Population Of Gammadelta Research Articles

Single-cell RNA sequencing reveals common interactions between follicle immune cells and granulosa cells in premature ovarian insufficiency patients†.

This study aims to investigate the follicle microenvironment of individuals with premature ovarian insufficiency (POI), normal ovarian reserve (normal), and advanced maternal age (AMA), and identify potential therapeutic targets. A total of nine women, including three POI, three normal, and three AMA women, who underwent in vitro fertilization or intracytoplasmic sperm injection were included in this study. For each participant, the first punctured follicle not containing cumulus cells were submitted to single-cell RNA sequencing to explore the characteristics of the follicle microenvironment of POI, normal, and AMA individuals. A total of 87,323 cells were isolated and grouped into six clusters: T cells, B cells, neutrophils, basophils, mononuclear phagocytes, and granulosa cells. Further analysis demonstrated that the population of granulosa cells in cluster 6 was increased in AMA and POI patients, whereas the population of gamma delta T (GDT) cells was decreased. We also found that the genes that were differentially expressed between GDT cells and monocytes were enriched in ribosome- and endoplasmic reticulum (ER)-related pathways. In addition, it showed that VEGFA-FLT1 interaction between the monocytes and granulosa cells may be lost in the AMA and POI patients as compared with the normal group. Loss of the VEGFA-FLT1 interaction in monocytes and granulosa cells, along with enriched ER- and ribosome-related pathways, may drive excess inflammation, accelerating granulosa cell senility and contributing to infertility. This study provides new insights into the pathogenesis of POI and aging and highlights the VEGFA-FLT1 interaction may be a potential therapeutic target for reducing inflammation and treating POI.

A novel method for isolation and flow cytometry analysis of intraepithelial lymphocytes from colon biopsies

Investigating the immune responses of the intestine in response to different insults is predominantly limited to indirect methods such as circulating markers of intestinal health or gene expression from dissections. We describe here a validated protocol for the isolation and subsequent flow cytometry analysis of intestinal intraepithelial lymphocytes (IEL) from colonic biopsy samples. Colon biopsy samples were collected with endoscopy forceps from Holstein dairy bull calves at d 2, 28, and 42 of life. The biopsies were put into an isolation solution of Hanks' balanced salt solution, and fetal bovine serum followed by digestion solution. The solution was filtered and the flow-through, containing IEL, was stained with fluorescent antibodies for flow cytometry analysis. Density gradient separation of the isolate yielded higher viability and cleaner samples for flow cytometry analysis. Anti-bovine γ chain of the T cell receptor was used to identify populations of gamma delta (γδ) T cells via flow cytometry. In addition, γδ T cell subsets were identified using an anti-bovine antibody against the coreceptor workshop cluster 1. This method allowed for the precise identification of lymphocyte populations and evaluation of the proportion of different subsets of γδ T cells from intestinal IEL over time. The technique described here will allow the research community to characterize intestinal immune function over time and improve our understanding of how different management and nutritional strategies affect intestinal health.

BALANCING GVHD IMMUNOSUPPRESSION AND COVID19 VIRAL REACTIVATION IN A PATIENT WITH ATYPICAL COMPLETE DIGEORGE SYNDROME

<h3>Introduction</h3> Complete DiGeorge syndrome (DGS) accounts for less than 1% of patients with DGS, with atypical DGS being even rarer. We present a patient with atypical complete DGS who developed autoimmune phenomena attributed to autologous GVHD, and subsequent prolonged respiratory failure due to COVID19 pneumonia while on immunosuppression. <h3>Case Description</h3> A 3-year old male infant of a diabetic mother with complete DGS awaiting thymic transplantation, hypoparathyroidism, hypogammaglobulinemia on IVIG, and recent asymptomatic COVID19 infection was admitted for AKI, electrolyte disarray secondary to malabsorption, and warm autoimmune hemolytic anemia. A month prior he had a persistent eczematous rash, chronic cough, recurrent diarrhea, and thinning hair. Labs revealed uptrending total IgE to 10,000 IU/ml, no eosinophilia, an oligoclonal population of gamma-delta T cells, and increased numbers of CD4+ and CD8+ lymphocytes, which were primarily CD45RO+ central memory T cells. A large portion were activated and expressed HLA-DR. Mitogen proliferation was normal. Given these findings, he was diagnosed with autologous GVHD secondary to autoreactive oligoclonal T cells, and subsequently, atypical complete DGS. Tacrolimus and methylprednisolone were started for immunosuppression. IgE and CD3+ T cells decreased on immunosuppression, but he developed hypoxemic respiratory failure with prolonged intubation due to COVID19 pneumonia. Immunosuppression was gradually weaned. IgE and CD3+ cells increased slightly, but he showed no clinical signs of GVHD and was discharged home after a 3.5 month hospital stay. <h3>Discussion</h3> This case highlights the difficult balance between immunosuppression and viral reactivation. After starting immunosuppression for treatment of GVHD, he developed severe COVID19 pneumonia.

Butyrophilin molecules govern γδ T cell reactivity against phosphoantigens

Abstract Humans have a minor lymphocyte population of gamma-delta (γδ) T cells. The majority of these express a recombined Vγ9Vδ2 T cell receptor (TCR) attractive to immunotherapy. This distinct TCR conveys reactivity to phosphorylated antigens (pAg) that derive from pathogens or accumulate inside tumour cells. Such T cell responses are regulated by butyrophilin (BTN) 3A1 and other membrane-related proteins present on antigen-presenting cells. However, the activation mechanism and direct molecular ligand recognised by the γδ TCR remain a crucial unresolved question. Herein, we used pAg-reactive TCR probes in a whole-genome screen to identify BTN2A1 as an essential ligand. In further investigation, we elucidated its functionality working in cis with BTN3A1. Also, a mutational analysis unveiled critical regions of the γδ TCR are positioned at opposite sides. We locate germ-line encoded residues of the Vγ9 chain were responsible for BTN2A1 binding, whereas two amino-acids of the Vδ2 chain were necessary for a complete response to pAg. In conclusion, we propose a dual-ligand complex model that senses pAg to evoke immune responses, wherein BTN2A1 sets the framework to develop new opportunities on γδ T cell-based immunotherapies.

A subset of IL‐10‐producing γδ T cells protect the liver from Listeria‐elicited, CD8+ T cell‐mediated injury

Although gammadelta T cells play a role in protecting tissues from pathogen-elicited damage to bacterial, viral and parasitic pathogens, the mechanisms involved in the damage and in the protection have not been clearly elucidated. This has been addressed using a murine model of listeriosis, which in mice lacking gammadelta T cells (TCRdelta(-/-)) is characterised by severe and extensive immune-mediated hepatic necrosis. We show that these hepatic lesions are caused by Listeria-elicited CD8(+) T cells secreting high levels of TNF-alpha that accumulate in the liver of Listeria-infected TCRdelta(-/-) mice. Using isolated populations of gammadelta T cells from wild-type and cytokine-deficient strains of mice to reconstitute TCRdelta(-/-) mice, the TCR variable gene 4 (Vgamma4)(+) subset of gammadelta T cells was shown to protect against liver injury. Hepatoprotection was dependent upon their ability to produce IL-10 after TCR-mediated interactions with Listeria-elicited macrophages and CD8(+) T cells. IL-10-producing Vgamma4(+) T cells also contribute to controlling CD8(+) T cell expansion and to regulating and reducing TNF-alpha secretion by activated CD8(+) T cells. This effect on TNF-alpha production was directly attributed to IL-10. These findings identify a novel mechanism by which pathogen-elicited CD8(+) T cells are regulated via interactions with, and activation of, IL-10-producing hepatoprotective gammadelta T cells.

Age-Related Accumulation of a Novel CD44 + CD25low T-Cell Population in Hematopoietic Organs of the Mouse

We discovered a novel population of gammadelta T cells in the mouse that accumulates with age in hematopoietic organs, but not in epithelia. These cells are CD25low (an unusual phenotype for gammadelta T cells in the mouse); express higher levels of TCRgammadelta and CD44 than do CD25- gammadelta T cells; mainly express Vgamma2, Vgamma3, and Vgamma4 chains; and are largely quiescent. A very similar cell population appears in the late stages of fetal thymus organ cultures, suggesting that the accumulation of CD44 + CD25lowTCRgammadelta + cells is a response to stress induced by aging in vivo or by culture in vitro. The precursors of CD44 + CD25lowTCRgammadelta + cells are generated during fetal or very young adult life, as this population was undetectable in aged recipients of bone marrow from old or young donors. CD44 + CD25lowTCRgammadelta + cells may be a biomarker of aging, but could also play a role in the inflammatory changes that accompany aging.

Characterization of lung gamma delta T cells following intranasal infection with Mycobacterium bovis bacillus Calmette-Guérin.

The lungs are considered to have an impaired capacity to contain infection by pathogenic mycobacteria, even in the presence of effective systemic immunity. In an attempt to understand the underlying cellular mechanisms, we characterized the gammadelta T cell population following intranasal infection with Mycobacterium bovis bacillus Calmette-Guérin (BCG). The peak of gammadelta T cell expansion at 7 days postinfection preceded the 30 day peak of alphabeta T cell expansion and bacterial count. The expanded population of gammadelta T cells in the lungs of BCG-infected mice represents an expansion of the resident Vgamma2 T cell subset as well as an influx of Vgamma1 and of four different Vdelta gene-bearing T cell subsets. The gammadelta T cells in the lungs of BCG-infected mice secreted IFN-gamma following in vitro stimulation with ionomycin and PMA and were cytotoxic against BCG-infected peritoneal macrophages as well as against the uninfected J774 macrophage cell line. The cytotoxicity was selectively blocked by anti-gammadelta TCR mAb and strontium ions, suggesting a granule-exocytosis killing pathway. Depletion of gammadelta T cells by injection of specific mAb had no effect on the subsequent developing CD4 T cell response in the lungs of BCG-infected mice, but significantly reduced cytotoxic activity and IFN-gamma production by lung CD8 T cells. Thus, gammadelta T cells in the lungs might help to control mycobacterial infection in the period between innate and classical adaptive immunity and may also play an important regulatory role in the subsequent onset of alphabeta T lymphocytes.

Extensive and preferential Fas/Fas ligand-dependent death of gammadelta T cells following infection with Listeria monocytogenes.

In the spleens of mice infected intraperitoneally with the bacterium Listeria monocytogenes, both alphabeta and gammadelta T cells became rapidly activated, followed by a massive apoptotic death response predominantly within the gammadelta population. The death response involved two major splenic gammadelta T-cell subsets and was Fas/Fas ligand (Fas-L)-dependent. Among T cells isolated from the Listeria-infected spleen, Fas-L was almost exclusively expressed in gammadelta T cells. gammadelta T cells coexpressed Fas and Fas-L, suggesting activation-induced suicide as a mechanism of their death. In vivo treatment with an antibody specific for CD3epsilon induced activation, preferential Fas-L expression and apoptosis of gammadelta T cells, resembling the response pattern in listeriosis, whereas antibodies specific for T-cell receptor-beta (TCR-beta) or TCR-delta did not, suggesting that the complete response seen in listeriosis requires both gammadelta TCR engagement and additional stimuli. L. monocytogenes causes early nonspecific, Fas-independent lymphocyte death in heavily infected tissues. In contrast, the death response described here is selective, Fas-dependent and triggered at low local levels of bacteria, suggesting that it is controlled by interactions with other infection-activated host cells, and perhaps part of a regulatory circuit specifically curtailing gammadelta T cells.

Strain-specific TCR repertoire selection of IL-4-producing Thy-1 dull gamma delta thymocytes.

Thy-1 dull gamma delta thymocytes constitute an unusual subset of mature TCR gamma delta cells which share with NK T cells the expression of cell surface markers usually associated with activated or memory cells and the simultaneous production of high levels of IL-4 and IFN-gamma upon activation. In DBA / 2 mice, Thy-1 dull gamma delta thymocytes express a restricted repertoire of TCR that are composed of the V1 gene product mainly associated with V6.4 chains exhibiting very limited junctional sequence diversity. In this study we have characterized this gamma delta T cell population in different strains of mice and show that Thy-1 dull gamma delta thymocytes are present in every strain tested, albeit at different frequencies. Moreover IL-4 production by gamma delta thymocytes is mainly confined to the Thy-1 dull population in every strain tested. Finally, the repertoire of TCR expressed by Thy-1 dull gamma delta thymocytes varies in different strain of mice, although a biased expression of Vgamma1 and Vdelta6 chains was observed in all strains studied. However, the extent of junctional diversity of the V1 and V6 chains expressed by Thy-1 dull gamma delta thymocytes varied from oligoclonal in DBA/2 mice to polyclonal in FVB/N mice. Thy-1 dull gamma delta thymocytes from mouse strains such as C3H/HeJ and BALB/c contain cells with diverse Vdelta6(D)Jdelta junctions together with cells with relatively homogeneous Vdelta6(D)Jdelta junctions, similar to those found in DBA/2. Thus, the Thy-1 dull gamma delta population appears to contain two subsets of cells which differ in the diversity of their TCR.

Gammadelta T cells lyse autologous and allogenic oesophageal tumours: involvement of heat-shock proteins in the tumour cell lysis.

T cells expressing gammadelta receptors were isolated from the peripheral blood of oesophageal cancer patients and analysed for their potential to lyse tumour targets. Immunophenotyping by flow cytometry showed that the dominant population of gammadelta T cells expressed the Vgamma9 and the Vdelta2 T cell receptor, and a minor population expressed the Vdelta1 receptor. Cytotoxicity assays revealed that activated gammadelta T cells lysed Daudi Burkitt's lymphoma and K562 cells. Lysis of autologous oesophageal tumours was higher than of allogenic tumours. Anti-hsp60 and anti-hsp70 mAb significantly inhibited the cytotoxicity of gammadelta T cells to both autologous and allogenic oesophageal tumours. Surface expression of hsp60 and hsp70 on oesophageal tumours and Daudi cells was demonstrated by flow cytometry. In conclusion, gammadelta T cells isolated from the peripheral blood of oesophageal cancer patients have the ability of kill oesophageal tumour cells. The lysis of tumour targets by the gammadelta T cells is brought about via recognition of heat-shock proteins expressed on the surface of tumour cells. gammadelta T cells isolated from the peripheral blood may have applications in adoptive immunotherapy of oesophageal cancer.

The protective role of T-cell receptor Vgamma1+ T cells in primary infection with Listeria monocytogenes.

We have previously reported that the T-cell receptor (TCR) gamma delta+ T cells increase in mice infected with an intracellular bacteria Listeria monocytogenes, and the cells predominantly express Vdelta6 and Vgamma1 genes. In this study, we used a monoclonal antibody (mAb) specific to TCR Vgamma1 to estimate the frequency of Vgamma1+ T cells and we discuss their significance in protection against L. monocytogenes. The spleen, liver and peritoneal exudate cells from mice intraperitoneally infected with L. monocytogenes were analysed by flow cytometry. In all the organs investigated, Vgamma1+ cells increased predominantly among TCR gamma delta+ T cells at an early phase (day 5-7) of the infection. To elucidate the significance of the Vgamma1+ T cells in the protection against L. monocytogenes, mice were depleted of TCR Vgamma1+ gamma delta T cells or all TCR gamma delta+ T cells by intraperitoneal inoculation of anti-Vgamma1 mAb or anti-pan TCR gamma delta mAb, respectively, before infection with L. monocytogenes. The bacterial growth in the spleen and the liver examined on day 5 after the infection increased significantly by the depletion of TCR Vgamma1+ T cells. The numbers of L. monocytogenes in TCR Vgamma1+ T-cell-depleted mice were nearly the same as in mice depleted of all TCR gamma delta+ T cells. These results demonstrated that Vgamma1+ T cells are the predominant population of gamma delta T cells in protection against L. monocytogenes at the early phase of the primary infection.

Positive selection of gamma delta CTL by TL antigen expressed in the thymus.

To elucidate the funciton of the mouse TL antigen in the thymus, we have derived two TL transgenic mouse strains by introducing Tl alpha 2-3 of A strain origin with its own promoter onto a C3H background with no expression of TL in the thymus. These transgenic mouse strains, both of which express high levels of Tla2-3-TL antigen in their thymus, were analyzed for their T cell function with emphasis on cytotoxic T lymphocyte (CTL) generation. A T cell response against TL was induced in Tg. Tla2-3-1, Tg. Tla2-3-2, and control C3H mice by skin grafts from H-2Kb/T3b transgenic mice, Tg.Con.3-1, expressing T3b-TL ubiquitously. Spleen cells from mice that had rejected the T3b-TL positive skin grafts were restimulated in vitro with Tg. Con.3-1 irradiated spleen cells. In mixed lymphocyte cultures (MLC), approximately 20% and 15% of Thy-1+ T cells derived from Tg.Tla2-3-1 and Tg.Tla2-3-2, respectively, expressed TCR gamma delta, whereas almost all those from C3H expressed TCR alpha beta. The MLC from Tg. Tla2-3-2 and C3H demonstrated high CTL activity against TL, while those from Tg. Tla2-3-1 had little or none. The generation of gamma delta CTL recognizing TL in Tg. Tla2-3-2, but not C3H mice, was confirmed by the establishment of CTL clones. A total of 14 gamma delta CTL clones were established from Tg. Tla2-3-2, whereas none were obtained from C3H. Of the 14 gamma delta CTL clones, 8 were CD8+ and 6 were CD4-CD8- double negative. The CTL activity of all these clones was TL specific and inhibited by anti-TL, but not by anti-H-2 antibodies, demonstrating that they recognize TL directly without antigen presentation by H-2. The CTL activity was blocked by antibodies to TCR gamma delta and CD3, and also by antibodies to CD 8 alpha and CD8 beta in CD8+ clones, showing that the activity was mediated by TCR gamma delta and coreceptors. The thymic origin of these gamma delta CTL clones was indicated by the expression of Thy-1 and Ly-1 (CD5), and also CD8 alpha beta heterodimers in CD8+ clones on their surfaces and by the usage of TCR V gamma 4 chains in 12 of the 14 clones. Taken together, these results suggest that Tla2-3-TL antigen expressed in the thymus engages in positive selection of a sizable population of gamma delta T cells.

Elevation of gamma delta T lymphocytes in peripheral blood and livers of patients with primary sclerosing cholangitis and other autoimmune liver diseases.

Primary sclerosing cholangitis (PSC) is a chronic cholestatic liver disease that is possibly an autoimmune disease. Although gamma delta T cells represent a small proportion of the total T-cell population in healthy individuals, there is evidence to suggest a role for these cells in autoimmunity. Accordingly, the aim of this study was to investigate the population of gamma delta T cells in patients with PSC, compared with other chronic liver diseases. An elevation in the percentage and absolute numbers of gamma delta T cells was found in the peripheral blood of patients with PSC (8.66% and 0.13 x 10(-6)/L [P < .01 and < .05, respectively]) and autoimmune hepatitis (AIH) (8.03% and 0.13 x 10(-6)/L [both P < 0.001]) compared with controls (4.10% and 0.06 x 10(-6)/L). We also found an elevation in the percentage and absolute numbers of gamma delta T cells in the portal areas of patients with PSC (10.55% and 4.33 [P < .001 and < .001, respectively]), AIH (7.16% and 4.55 [P = .001 and < .001, respectively]), and primary biliary cirrhosis (PBC) (5.57% and 3.49 [P = .008 and < .001, respectively]) when compared with controls (2.23% and 0.81). These findings suggest a role for gamma delta T cells in the mechanism of immune damage in autoimmune liver diseases.

Elevation of gamma delta T lymphocytes in peripheral blood and livers of patients with primary sclerosing cholangitis and other autoimmune liver diseases

Primary sclerosing cholangitis (PSC) is a chronic cholestatic liver disease that is possibly an autoimmune disease. Although gamma delta T cells represent a small proportion of the total T-cell population in healthy individuals, there is evidence to suggest a role for these cells in autoimmunity. Accordingly, the aim of this study was to investigate the population of gamma delta T cells in patients with PSC, compared with other chronic liver diseases. An elevation in the percentage and absolute numbers of gamma delta T cells was found in the peripheral blood of patients with PSC (8.66% and 0.13 x 10-6/L [P < .01 and < .05, respectively]) and autoimmune hepatitis (AIH) (8.03% and 0.13 x 10-6/L [both P < 0.001]) compared with controls (4.10% and 0.06 x 10-6/L). We also found an elevation in the percentage and absolute numbers of gamma delta T cells in the portal areas of patients with PSC (10.55% and 4.33 [P < .001 and < .001, respectively]), AIH (7.16% and 4.55 [P = .001 and < .001, respectively]), and primary biliary cirrhosis (PBC) (5.57% and 3.49 [P = .008 and < .001, respectively]) when compared with controls (2.23% and 0.81). These findings suggest a role for gamma delta T cells in the mechanism of immune damage in autoimmune liver diseases. (Hepatology 1996 May;23(5):988-93)

A δ T-Cell Receptor Deleting Element Transgenic Reporter Construct Is Rearranged in αβ but not γδ T-Cell Lineages

T cells can be divided into two groups on the basis of the expression of either alpha beta or gamma delta T-cell receptors (TCRs). Because the TCR delta chain locus lies within the larger TCR alpha chain locus, control of the utilization of these two receptors is important in T-cell development, specifically for determination of T-cell type: rearrangement of the alpha locus results in deletion of the delta coding segments and commitment to the alpha beta lineage. In the developing thymus, a relative site-specific recombination occurs by which the TCR delta chain gene segments are deleted. This deletion removes all D delta, J delta, and C delta genes and occurs on both alleles. This delta deletional mechanism is evolutionarily conserved between mice and humans. Transgenic mice which contain the human delta deleting elements and as much internal TCR delta chain coding sequence as possible without allowing the formation of a complete delta chain gene were developed. Several transgenic lines showing recombinations between deleting elements within the transgene were developed. These lines demonstrate that utilization of the delta deleting elements occurs in alpha beta T cells of the spleen and thymus. These recombinations are rare in the gamma delta population, indicating that the machinery for utilization of delta deleting elements is functional in alpha beta T cells but absent in gamma delta T cells. Furthermore, a discrete population of early thymocytes containing delta deleting element recombinations but not V alpha-to-J alpha rearrangements has been identified. These data are consistent with a model in which delta deletion contributes to the implementation of a signal by which the TCR alpha chain locus is rearranged and expressed and thus becomes an alpha beta T cell.

γδ T Cell Receptor Analysis Supports a Role for HSP 70 Selection of Lymphocytes in Multiple Sclerosis Lesions

Interactions between gamma delta T cells and heat shock proteins (HSP) have been proposed as contributing factors in a number of diseases of possible autoimmune etiology but definitive evidence to support this hypothesis has been lacking. In multiple sclerosis (MS), a chronic inflammatory neurologic disease, HSP and gamma delta T cells are known to colocalize in brain lesions. Analysis of T cell receptor (TCR) gene usage in these lesions has detected evidence of clonality within both the V delta 2-J delta 1 and V delta 2-J delta 3 populations of gamma delta T cells. In our own studies, using direct sequence analysis, a dominant V delta 2-J delta 3 TCR sequence was found in 9 MS brain samples, suggesting a response to a common antigen. In this report, we have examined gamma delta T cell receptor gene usage in MS peripheral blood T cell lines selected for reactivity to HSP 70. TCR rearrangement patterns for V delta 2-J delta 1 and V delta 2-J delta 3 were studied using the polymerase chain reaction (PCR) and a direct sequencing technique in populations of peripheral blood mononuclear cells (PBMC) cultured with Mycobacterium tuberculosis (M. tuberculosis) purified protein derivative (PPD) and then selected for reactivity to a 70-kD heat shock protein (HSP70). Cells were obtained from health donors, patients with MS, and patients with tuberculosis (TB). PCR products were subjected to direct sequence analysis to look for evidence for clonality within these T cell lines and to define the sequence of the V-D-J (CDR3) region of the TCR. In freshly isolated PBMC, both V delta 2-J delta 1 and V delta 2-J delta 3 gene rearrangement patterns were detected, whereas in HSP70+ T cell lines the predominant delta chain rearrangement pattern was V delta 2-J delta 3. Direct sequence analyses indicated that in cells reactive with HSP70 the V delta 2-J delta 3 sequences were usually oligoclonal and used D delta 3 exclusively. In four of four MS and two of three TB patients, the oligoclonal sequences in the HSP70+ T cell lines were identical to one another and to a dominant sequence previously detected in MS brain lesions. In two of three HSP70+ T cell lines from healthy controls, the oligoclonal sequences differed from those found in both groups of patients but were identical to one another except for a small region of heterogeneity in the second N region. In contrast, in freshly isolated PBMC or in PPD+HSP70- T cell lines, the V delta 2-J delta 3 gene rearrangement patterns were usually polyclonal and dominant sequences were rarely identified. These results support the conclusion that a subpopulation of gamma delta T cells in MS lesions are responding to HSP 70 and that non-CNS-specific antigens contribute to the pathogenesis of MS.

Induction of murine gamma delta T cells cytotoxic for xenogeneic rat cells.

C57BL/6 mice deprived or nondeprived of CD4+ and CD8+ T cells by mAbs were challenged with a rat T cell line, W7TM-1. Spleen cells obtained from CD4- and CD8-depleted animals rejecting W7TM-1 were examined by cytofluorometry, which demonstrated the presence of highly increased gamma delta type CD4-CD8- T cell population (30 to 50% of entire T cells). In vitro sensitization of these spleen cells with W7TM-1 generated a mixture of gamma delta and alpha beta type CD4-CD8- CTL for W7TM-1. Repeated stimulation of these cells with W7TM-1 resulted in a gamma delta-type T cell population with more than 95% purity by day 45. In contrast, alpha beta type CD8+ CTL for W7TM-1 were induced from mice nondeprived of CD4+ and CD8+ T cells. Both gamma delta-type CD4-CD8- CTL and alpha beta type CD8+ CTL were cytotoxic for rat cells in a species-specific manner. However, only reactivity of gamma delta type CD4-CD8- CTL, but not alpha beta type CTL, was inhibited by a mAb for TCR-gamma delta. The gamma delta type CD4-CD8- CTL clones were also prepared from spleen cells derived from CD4- and CD8-depleted mice. They were also reactive for xenogeneic cells in a species-specific manner. Spleen cells derived from CD4- and CD8-depleted mice rejecting the whole-layer rat skin grafts were in vitro sensitized with rat spleen cells, which also generated gamma delta type CD4-CD8- CTL specific for rat cells. V gamma 1 was detected as a major V gamma gene expressed in this gamma delta population by reverse transcriptase-PCR. Cytotoxicity for xenogeneic cells may represent one of major function of gamma delta T cells.

T-Cell Lines Derived from Lesional Skin of Lichen Planus Patients Contain a Distinctive Population of T-Cell Receptor γδ-Bearing Cells

Lichen planus is characterized by a dense infiltrate of T lymphocytes at the dermoepidermal junction. To determine the phenotypic and functional characteristics of the infiltrating lymphocytes, T-cell lines from normal and lesional skin from the same patients with lichen planus were established by culture with interleukin 2 followed by stimulation every 14 d with phytohemagglutinin and irradiated allogeneic feeder cells. Resultant T-cell lines were immunophenotyped by staining with monoclonal antibodies and their reactivity tested by determining their cytolytic activity to selected targets. T-cell lines from 13 lesional and nine normal biopsy specimens were studied. T-cell lines from normal skin were 61% CD4+ and 32% CD8+, whereas lines from lesional skin had significantly fewer CD4+ cells (13%) and more CD8+ cells (62%). T-cell lines from lesional skin contained a distinctive population of gamma delta T cells that was rarely present in lines derived from normal skin. We were able to culture gamma delta T cells out of the lesional skin of 12 of 13 patients. In these 12 patients, lesional T-cell lines were 17% gamma delta+ (range 2% to 47%). Only one T-cell line from normal skin contained significant numbers of gamma delta T cells. The gamma delta population from lesional skin was commonly V delta 1J delta 1+. These results suggest that CD8+ and TCR gamma delta+ T lymphocytes may be involved in the development or the maintenance of lichen planus.

Role of CD4+ T cells in the expansion of the CD4-, CD8- gamma delta T cell subset in the spleens of mice during blood-stage malaria.

The previously observed expansion of the splenic gamma delta T cell subset was examined during the course of murine malaria to determine whether CD4+ T cells are required. Flow cytometric analysis during the course of Plasmodium chabaudi adami malaria in both C57BL/6 and BALB/c mice revealed that the maximal percentage of CD4+ T cells that were blasts occurred during the period of ascending parasitemia, whereas the maximal numbers of gamma delta T cells and blast cells occurred during the period of descending parasitemia. Transfer of enriched populations of CD4+ cells (> 75%) containing < 0.9% gamma delta T cells from immune BALB/c donor to SCID mice led to a population of gamma delta T cells that constituted 37% of the splenic T cells in the recipients and allowed them to resolve their infections. Transfer of the CD4- fraction did not suppress parasitemia. These results suggest that CD4+ T cells are activated early during the infection and are required for the subsequent expansion of the gamma delta T cell population. Furthermore, the maximal gamma delta T cell blast response during the period of descending parasitemia and the detection of high levels of these cells only in models that resolved their infections suggest that these cells may function in the resolution of blood-stage malaria.

Migration patterns of thymus‐derived γδ T cells during chicken development

Cell transfer experiments in congenic chick strains, one of which expresses the ov antigen marker, indicate that intestinal gamma delta T cells are derived from gamma delta+ thymocytes in embryos and newly hatched birds, and this early intestinal colonization occurs in two discrete waves. Here, we extend these studies to show that splenic colonization by gamma delta T cells occurs in essentially the same way. Following the engraftment of ov+ thymic lobes in thymectomized ov- recipients, gamma delta T cells migrate both to the spleen and intestine. By 1 week after hatching, a third generation of thymus-derived gamma delta T cells begins to migrate to both peripheral lymphoid organs, and this thymus-dependent seeding process is sustained over the first weeks of life. The survival time for splenic gamma delta migrants is significantly less than for the intestinal migrants. Tissue section analysis indicates that gamma delta T cells enter the intestinal epithelium at all villus levels. A shift in the gamma delta intraepithelial lymphocyte distribution toward the villus tip in thymectomized birds suggests the comigration of enterocytes and gamma delta intraepithelial lymphocytes. However, survival kinetics of the donor gamma delta population and a relatively high division rate of intestinal gamma delta T cells indicate that founder thymic migrants produce relatively long-lived clones of intestinal gamma delta T cells.