Strategies of immune reconstitution: effects of lymphokines on murine T cell development in vitro and in vivo

Need for more effective treatment to reconstitute T cell immunity in secondary immunodeficiencies like AIDS prompted an exploration into the roles played by leukocyte products on the ontogeny of murine T lymphocytes in vitro and in vivo. It was observed that mixed lymphokines potently stimulate the proliferation of prothymocytes, immature cortical thymocytes, and mature medullary thymocytes. The effect of the natural, mixed lymphokines could be reproduced in the main by the combination of recombinant interleukin I and II. Mixed lymphokines administered in vivo augmented splenic lymphoproliferative responses in athymic nude mice without T cell marker (Thy 1.2) induction and, in neonatal mice, induced both Thy 1.2 and proliferative responses. Recombinant IL-2 at equivalent dose was less active in nude mice and not active in neonatal mice. The evidence indicates that lymphokines, particularly IL-1 and IL-2 in combination, regulate T cell ontogeny and can act in an endocrine fashion to promote T cell development in T cell-free mice having a functional thymus. Mixed lymphokines may be useful for immune reconstitution in AIDS, however, only if given prior to thymic destruction.     

In vivo T cell depletion regulates resistance and morbidity in murine schistosomiasis

These studies assessed the roles of subpopulations of T lymphocytes in inducing and modulating resistance to schistosomiasis and thereby influencing subsequent morbidity. C57BL/6 mice were depleted in vivo of Lyt-1+, Lyt-2+, and L3T4+ cells by the daily administration of monoclonal antibodies. The development of protective immunity, induced by exposure to irradiated Schistosoma mansoni cercariae as expressed in depleted animals, was compared to that demonstrated in undepleted, normal, and congenitally athymic C57BL/6 mice. The development of morbidity was determined by spleen weight, portal pressure and reticuloendothelial system activity. The results indicated that depletion of specific subpopulations of T lymphocytes minimally affected the primary development of parasites; however, depletion strongly influenced the development of resistance to the parasite and subsequent morbidity due to infection. Depletion of T lymphocytes by anti-Lyt-1+ or anti-L3T4+ antibody decreased the development of resistance, antibody and delayed-type hypersensitivity directed against schistosome antigens. Morbidity due to disease was increased. Depletion of Lyt-2+ cells produced opposite changes with augmented resistance and reduced morbidity. Congenitally athymic mice developed minimal resistance and morbidity. Moreover, resistance was inversely related to the morbidity shown by a given animal. These studies indicate that the development of protective immunity to S. mansoni cercariae is regulated by discrete subpopulations of T lymphocytes. The feasibility of decreasing morbidity by increasing specific immunologically mediated resistance is suggested.     

Role of pulmonary microvascular endothelial cell apoptosis in murine sepsis-induced lung injury in vivo

Background

Sepsis remains a common and serious condition with significant morbidity and mortality due to multiple organ dysfunction, especially acute lung injury (ALI) and acute respiratory distress syndrome (ARDS). Sepsis-induced ALI is characterized by injury and dysfunction of the pulmonary microvasculature and pulmonary microvascular endothelial cells (PMVEC), resulting in enhanced pulmonary microvascular sequestration and pulmonary infiltration of polymorphonuclear leukocytes (PMN) as well as disruption of the normal alveolo-capillary permeability barrier with leak of albumin-rich edema fluid into pulmonary interstitium and alveoli. The role of PMVEC death and specifically apoptosis in septic pulmonary microvascular dysfunction in vivo has not been established.

Methods

In a murine cecal ligation/perforation (CLP) model of sepsis, we quantified and correlated time-dependent changes in pulmonary microvascular Evans blue (EB)-labeled albumin permeability with (1) PMVEC death (propidium iodide [PI]-staining) by both fluorescent intravital videomicroscopy (IVVM) and histology, and (2) PMVEC apoptosis using histologic fluorescent microscopic assessment of a panel of 3 markers: cell surface phosphatidylserine (detected by Annexin V binding), caspase activation (detected by FLIVO labeling), and DNA fragmentation (TUNEL labeling).

Results

Compared to sham mice, CLP-sepsis resulted in pulmonary microvascular barrier dysfunction, quantified by increased EB-albumin leak, and PMVEC death (PI+ staining) as early as 2 h and more marked by 4 h after CLP. Septic PMVEC also exhibited increased presence of all 3 markers of apoptosis (Annexin V+, FLIVO+, TUNEL+) as early as 30 mins – 1 h after CLP-sepsis, which all similarly increased markedly until 4 h. The time-dependent changes in septic pulmonary microvascular albumin-permeability barrier dysfunction were highly correlated with PMVEC death (PI+; r = 0.976, p < 0.01) and PMVEC apoptosis (FLIVO+; r = 0.991, p < 0.01). Treatment with the pan-caspase inhibitor Q-VD prior to CLP reduced PMVEC death/apoptosis and attenuated septic pulmonary microvascular dysfunction, including both albumin-permeability barrier dysfunction and pulmonary microvascular PMN sequestration (p < 0.05). Septic PMVEC apoptosis and pulmonary microvascular dysfunction were also abrogated following CLP-sepsis in mice deficient in iNOS (Nos2^−/−) or NADPH oxidase (p47^phox−/− or gp91^phox−/−) and in wild-type mice treated with the NADPH oxidase inhibitor, apocynin.

Conclusions

Septic murine pulmonary microvascular dysfunction in vivo is due to PMVEC death, which is mediated through caspase-dependent apoptosis and iNOS/NADPH-oxidase dependent signaling.     

Characterization of TCR gene rearrangements during adult murine T cell development

Development of the alphabeta and gammadelta T cell lineages is dependent upon the rearrangement and expression of the TCRalpha and beta or gamma and delta genes, respectively. Although the timing and sequence of rearrangements of the TCRalpha and TCRbeta loci in adult murine thymic precursors has been characterized, no similar information is available for the TCRgamma and TCRdelta loci. In this report, we show that approximately half of the total TCRdelta alleles initiate rearrangements at the CD44highCD25+ stage, whereas the TCRbeta locus is mainly in germline configuration. In the subsequent CD44lowCD25+ stage, most TCRdelta alleles are fully recombined, whereas TCRbeta rearrangements are only complete on 10-30% of alleles. These results indicate that rearrangement at the TCRdelta locus can precede that of TCRbeta locus recombination by one developmental stage. In addition, we find a bias toward productive rearrangements of both TCRdelta and TCRgamma genes among CD44highCD25+ thymocytes, suggesting that functional gammadelta TCR complexes can be formed before the rearrangement of TCRbeta. These data support a model of lineage commitment in which sequential TCR gene rearrangements may influence alphabeta/gammadelta lineage decisions. Further, because TCR gene rearrangements are generally limited to T lineage cells, these analyses provide molecular evidence that irreversible commitment to the T lineage can occur as early as the CD44highCD25+ stage of development.     

Growth hormone promoted tyrosyl phosphorylation of growth hormone receptors in murine 3T3-F442A fibroblasts and adipocytes

Because many growth factor receptors are ligand-activated tyrosine protein kinases, the possibility that growth hormone (GH), a hormone implicated in human growth, promotes tyrosyl phosphorylation of its receptor was investigated. 125I-Labeled human GH was covalently cross-linked to receptors in intact 3T3-F442A fibroblasts, a cell line which differentiates into adipocytes in response to GH. The cross-linked cells were solubilized and passed over a column of phosphotyrosyl binding antibody immobilized on protein A-Sepharose. Immunoadsorbed proteins were eluted with a hapten (p-nitrophenyl phosphate) and analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and autoradiography. The eluate from the antibody column contained an Mr 134,000 125I-GH-receptor complex. A similar result was obtained when the adipocyte form of 3T3-F442A cells was used in place of the fibroblast form. O-Phosphotyrosine prevented 125I-GH-receptor complexes from binding to the antibody column, whereas O-phosphoserine and O-phosphothreonine did not. In studies of GH-promoted phosphorylation in 3T3-F442A fibroblasts labeled metabolically with [32P]Pi, GH was shown to stimulate formation of a 32P-labeled protein which bound to immobilized phosphotyrosyl binding antibodies. The molecular weight of 114,000 obtained for this protein is similar to that expected for non-cross-linked GH receptor. The Mr 114,000 phosphorylated protein could be immunoprecipitated with anti-GH antibody, indicating that GH remained noncovalently bound to this protein during absorption to and elution from the immobilized phosphotyrosyl binding antibody. Phosphoamino acid analysis after both limited acid hydrolysis and extensive base hydrolysis of the Mr 114,000 phosphoprotein confirmed the presence of phosphotyrosyl residues.(ABSTRACT TRUNCATED AT 250 WORDS)     

Superinduction of the murine B cell Fc epsilon RII by T helper cell clones. Role of IL-4

Th cell clones are known to induce an IL-4 dependent polyclonal IgE synthesis. Because IL-4 can induce the expression of the low affinity FcR for IgE (Fc epsilon RII) the ability of Th cell clones to induce Fc epsilon RII on purified splenic B cells was analyzed. It was found that a TH2 clone could cause a 50- to 100-fold superinduction of Fc epsilon RII after 2 days in culture; after 3 days, the Fc epsilon RII levels had almost returned to base line. The superinduction was inhibited by an anti-IL-4 antibody, 11B11, indicating its dependence on IL-4. A TH1 clone could cause a modest (four fold) induction of Fc epsilon RII, and this induction was not influenced by 11B11. A similar Fc epsilon RII induction was seen when using the supernatant from activated TH1 cells. The component(s) causing this relatively low level Fc epsilon RII induction is not known; a variety of known lymphokines were tested, and only IL-4 demonstrated any capacity for Fc epsilon RII induction on LPS-activated B cells. Addition of rIL-4 at concentrations of 400 U/ml or greater to the TH1 culture was sufficient to cause a Fc epsilon RII superinduction similar to that seen with the TH2 clone, while 40 U/ml was not. In order to determine a potential role for the Fc epsilon RII or its soluble fragment on the IgE synthesis mediated by TH2, a monoclonal anti-Fc epsilon RII, B3B4, was added to the culture. The addition of B3B4 did not have an influence on IgE levels in this system.     

Short-term effects of thyroid hormone in prenatal development and cell differentiation

Extranuclear or nongenomic effects of thyroid hormones do not require interaction with the nuclear receptor, but are probably mediated by specific membrane receptors. This review will focus on the extranuclear effects of thyroid hormones on plasma membrane transport systems in non mammalian cells: chick embryo hepatocytes at two different stages of development, 14 and 19 days. At variance with mammals, the chick embryo develops in a closed compartment, beyond the influence of maternal endocrine factors. Thyroid hormones inhibit the Na+/K+-ATPase but stimulate the Na+/H+ exchanger and amino acid transport System A with different dose-responses: a bell-shaped curve in the case of the exchanger and a classic saturation curve in the case of System A. These effects are mimicked by the analog 3,5-diiodothyronine. Signal transduction is mediated by interplay among kinases, mainly protein kinase C and the MAPK pathway, initially primed by second messengers such as Ca2+, IP3, and DAG as in mammalian cells. Thyroid hormones and 3,5-diiodothyronine stimulate thymidine incorporation and DNA synthesis, associated with the increased levels and activity of cyclins and cyclin-dependent kinases involved in the G1/S transition, and also these effects have their starting point at the plasma membrane. Increasing evidence now demonstrates that thyroid hormones act as growth factors for chick embryo hepatocytes and their extranuclear effects are important for prenatal development and differentiation.     

Bromelain exerts anti-inflammatory effects in an ovalbumin-induced murine model of allergic airway disease

OBJECTIVE: Bromelain, a clinically used pineapple extract and natural product, has reported anti-inflammatory and immunomodulatory activities. The purpose of this study was to determine the effect of bromelain treatment in an ovalbumin (OVA)-induced murine model of allergic airway disease (AAD). METHODS: To establish AAD, mice were sensitized with intraperitoneal (i.p.) OVA/alum and challenged with daily OVA aerosols. Mice were treated i.p. with either saline, 2 or 6 mg/kg bromelain, twice daily for four consecutive days. Bronchoalveolar lavage leukocytes and cytokines, lung histology, airway hyperresponsiveness, and lymphocyte populations via flow cytometry were compared between groups. RESULTS: Bromelain treatment of AAD mice resulted in reduced total BAL leukocytes, eosinophils, CD4+ and CD8+ T lymphocytes, CD4+/CD8+ T cell ratio, and IL-13. CONCLUSION: Bromelain attenuated development of AAD while altering CD4+ to CD8+ T lymphocyte populations. The reduction in AAD outcomes suggests that bromelain may have similar effects in the treatment of human asthma and hypersensitivity disorders.     

Role of endogenous peptides in murine allogenic cytotoxic T cell responses assessed using transfectants of the antigen-processing mutant 174xCEM.T2.

One model to explain the high frequency of alloreactive T cells proposes that allogeneic MHC molecules are recognized together with host cell-derived peptides. A model system was developed to investigate the relevance of this mechanism by expression of H-2Dd or H-2Ld in 174xCEM.T2 (T2) cells. This human cell line contains a mutation in its Ag-processing pathway that should restrict the association of endogenous peptides with cell surface class I molecules. CTL generated by stimulating C57BL/6 (H-2b) responder cells with H-2Dd or H-2Ld transfectants of the human B cell line C1R or the murine T cell lymphoma EL4 were assayed for their ability to recognize alloantigenic determinants on these transfectants. The major fraction of the H-2Dd-specific allogeneic CTL response, generated in a MLC or under clonal limiting dilution conditions, was composed of T cells that recognized H-2Dd expressed on C1R or EL4 cells, but failed to recognize this molecule on T2 cells. Clonal analysis indicated that approximately one-third of these CTL recognized determinants that were unique to H-2Dd expressed on C1R stimulator cells whereas the remainder recognized determinants that were also found on EL4 transfectants. Less than 10% of H-2Dd-reactive CTL recognized the T2 transfectant, and these clones also killed C1R-Dd and EL4-Dd. This result suggests that the great majority of H-2Dd-specific alloreactive CTL recognize determinants that are formed by a complex of H-2Dd with endogenous peptides that are absent or significantly reduced in T2 cells. Based on recognition of human or murine transfectants, these CTL exhibit some level of specificity for the structure or composition of the bound peptides. Examination of allogeneic CTL specific for H-2Ld revealed populations similar to those described for H-2Dd. In addition, a major new population was present that recognized determinants shared between C1R-Ld and T2-Ld but not present on EL4-Ld. These results are consistent with the idea that the alloreactive response to H-2Ld is also largely dependent on the presence of bound peptide. However, they also may indicate that the H-2Ld molecule expressed on T2 cells is occupied by one or more peptides that are shared with other human, but not murine, cells. The significance of these results to current models of alloreactivity is discussed.     

Immunologic and hematologic effects of neuroendocrine hormones. Studies on DW/J dwarf mice.

DW/J dwarf mice lack acidophilic anterior pituitary cells and are deficient in growth hormone and other neuroendocrine mediators. These mice were examined to determine the effects of these deficiencies on hematopoietic and immune system development. Previous studies have suggested that these mice had immunologic defects primarily involving T cell development. However, we have found that these mice exhibit decreased peripheral blood cell counts affecting all lineages (erythrocytic, leukocytic, and platelets). Examination of lymphoid tissues of dwarf mice indicated that their spleens were hypoplastic. Treatment of these mice with recombinant human growth hormone resulted in a significant improvement of peripheral blood counts and spleen cell number. Analysis of the bone marrow indicated a profound deficiency of B cell progenitors in the dwarf mice. However, in untreated dwarf mice, mature B cells and T cells were observed in the spleens. Although treatment with recombinant human growth hormone could correct the hematopoietic deficiencies in these mice, it did not restore the B cell progenitor populations, suggesting that an absence of growth hormone is not solely responsible for this deficiency. Thus, these mice display significant myeloid and lymphoid deficiencies that have been previously undetected.     

Incapacitation of fibrosarcoma cell by polyclonally activated murine T cell.

A piece of lymph node containing polyclonally-activated lymphocytes when transplanted in the anterior eye chamber of mouse along with solid piece of fibrosarcoma from syngeneic Swiss mice, dramatically inhibited the tumour-induced-vasodilatation and neo-vascularization. If the tumour explants were incubated in vitro with activated lymphocytes prior to transplantation, such angiogenic reactions was significantly reduced. These explants were incapable of incorporating radioactive thymidine in vitro. Furthermore, the cytotoxic ability of activated lymphocytes towards 51Cr labelled tumour target cells was of significant level indicating the possible mechanism of immunological reactiveness of Con A-stimulated lymphocytes to 3'-methylcholanthrene-induced tumour cells of syngeneic origin.     

Functional differentiation of T cell precursors. I. Parameters of carrier-specific tolerance in murine helper T cell precursors.

Irradiated mice reconstituted with bone marrow from sheep gamma-globulin- (SGG) tolerant syngeneic donors display reduced IgG responsiveness to challenge with trinitrophenylated (TNP)-SGG compared with recipients of normal marrow. This effect is SGG-specific and is due neither to suppressor T cells nor to antigen carryover. "Helper T cell precursor tolerance" can be induced with as little as 40 micrograms tolerogen (SGG). Unlike mature helper T cells, these precursors show both a rapid induction and rapid waning patterns, suggesting a high rate of turnover. Our results imply that marrow helper T cell precursors bear antigen-specific receptors and that the T cell repertoire must be at least partially generated before residence in the thymus.     

Cyclosporin A and FK506 mediate differential effects on T cell activation in vivo.

Modified limiting dilution analysis techniques were used to evaluate the effects of the immunosuppressants cyclosporin A (CsA) and FK506 on alloantigen-induced T cell activation in vivo. Treatment of sponge matrix allograft recipients with either CsA or FK506 inhibited lymphocytic infiltration of the allograft, a process thought to be dependent on local lymphokine production. In addition, both immunosuppressants markedly reduced the absolute number of lymphocytes recovered from the draining lymph nodes (LN) and prevented CTL activation in the LN. However, Ag-primed helper T lymphocytes (HTL) were present in the draining LN of sponge allograft recipients treated with CsA, but not in recipients treated with FK506. T cell depletion experiments were performed to determine the phenotype of primed HTL in the LN of untreated and CsA-treated sponge allograft recipients. In untreated sponge allograft recipients, CD4+ and CD8+ Ag-primed HTL were present in the draining LN in equivalent numbers. In contrast, the majority of primed HTL in the LN of CsA-treated sponge allograft recipients were CD8+, rather than CD4+ T cells. These observations indicate that CsA and FK506 exert distinct in vivo effects at the level of HTL priming, and CD4+ and CD8+ HTL exhibit differential sensitivity to CsA in vivo.     

Ox40 costimulation enhances the development of T cell responses induced by dendritic cells in vivo.

Dendritic cells (DCs) are bone marrow-derived APCs that display unique properties aimed at stimulating naive T cells. Several members of the TNF/TNFR families have been implicated in T cell functions. In this study, we examined the role that Ox40 costimulation might play on the ability of DCs to regulate CD4(+) and CD8(+) T cell responses in vivo. Administration of anti-mouse Ox40 mAb enhanced the Th response induced by immunization with Ag-pulsed DCs, and introduced a bias toward a Th1 immune response. However, anti-Ox40 treatment enhanced the production of Th2 cytokines in IFN-gamma(-/-) mice after immunization with Ag-pulsed DCs, suggesting that the production of IFN-gamma during the immune response could interfere with the development of Th2 lymphocytes induced by DCs. Coadministration of anti-Ox40 with DCs during Ag rechallenge enhanced both Th1 and Th2 responses induced during a primary immunization with DCs, and did not reverse an existing Th2 response. This suggests that Ox40 costimulation amplifies an ongoing immune response, regardless of Th differentiation potential. In an OVA-TCR class II-restricted adoptive transfer system, anti-Ox40 treatment greatly enhanced the level of cytokine secretion per Ag-specific CD4(+) T cell induced by immunization with DCs. In an OVA-TCR class I-restricted adoptive transfer system, administration of anti-Ox40 strongly enhanced expansion, IFN-gamma secretion, and cytotoxic activity of Ag-specific CD8(+) T cells induced by immunization with DCs. Thus, by enhancing immune responses induced by DCs in vivo, the Ox40 pathway might be a target for immune intervention in therapeutic settings that use DCs as Ag-delivery vehicles.     

Neurohypophyseal hormones and behavior: effects of intracerebroventricularly injected hormone analogs in mice.

Neurohypophyseal hormones evoke spontaneous behavioral changes in mice. This study compares the potency of four naturally occuring neurohypophyseal hormones and of ten analogs with amino acid residue replacements selected in such a manner as to cover each residue position of the hormones with the exception of the cystine residue. Peptides were administered intraventricularly and the sum of foraging, scratching and squeaking, recorded at 30 second intervals during a 30 min session, was measured as a function of peptide dose. The most potent group of peptides is represented by the neurohypophyseal hormones as well as the five analogs [Hly⁸] vasopressin, [Δ³-Pro⁷]AVP, [Thi³]LVP, [Abu⁴]AVP and [Abu⁴]LVP. [Leu⁴]LVP showed significant activity but was far less potent than the natural hormones. None of the remaining analogs enhanced activity with an increase in peptide dose. This group included both peptides with C-terminal modifications and those in which the tyrosine (position 2) or the asparagine residue (position 5) of the hormones were substituted by alanine. The neurohypophyseal hormone-induced behavioral results of this study reveal a structure-function relationship, which is in its most important conclusions, identical to the conformation-activity model proposed for endocrine activities of neurohypophyseal peptides.     

Role of the intracellular domain of IL-7 receptor in T cell development

Signals from the IL-7R are uniquely required for T cell development and maintenance, despite the resemblance of IL-7R to other cytokine receptors and the apparent sharing of common signaling pathways. This unique requirement could either reflect unique expression of IL-7R or IL-7, or it could indicate that the IL-7R delivers unique signals. To determine whether the IL-7R provided unique signals, we exchanged its intracellular domain with that of other cytokine receptors: IL-4R, IL-9R, and prolactin receptor (PRLR). Chimeric receptors were used to reconstitute development of IL-7R(-/-) hemopoietic progenitors by transducing the receptors in retroviral vectors. Whereas IL-7R(-/-) thymocytes are arrested at the double-negative stage, IL-4R, IL-9R, or PRLR all imparted some progression to the double-positive stage. IL-4R and PRLR gave only small numbers of thymocytes, whereas IL-9R gave robust alphabeta T cell development and reconstitution of peripheral CD4 and CD8 cells, indicating that it can duplicate many of the functions of IL-7R. However, IL-9R failed to reconstitute rearrangement of the TCRgamma locus or development of gammadelta T cells. Thus, the IL-7R signals required in the alphabeta T cell lineage (such as survival and proliferation) are not unique to this receptor, whereas rearrangement of the TCRgamma locus may require a signal that is not shared by other receptors.     

Role of gonadal hormones in development of the sexual phenotypes

Summary Male and female embryos develop in an identical fashion during the initial portion of gestation. If the indifferent gonad differentiates into an ovary (or if no gonad is present), a female phenotype is formed. Male phenotypic differentiation, however, requires the presence of an endocrinologically active testis. Two secretion of the fetal testis, Müllerian inhibiting substance and testosterone, are responsible for male development. Studies of single gene mutations that interfere with androgen action indicate that testosterone itself is responsible for virilization of the Wolffian duct system into the epididymis, vas deferens, and seminal vesicle, whereas the testosterone metabolite dihydrotestosterone induces development of the prostate and male external genitalia. Thus, impairment of dihydrotestosterone formation results in a characteristic phenotype consisting of predominantly female external genitalia but normally virilized Wolffian ducts. The molecular mechanisms by which testosterone and dihydrotestosterone act during fetal development appear to involve the same high affinity receptor, a protein that transports both testosterone and dihydrotestosterone to the nucleus of target cells. When this receptor is either absent, deficient, or structurally abnormal, the actions of both testosterone and dihydrotestosterone are impaired, and the resulting developmental anomalies involve both internal and external genital structures.The original work described in this review was supported by grant AM 03892 from the National Institutes of Health