa.     

β-Endorphin Enhances Phagocytosis of Latex Particles in Mouse Peritoneal Macrophages

The effects of β-endorphin (βEnd) on phagocytosis in peritoneal macrophages were examined by using flow cytometry (FCM). βEnd enhanced phagocytosis in a dose-dependent manner. Leucine—enkephalin (Leu-Enk), methionine—enkephalin (Met—Enk), α-endorphin (αEnd), γ-endorphin (γEnd), αEnd (18–31) and βEnd (28–31) had no such activity. βEnd (1–27) and βEnd (6–31) enhanced phagocytosis less effectively than βEnd did. Naloxone did not inhibit the enhancement of phagocytosis induced by βEnd. Unstimulated control phagocytosis was partially suppressed in Ca²⁺-free EGTA-containing solution and even in this solution βEnd enhanced phagocytosis. However, the enhancement was suppressed in the solution containing BAPTA-AM. The present study showed that βEnd enhanced extracellular Ca²⁺ ([Ca²⁺]_o)-dependent and -independent phagocytosis and that the enhancement is largely dependent on intracellular Ca²⁺ ([Ca²⁺]_i). These results support the contention that βEnd is one of the mediators that modulates the immune system.