István Gál

Cutting Edge: Regulation of T Cell Activation Threshold by CD28 Costimulation Through Targeting Cbl-b for Ubiquitination

Optimal T cell activation requires signaling through the TCR and CD28 costimulatory receptor. CD28 costimulation is believed to set the threshold for T cell activation. Recently, Cbl-b, a ubiquitin ligase, has been shown to negatively regulate CD28-dependent T cell activation. In this report, we show that CD28 costimulation selectively induces greater ubiquitination and degradation of Cbl-b in wild-type T cells than CD3 stimulation alone, and TCR-induced Cbl-b ubiquitination and degradation are significantly reduced in CD28-deficient T cells. Stimulation of CD28-deficient T cells with higher doses of anti-CD3 results in increased ubiquitination of Cbl-b, which correlates with enhanced T cell responses. Our results demonstrate that CD28 costimulation regulates the threshold for T cell activation, at least in part, by promoting Cbl-b ubiquitination and degradation.

Cutting Edge: Cbl-b: One of the Key Molecules Tuning CD28- and CTLA-4-Mediated T Cell Costimulation

Cbl-b negatively regulates CD28-dependent T cell activation. In this report, we tested the hypothesis that CD28 and CTLA-4 have opposite roles in tuning T cell activation threshold by controlling the levels of Cbl-b protein expression. We demonstrate that CD28 costimulation potentiates TCR-induced Cbl-b degradation, whereas CTLA-4-B7 interaction is required for Cbl-b re-expression. In support of this finding, Cbl-b expression in CTLA-4 knockout (KO) T cells is significantly reduced, and treating CTLA-4KO mice with human CTLA-4Ig to block CD28-B7 interaction restores Cbl-b expression on T cells. Furthermore, CD28 and CTLA-4 costimulatory effects are compromised in Cbl-bKO T cells. These observations indicate that CD28 and CTLA-4 tightly regulate Cbl-b expression which is critical for establishing the threshold for T cell activation.

Trafficking of CD44-deficient murine lymphocytes under normal and inflammatory conditions

CD44 has been implicated in hyaluronan (HA)‐dependent primary adhesion between leukocytes and endothelium. We studied the trafficking of lymphocytes of CD44‐deficient DBA/1 mice under normal conditions, and during chronic and transient forms of inflammation. Animals homozygous for the CD44 mutation (CD44–/–) showed no abnormalities in the composition of the lympho‐hemopoietic system, but their leukocytes could not recognize HA as an adhesion ligand. T cells from CD44‐deficient mice responded normally to immunization with type II collagen or stimulation with a bacterial superantigen. Lymphocytes harvested from naive CD44–/– and wild‐type (WT) animals showed similar trafficking properties when injected into naive recipients. However, cells from WT and CD44‐deficient mice with collagen‐induced arthritis showed distinct migration kinetics upon transfer to arthritic recipients. While lymphocytes from CD44–/– mice preferentially homed to lymph nodes, their entry into the inflamed synovial joints was delayed as compared with WT cells. Similar differences were observed in the migration kinetics of CD44‐deficient and CD44‐competent (CD44+/+) lymphocytes in bacterial superantigen‐induced peritonitis. These results suggest that CD44 plays opposite roles in the regulation of leukocyte traffic to inflammatory sites versus the lymph nodes. CD44‐deficient lymphocytes from animals with chronic arthritis, but not from those with transient peritonitis, expressed markedly reduced levels of the lymph node homing receptor, L‐selectin. Extreme down‐modulation of L‐selectin from CD44–/– cells in arthritic condition might be a counter‐regulatory response, which, by extending lymphocyte transit time in the circulation at the expense of lymph node homing, allows CD44‐deficient cells to gain entry to the site of chronic inflammation via secondary adhesion mechanisms.

Role of the extracellular and cytoplasmic domains of CD44 in the rolling interaction of lymphoid cells with hyaluronan under physiologic flow.

CD44 can function as an adhesion receptor that mediates leukocyte rolling on hyaluronan (HA). To study the contributions of different domains of the standard isoform of CD44 to cell rolling, a CD44-negative mouse T lymphoma AKR1 was transfected with wild type (WT) or mutated cDNA constructs. A parallel flow chamber was used to study the rolling behavior of CD44 transfectants on immobilized HA. For CD44WT transfectants, the fraction of cells that rolled and the rolling velocity was inversely proportional to the amount of cell surface CD44. When the cytoplasmic domain distal to Gly305 or sequences that serve as binding sites for cytoskeletal linker proteins, were deleted or replaced with foreign sequences, no significant changes in the rolling behavior of mutant cells, compared with the transfectant expressing CD44WT, were observed. Transfectants lacking 64 amino acids of the cytoplasmic tail distal to Cys295 adhered to HA but showed enhanced rolling at low shear forces. When 83 amino acids from the “non-conserved” membrane-proximal region of the CD44 extracellular domain were deleted, cells adhered firmly to the HA substrate and did not roll at any fluid shear force tested. Unlike wild type cells that exhibited a nearly homogenous distribution of CD44 on a smooth cell surface, cells expressing the non-conserved region deletion mutant accumulated CD44 in membrane protrusions. Disruption of the actin cytoskeleton with cytochalasin B precluded the formation of membrane protrusions, however, treated cells still adhered firmly to HA and did not roll. We conclude that interaction between the cytoplasmic domain of CD44 and the cytoskeleton is not required for cell rolling on immobilized ligand. The strong effect of deletion of the non-conserved region of the extracellular domain argues for a critical role of this region in CD44-dependent rolling and adhesion interactions with HA under flow.

CD44-specific antibody treatment and CD44 deficiency exert distinct effects on leukocyte recruitment in experimental arthritis

CD44, the leukocyte adhesion receptor for hyaluronan, has been considered a therapeutic target on the basis of the robust anti-inflammatory effect of CD44-specific antibodies in animal models of immune-mediated diseases. However, CD44 deficiency does not provide substantial protection against inflammation. Using intravital video microscopy in a murine model of rheumatoid arthritis, we show that CD44 deficiency and anti-CD44 antibody treatment exert disparate effects on leukocyte recruitment in inflamed joints. Leukocyte rolling, which is increased in CD44-deficient mice, is promptly abrogated in anti-CD44-treated wild-type mice. CD44-specific antibodies also trigger platelet deposition on granulocytes and subsequent depletion of this leukocyte subset in the circulation. These in vivo effects require CD44 cross-linking and are reproducible with an antibody against Gr-1, a molecule that, like CD44, is highly expressed on granulocytes. Anticoagulant pretreatment, which prevents platelet deposition, mitigates both granulocyte depletion and the suppressive effect of CD44-specific antibody on joint swelling. Our observations suggest that cross-linking of prominent cell surface molecules, such as CD44 or Gr-1, can initiate a rapid self-elimination program in granulocytes through engagement of the coagulation system. We conclude that the robust anti-inflammatory effect of CD44-specific antibodies in arthritis is primarily the result of their ability to trigger granulocyte depletion.

Expression of L-Selectin, but Not CD44, Is Required for Early Neutrophil Extravasation in Antigen-Induced Arthritis

L (leukocyte)-selectin (CD62L) and CD44 are major adhesion receptors that support the rolling of leukocytes on endothelium, the first step of leukocyte entry into inflamed tissue. The specific contribution of L-selectin or CD44 to the regulation of cell traffic to joints in arthritis has not been investigated. We used CD44-deficient, L-selectin-deficient, and CD44/L-selectin double knockout mice to determine the requirement for these receptors for inflammatory cell recruitment during Ag-induced arthritis. Intraperitoneal immunization resulted in similar activation status and Ag-specific responses in wild-type and gene-targeted mice. However, extravasation of neutrophil granulocytes, but not the emigration of T cells, into the knee joints after intra-articular Ag injection was significantly delayed in L-selectin-deficient and double knockout mice. Intravital videomicroscopy on the synovial microcirculation revealed enhanced leukocyte rolling and diminished adherence in mice lacking either CD44 or L-selectin, but CD44 deficiency had no significant effect on the recruitment of L-selectin-null cells. Compared with wild-type leukocytes, expression of L-selectin was down-regulated in CD44-deficient cells in the spleen, peripheral blood, and inflamed joints, suggesting that reduced expression of L-selectin, rather than the lack of CD44, could be responsible for the delayed influx of granulocytes into the joints of CD44-deficient mice. In conclusion, there is a greater requirement for L-selectin than for CD44 for neutrophil extravasation during the early phase of Ag-induced arthritis.

CD44, but not l-selectin, is critically involved in leucocyte migration into the skin in a murine model of allergic dermatitis.

Abstract:  CD44 and l‐selectin (CD62L) are major adhesion receptors that mediate leucocyte recruitment at inflammatory sites and lymph nodes, by supporting cell rolling under blood flow. Both CD44 and CD62L have been implicated in inflammatory skin disorders, but their specific involvement in an immediate‐type allergic reaction remains uncertain. We used mice deficient in CD44 or CED62L or both in order to determine whether one or both of these molecules were required for leucocyte extravasation in an atopic dermatitis‐like allergic response. Wild‐type (WT) mice and mice deficient in CD44, CD62L or both were immunized with ovalbumin (OVA). Inflammatory reaction in the ear was elicited once by means of intradermal injection of OVA. Effective sensitization of CD62L knockout (KO) mice required intraperitoneal antigen injection; however, OVA‐specific T helper 2 (Th2)‐type immune responses and IgE production in mice lacking CD44, CD62L or both were comparable to those in WT mice following intraperitoneal immunization. We employed intravital videomicroscopy to monitor the recruitment of fluorescence‐labelled leucocytes to the ear tissue following challenge with OVA. The number of adherent leucocytes was significantly reduced in CD44 KO and CD44/CD62L double KO mice, indicating that CD44 was involved in firm adhesion, the committed step of leucocyte extravasation. Histology of the OVA‐challenged ears showed a diminished leucocyte infiltration in the ears of CD44 KO and double KO mice. The results of our study demonstrate that CD44, but not CD62L, is required for leucocyte extravasation during a Th2‐type inflammatory response.