Liquid chromatography-mass spectrometry with on-line solid-phase extraction by a restricted-access C18 precolumn for direct plasma and urine injection.

In this paper, the on-line coupling of solid-phase extraction, based on a restricted-access support with liquid chromatography-mass spectrometry (LC-MS), for the analysis of biological samples is described. The system was tested with cortisol and prednisolone for plasma analysis and arachidonic acid for urine analysis. A precolumn packed with a 25-micron C18 alkyl-diol support is used for direct plasma or urine injection. Using column-switching techniques, the analytes enriched on the precolumn are eluted to the analytical column without transfer loss. An on-line heart-cut technique was employed and only the analyte-containing fraction eluting from the LC column is directed to the MS to protect the LC-MS interface and ion-source from contamination. The whole system is operated in a parallel mode, that is, sample pre-treatment and LC-MS analysis are performed simultaneously to provide the shortest possible analysis time. The only off-line sample pre-treatment step required was centrifugation to remove particulate matter. With the fully automated system, total analysis times of 5 and 9.5 min were achieved for cortisol in serum and arachidonic acid in urine, respectively. Cortisol and related compounds were quantitatively recovered from plasma with a detection limit for prednisolone (direct injection of 100 microliters on restricted-access precolumn) of 2 ng/ml.

Cytotoxic reactivity of gut lamina propria CD4+ alpha beta T cells in SCID mice with colitis.

Polyclonal, mucosa-seeking memory/effector CD4+ T cells containing a large fraction of blasts activated in situ accumulate in the gut lamina propria of severe-combined immunodeficient (SCID) mice developing colitis after CD4+ T cell transplantation. CD4+ T cells isolated from different repopulated lymphoid tissues of transplanted SCID mice proliferate in vitro in the presence of interleukin (IL)-2 + IL-7. CD3 ligation enhances this cytokine-supported proliferation in CD4+ T cells from the spleen and the mesenteric lymph node of transplanted SCID mice; CD3 ligation suppresses the cytokine-supported proliferation in CD4+ T cells from the gut lamina propria in a cell density- and dose-dependent manner. Almost all CD4+ T cells from repopulated lymphoid tissues of transplanted SCID mice express CD95 (Fas) on the cell surface, and a large fraction of CD4+ T cells from the gut lamina propria of transplanted SCID mice express the Fas ligand on the surface. Gut lamina propria CD4+ T cells show Fas-dependent cytotoxicity. A large fraction of gut lamina propria CD4+ T cells that infiltrate the inflamed colon in transplanted SCID mice are activated in situ and many CD4+ T cells are apoptotic. Hence, a large fraction of colitis-inducing CD4+ T cells undergo activation-induced cell death in situ and can damage other cells through Fas-dependent cytotoxicity.

A model of genital Chlamydia trachomatis infection using human xenografts in severe combined immunodeficiency mice.

We developed a new model of human genital Chlamydia trachomatis infection in order to characterize the pathogen-host relationship in a clinically relevant system using a human strain of C. trachomatis instead of the commonly employed mouse biovar (MoPn). Human endometrial tissue was xenografted into the skin of mice homozygous for the mutation severe combined immunodeficiency and inoculated with C. trachomatis serovar K. C. trachomatis efficiently infected the endometrium as shown by cell culture and immunofluorescence microscopy and persisted for more than 6 weeks. Chlamydial inclusions detected by direct immunofluorescence and electron microscopy appeared to be smaller than those produced by in vitro cell culture-grown chlamydiae. A pattern of localized mild infection prevailed, and infiltrative uncontrolled spread of chlamydiae was observed in only 1 of 10 infected grafts. This might correspond to the well-known tendency of the agent to cause asymptomatic infections. This model allows the study of a human genital infection resembling the clinical situation and offers the possibility to better characterize the host-parasite relationship with respect to pathogenicity and therapy.

CD4+ T lymphocytes injected into severe combined immunodeficient (SCID) mice lead to an inflammatory and lethal bowel disease.

Transfer of 2 x 10(5) congenic or semiallogenic purified TCR alphabeta+ CD4+ T cells to SCID mice leads to an infiltration of the recipient gut lamina propria and epithelium with a donor-derived CD4+ T cell subset which induces a lethal inflammatory bowel disease (IBD) in the recipients. In contrast, IBD was not observed in SCID mice transplanted with unfractionated splenic cells. The earliest detectable pathological changes after CD4+ T cell transfer were proliferation and hypertrophy of the entire colonic epithelial layer, including increased mitotic activity, increased expression of epithelial nuclear proliferation antigen, and elongation of the crypts. Later on, massive mononuclear cell infiltration, hypertrophy of all layers of the colon and occasional epithelial ulcerations were observed. At this stage, accumulations of IgA, IgM and small numbers of IgG1-, IgG2- and IgG3-secreting plasma cells were present in the lamina propria of both the small and large intestine. We conclude that low numbers of intraveneously transferred CD4+ T cells induce IBD in SCID mice. In the late stages of CD4+ T cell-induced IBD, the colonic lamina propria becomes infiltrated with macrophages, neutrophils and plasma cells secreting IgA, IgM, and to a lesser degree IgG antibodies which might play an accessory role in the pathogenesis of IBD.

Polyclonal expansion of adoptively transferred CD4+ alpha beta T cells in the colonic lamina propria of scid mice with colitis.

The adoptive transfer of low numbers of peripheral, non-fractionated CD4+ alpha beta T cells into histocompatible, severely immunodeficient (scid) hosts induces a colitis. This disease developed in C.B-17 scid/scid hosts after the injection of 10(5) CD4+ T cells purified from different peripheral lymphoid organs of immunocompetent C.B.-17 +/+ or BALB/cdm2 donor mice. Irrespective of their tissue origin, transferred CD4+ T cells selectively repopulated the scid host with gut-seeking CD4+ T cells. A chronic inflammatory bowel disease (IBD) developed as polyclonal populations of mucosa-seeking memory/effector CD4+ T cells accumulated in the gut lamina propria and epithelial layer of the adoptive host. The manifestation of colitis in the scid host correlated with the in situ polyclonal activation and expansion of adoptively transferred CD4+ T cells in the colonic lamina propria. Attempts were unsuccessful to select in vivo an oligoclonal CD4+ T cell population with an enhanced IBD-inducing potential by repeatedly reinjecting 10(5) donor-type CD4+ T cells from the colonic lamina propria of transplanted scid mice with an early and severe IBD into new scid hosts. The data indicate that the preferential repopulation of gut-associated lymphoid tissues with immunocompetent CD4+ T cells, and their polyclonal activation and in situ expansion in the lamina propria of the histocompatible, immunodeficient host are critical events in the pathogenesis of an IBD in this model.

Co-expression of CD8 alpha in CD4+ T cell receptor alpha beta + T cells migrating into the murine small intestine epithelial layer.

We investigated the surface phenotype of CD3+CD4+ T cell receptor (TCR) alpha beta + T cells repopulating the intestinal lymphoid tissues of C.B-17 scid/scid (severe-combined immunodeficient; scid) (H-2d, Ld+) mice. CD4+ CD8- T cells were cell sorter-purified from various secondary and tertiary lymphoid organs of congenic C.B-17 +/+ (H-2d, Ld+) or semi-syngeneic dm2 (H-2d, Ld-) immunocompetent donor mice. After transfer of 10(5) cells into young scid mice, a mucosa-homing, memory CD44hi CD45RBlo CD4+ T cell population was selectively engrafted. Large numbers of single-positive (SP) CD3+ CD2+ CD28+ CD4+ CD8- T cells that expressed the alpha 4 integrin chain CD49d were found in the spleen, the mesenteric lymph nodes, the peritoneal cavity and the gut lamina propria of transplanted scid mice. Unexpectedly, large populations of donor-type double-positive (DP) CD4+ CD8 alpha + CD8 beta - T cells with high expression of the CD3/TCR complex appeared in the epithelial layer of the small intestine of transplanted scid mice. In contrast to SP CD4+ T cells, the intraepithelial DP T cells showed low expression of the CD2 and the CD28 co-stimulator molecules, and of the alpha 4 integrin chain CD49d, but expressed high levels of the alpha IEL integrin chain CD103. The TCR-V beta repertoire of DP but not SP intraepithelial CD4+ T cells was biased towards usage of the V beta 6 and V beta 8 viable domains. Highly purified populations of SP and DP CD4+ T cell populations from the small intestine epithelial layer of transplanted scid mice had different abilities to repopulate secondary scid recipient mice: SP CD4+ T cells repopulated various lymphoid tissues of the immunodeficient host, while intraepithelial DP CD4+ T cells did not. Hence, a subset of CD3+ CD4+ TCR alpha beta + T cells apparently undergoes striking phenotypic changes when it enters the microenvironment of the small intestine epithelial layer.

A gut-homing, oligoclonal CD4+ T cell population in severe-combined immunodeficient mice expressing a rearranged, transgenic class I-restricted alpha beta T cell receptor.

We studied the peripheral T cell compartment of H-2b severe combined immunodeficient (scid) mice that express a transgenic (tg) alpha beta T cell receptor (TcR) specific for the H-Y (male) epitope presented by the H-2 class I Db molecule. Large populations of CD3+ NK1.1-TCR beta T+ T cells were present in spleen, mesenteric lymph nodes, peritoneal cavity, lamina propria and epithelial layer of the small and large intestine of 6- to 10-month-old, male and female tg scid mice. Only low numbers of CD3+ T cells were recovered from inguinal, popliteal, or axillary lymph nodes. We studied CD4+ T cells in these tg scid mice. CD4+ T cells were found in the peritoneal cavity, in the mesenteric lymph nodes and in the intraepithelial layer and lamina propria of the gut. All CD4+ T cells were CD44+ (i.e. showed evidence of antigen-driven differentiation) and expressed the tg V beta 8.2 TcR beta-chain (TcR beta T+). Only few CD4+ T cells expressed the tg V alpha 3+ TcR alpha-chain (TcR alpha T). cDNA was prepared from CD4+ T cells from spleen or mesenteric lymph nodes of individual male and female tg scid mice; sequence analyses of polymerase chain reaction-amplified, endogenous TcR alpha-chain (TcR alpha E) transcripts indicated that > 90% of the TcR alpha E-chain transcripts were in-frame, that the TcR alpha E repertoire in CD4+ T cell populations was oligoclonal, and that the TcR alpha E repertoire was different in individual tg scid mice. Hence, an oligoclonal, leaky CD4+ T cell population is selected in tg scid mice that apparently responds to gut-derived antigens. No inflammatory bowel disease (IBD) was evident in the small or large intestine of 6- to 10-month old tg scid mice. After adoptive transfer of purified CD4+ T cells (10(5) cells per mouse) from tg scid mice into non-tg H-2b scid mice, CD4+ TcR alpha T-beta T+ cells were found in gut tissues of the immunodeficient host. Transplanted scid mice developed clinical and histological signs of IBD. An oligoclonal, gut-homing, memory/effector CD4+ CD44+ TcR beta T+ TcR alpha T-T cell subset from leaky tg scid mice thus has a pathogenic potential when released from the control of TcR beta T+ TcR alpha T+ T cells.

Evaluation and routine application of the novel restricted-access precolumn packing material Alkyl-Diol Silica: coupled-column high-performance liquid chromatographic analysis of the photoreactive drug 8-methoxypsoralen in plasma.

A fully automated coupled-column HPLC method for on-line sample processing and determination of the photoreactive drug 8-methoxypsoralen (8-MOP) in plasma has been developed. The method is based on the novel internal-surface reversed-phase precolumn packing materials Alkyl-Diol Silica (ADS). This new family of restricted-access materials has a hydrophilic, electroneutral outer particle surface and a hydrophobic internal pore surface. The supports tolerate the direct and repetitive injection of proteinaceous fluids such as plasma and allow a classical C18-, C8- or C4-reversed-phase partitioning at the internal (pore) surface. The total protein load, i.e. the lifetime of the precolumn used in this study (C8-Alkyl-Diol Silica, 25 microns, 25 x 4 mm I.D.), exceeds more than 100 ml of plasma. 8-MOP was detected by its native fluorescence (excitation 312 nm, emission 540 nm). Validation of the method revealed a quantitative and matrix-independent recovery (99.5-101.3% measured at five concentrations between 21.3 and 625.2 ng of 8-MOP per milliliter of plasma), linearity over a wide range of 8-MOP concentrations (1.2-3070 ng of 8-MOP/ml, r = 0.999), low limits of detection (0.39 ng of 8-MOP/ml) and quantitation (0.79 ng of 8-MOP/ml) and a high between-run (C.V. 1.47%, n = 10) and within-run (C.V. 1.33%, n = 10) reproducibility. This paper introduces coupled-column HPLC as a suitable method for on-site analysis of drug plasma profiles (bedside-monitoring).

Coupled-column liquid chromatographic analysis of epirubicin and metabolites in biological material and its application to optimization of liver cancer therapy.

A specific, sensitive and fully automated coupled-column LC method for the determination of the anthracycline cytostatic epirubicin and four metabolites in the biological materials human plasma, liver homogenate and liver tumour homogenate has been developed. System-integrated sample processing was achieved using a new restricted access silica precolumn packing. This porous Alkyl-Diol Silica (ADS) was specially designed for the direct and repetitive injection of proteinaceous samples. It consists of a hydrophilic and electroneutral external particle surface (glyceryl-residues) and a hydrophobic reversed-phase internal surface (butyryl-, octanoyl- or octadecyl-residues). These bimodal chromatographic properties allow retention of low molecular analytes by classical RP-chromatography exclusively at the lipophilic pore surface. Macromolecular constituents of the sample matrix (e.g. proteins) are size-excluded by 5 nm pores and quantitatively eliminated in the interstitial void volume. On-line analysis was performed by coupling a C4-Alkyl-Diol precolumn (20 x 4 mm i.d., particle size 25 microns) and LiChrospher RP Select B analytical column (250 x 4 mm i.d., particle size 5 microns) via an electrically driven six-port valve. Separation of the parent compound and its metabolites was achieved with a mobile phase consisting of water (0.1% triethylamine, v/v, pH 2.0 adjusted with trichloroacetic acid)-acetonitrile (70:30, v/v) at a flow rate of 1 ml min-1. The analytes were detected using their natural fluorescence (excitation 445 nm, emission 560 nm). The method described is used for the determination of pharmacokinetics of epirubicin and its metabolites in order to evaluate and optimize treatment regimen of liver cancer chemoembolization therapy.

Regional specialization of intraepithelial T cells in the murine small and large intestine.

We investigated intraepithelial T cells from the small intestine, SI (jejunum, ileum) and the large intestine, LI (colon) of euthymic (BALB/c, H-2d; C.B-17+/+, H-2d; C57BL/6, H-2b) and athymic (C57BL/6 nu/nu; BNX bg/bg nu/nu xid/xid) mice. From individual euthymic and athymic mice, 7 x 10(6) intraepithelial lymphocytes (IEL) per mouse were isolated from the SI. Ten-fold lower numbers of IEL were obtained from the LI epithelium (4 x 10(5) IEL per mouse). Thymus-dependent and -independent T cells represented > 80% of SI-IEL but the fraction of T cells was reduced from 20% to 40% in LI-IEL. In euthymic mice, alpha beta T cells predominated in SI-IEL and in particular in LI-IEL populations, while SI-IEL and LI-IEL populations of athymic mice contained predominantly gamma delta T cells. The intraepithelial T cell subset distribution was different in SI versus LI: mainly CD8+ T cells were present in the SI, but a large CD4+ T cell subset was present in the LI. 'Double positive' CD4+ CD8 alpha+ T cells were present mainly in the SI epithelium but were rare in the LI epithelium. In euthymic as well as athymic mice, T cells expressing the homodimeric CD8 alpha alpha isoform predominated in the SI epithelium, while T cells expressing the heterodimeric CD8 alpha beta isoform predominated in the LI epithelium. LI-derived TCR alpha beta+ IEL displayed the CD2+ CD28+ LPAM-1/2- M290+ phenotype, and a fraction of them expressed the L-selectin LECAM-1. In contrast, a large fraction of TCR alpha beta+ SI-IEL was CD2- CD28- LPAM-1/2- M290+ and LECAM-1-. RAG-1/2 expression was detectable by RT-PCR in IEL from the SI but not the LI. Striking differences in phenotype were thus apparent between thymus-dependent and thymus-independent T cells in the epithelial layer of the jejunum/ileum and the colon of the mouse.

Stable engraftment of human female genital mucous membrane xenografts on SCID mice.

We developed a model in which full-thickness human genital mucous membranes (fallopian tubes, endometrium) were heterotopically xenografted into the skin of severe combined immunodeficient (SCID) mice. The transplanted tissue retained its human phenotype for at least 4 weeks including the glandular epithelium, the lamina propria, and main parts of the grafted vessels. By using an occlusive chamber filled with covering phosphate-buffered saline we created a system that protected the moist human epithelial surface. This system will allow the study of the interaction of test substances, or of invasive, pathogenic microorganisms, with epithelial cells and other cellular components of the human genital mucosa under in vivo conditions.

Gut-homing CD4+ T cell receptor alpha beta+ T cells in the pathogenesis of murine inflammatory bowel disease.

We studied which T cell subsets from the gut-associated lymphoid tissue (GALT) can migrate out of the gut mucosa and repopulate GALT compartments of an immunodeficient (semi)syngeneic host. Many distinct lymphocyte subsets were found in GALT of immunocompetent H-2d (BALB/c, BALB/cdm2, C.B-17+/+) mice. No antigen receptor-expressing lymphoid cells were found in GALT of congenic C.B-17 scid/scid (scid) mice. The heterotopic transplantation of a full-thickness gut wall graft from the ileum or colon of immunocompetent (C.B-17+/+, BALB/cdm2) donor mice onto immunodeficient scid mice selectively reconstituted a CD3+ T cell receptor alpha beta+ CD4+ T cell subset. CD4+ cells of this subset expressed the surface phenotype of mucosa-seeking, memory T cells. In the immunodeficient scid host, this gut-derived CD4+ T cell subset was found in spleen, peritoneal cavity, mesenteric lymph nodes (LN), epithelial layer and lamina propria of the small and large intestine, but not in peripheral LN. Scid mice heterotopically transplanted with gut from a congenic, immunocompetent donor developed clinical and histological signs of inflammatory bowel disease (IBD). Hence, the selective repopulation of GALT compartments with CD4+ T cells from normal GALT plays an essential role in the pathogenesis of IBD in an immunodeficient host.

TCR/CD3 ligation of a TCR-transgenic T lymphoma blocks its proliferation in vitro but does not affect its growth in vivo.

A backcrossed mouse line was established homozygous for the autosomal recessive mutation scid (severe combined immunodeficiency) and carrying T cells which express transgenic (tg) T cell receptor (TCR) alpha and beta chains that mediate H-2 class I (Db)-restricted recognition of a male (H-Y) determinant (TCR-tg SCID mouse). A thymoma arose 'spontaneously' in one of the TCR-tg female SCID mice and the thymoma cells were adopted to factor-independent, in vitro growth in long-term tissue culture. The thymic lymphoma cell line was cloned and one of the subclones, TL1, was studied. The ultrastructure of TL1 cells resembled that of small-to-medium lymphoblasts. The cells had the following phenotype: CD3 + TCR alpha T+TCR beta T+CD4-CD8- CD44-CD45RB+LECAM-1 + IL-2R- and low H-2 expression. Exposure of TL1 cells to TCR-binding monoclonal antibodies or lectins blocked in their in vitro proliferation. In addition, TL1 cell proliferation was inhibited by coculture with male and female H-2b+ cells. Following adoptive transfer into both H-2b+ and H-2d+ SCID recipient mice, TL1 cells showed rapid, malignant growth and infiltrated lymphoid and nonlymphoid organs. Expression of the tg TCR complex was selectively downregulated in TL1 cells growing in H-2b+ male SCID recipients. However, the malignant in vivo growth potential of TL1 cells was comparable, irrespectively of the sex and haplotype of the SCID recipient. In conclusion, our data show that the growth of TL1 cells in vitro is suppressed by physiological ligation of their TCR complex, whereas TL1 cells, by downregulation of their TCR, may escape TCR-ligation-induced suppression in vivo.

Adoptive transfer of low numbers of CD4+ T cells into SCID mice chronically treated with soluble IL-4 receptor does not prevent engraftment of IL-4-producing T cells.

After intravenous injection of 10(5) purified, lymph node (LN)-derived dm2 (H-2d/Ld-) CD4+ T cells into young C.B-17 scid/scid (severe combined immunodeficiency, SCID) mice (H-2d/Ld+), the transplanted Ld-T cells show a selective pattern of engraftment: they repopulate the spleen, the lamina propria of the small intestine and the mesenteric LN (but not other peripheral LN) of the immunodeficient host. CD4+ cells repopulating different lymphoid organs of the SCID recipient mice produce interleukin-2 (IL-2) and interleukin-4 (IL-4) in response to polyclonal stimulation in vitro. Some evidence has recently been provided that cytokines (e.g. IL-4) present at the site of antigen stimulation in vivo decisively influence the pattern of cytokines expressed by T cells activated at these sites. We therefore asked if neutralization of IL-4 by chronic treatment of SCID mice with high doses of recombinant soluble IL-4 receptor (sIL-4R) changes the IL-4 or IL-2 expression pattern of CD4+ T cells adoptively transferred into young SCID recipients. Transplanted SCID mice were chronically treated with two different, recombinant murine sIL-4R proteins. The experimental series further included groups of transplanted SCID mice treated with a recombinant human sIL-4R protein (which does not bind murine IL-4), treated with the anti-murine IL-4 monoclonal antibody (MoAb) 11B11, or non-treated. Transplanted SCID mice treated with the recombinant murine sIL-4R protein preparations displayed detectable sIL-4R serum levels, which demonstrates that the substitution therapy could maintain neutralizing serum levels of anti-IL-4 activity in SCID mice. By contrast, no serum sIL-4R levels were detectable in the sensitive ELISA readout in transplanted SCID mice which were non-treated, treated with the MoAb 11B11, or treated with the recombinant humans sIL-4R protein. The efficiency and the pattern of CD4+ T-cell engraftment, and the lymphokine-producing phenotype of the engrafted dm2 CD4+ cells, was not affected by the continuous IL-4-neutralizing treatment of mice with either the MoAb 11B11 or the soluble IL-4R preparations. Hence, in contrast to the published evidence of the dramatic effect of IL-4 on the lymphokine-producing phenotype of CD4+ T cells stimulated in vitro or in vivo, the chronic suppression in vivo of IL-4 activity (by either different sIL4-R protein constructs, or by the anti-IL-4 MoAb 11B11) did not lead to preferential engraftment of Th1-type CD4+ T cells after adoptive transfer of CD4+ T-cell populations into an immunodeficient recipient.

Selective engraftment of memory CD4+ T cells with an unusual recirculation pattern and a diverse T cell receptor-V beta repertoire into scid mice.

Young (H-2d, Ld+) severe combined immunodeficiency (scid) mice were injected intravenously with 10(5) CD4+CD8- T cells purified from spleen, thymus or lymph nodes (LN) of dm2 (H-2d, Ld-) donor mice. In the immunodeficient recipients, the lymphoid compartment in the splenic white pulp was repopulated with donor-type T cells and cellularity in the red pulp was increased. In addition, donor-type CD4+ T cells repopulated the peritoneal cavity, mesenteric LN and the lamina propria of the small intestine of scid mice, but were undetectable in thymus and peripheral (inguinal, axillary) LN. Histological examination of repopulated mesenteric LN showed expanded subcapsular sinuses, repopulated cortical areas, but poorly developed high endothelial venules (HEV) indicating deficient blood-LN lymphocyte recirculation. The engrafted CD4+ T cell population had the surface phenotype of memory T cells (CD44/Pgp-1high CD45RB(low) and expressed the Peyer's patch HEV-specific homing receptor CD49d (LPAM-1), but not the LN HEV-specific homing receptor LECAM-1. The CD4+ T cell population in spleen and mesenteric LN of transplanted scid mice displayed a diverse T cell receptor-V beta repertoire. Transfer of titrated numbers (10(3), 10(4), 10(5) cells per mouse) of CD4+ T cells into scid mice established donor-type T cell populations with this unusual homing pattern in all recipients. Repeated serial transfers of dm2 CD4+ T cells through young scid mice revealed an extensive in vivo expansion potential of transferred cells for > 18 months. The experimental system described represents an in vivo model to study the functional competence and the differentiation potential of a murine memory CD4+ T cell subset.

Transplantation of CD4+ T cell clones into SCID mice.

Engraftment of congenic (BALB/c) or semi-syngeneic (dm2) CD4+ T cell clones into immunodeficient SCID mice was investigated in two experimental systems: the adoptive transfer of Iad-restricted, anti-host-reactive ('self-reactive') CD4+ T cell clones, and the adoptive transfer of OVA-specific CD4+ T cell clones. SCID mice transplanted with 10(4)-10(5) purified BALB/c CD4+ T cells select anti-host-reactive T cells for engraftment. Anti-SCID-reactive T cell clones derived from such preselected CD4+ T cell populations could be successfully engrafted into secondary SCID recipients. In a second series of experiments, Iad-restricted, self-reactive BALB/c CD4+ T cell clones established in long-term culture from unselected, normal BALB/c spleen cell populations were transferred into SCID mice. Not a single clone from this panel could be transplanted into the immunodeficient host. Intravenous injection of OVA-primed dm2 (Ld-) CD4+ T cells into OVA-immunized young SCID (Ld+) mice repopulated the splenic and peritoneal T cell compartment of all transplanted mice. OVA-specific dm2 CD4+ T cells from the spleens of transplanted SCID mice were (sub)cloned under limiting dilution conditions in vitro. Only some of these clones repopulated OVA-immunized SCID recipients after retransplantation in vivo. Serial transfer experiments with a selected OVA-specific dm2 CD4+ T cell clone indicated that the route of cell transfer (i.p., but not i.v.), but not the route of OVA immunization of the host (i.v. or i.p.) were critical for successful engraftment of this clone. Hence, selected CD4+ T cell clones can be successfully engrafted into SCID mice if (i) the population from which clones are derived is preselected in SCID mice, (ii) the in vitro culture period of T cells is restricted to a few months, and (iii) alternative routes of cell transfer are tested. In infectious disease models, protective T cell clones can be identified in vivo using the described system. In addition, the importance of T cells with defined phenotype and effector functions in the pathogenesis of autoimmune disorders can be assessed in this system.

CD3+ T cells in severe combined immunodeficiency (scid) mice. VI. Rescue of scid-derived, IgM-producing B cells by transfer of CD4+ CD8- T cells from various lymphoid organs.

Intravenous injection of purified CD4+ CD8- T cells from thymus, spleen or lymph nodes of adult dm2 donor mice (H-2d, Ld-, IgMa) into young C.B-17 scid/scid (scid) mice (H-2d, Ld+, IgMb) partially and selectively reconstituted the splenic CD4+ T-cell compartment of recipient scid mice. This was demonstrated by cytofluorographic analyses, histological examinations, growing donor-derived CD4+ T-cell lines in vitro from spleens of transplanted scid mice, and serial passage of Ld-, CD3+CD4+CD8- T-cell lines through young scid recipients for more than 1 year. Host-derived IgMb appeared in sera of all CD4+ T-cell-transplanted young scid mice, while none of the sex- and age-matched, non-transplanted control scid mice was Ig+. B-cell leakiness was most efficiently induced by transfer of low numbers of adult CD4+ CD8- thymocytes: transfer of 10(3) purified CD4+ CD8- thymocytes efficiently rescued scid-derived B cells, while transfer of 2 x 10(7) non-fractionated thymocytes from the same donor mouse was inefficient. Serum antibodies of scid mice with T-cell-induced B-cell leakiness stained congenic 'double-positive' (CD4+ CD8+) thymocytes and immunoprecipitated protein bands with an apparent MW of 14,000, 28,000, 43,000, 65,000 and 80,000 from 125I-labelled thymocytes. These data indicate that repopulation of peripheral lymphoid organs with CD4+ T cells is always accompanied by partial co-reconstitution of the B-cell system, and raises the question of the interdependence of these two lymphocyte subsets.

CD3+ T cells in severe combined immunodeficiency (SCID) mice. V. Allogeneic T cells engrafted into SCID mice do not induce graft-versus-host disease in spite of the absence of host veto and natural suppressor cell activity.

Intravenous injection of 10(6) to 10(7) non-fractionated spleen cells (SC) from C57BL/6 (B6, H-2b) mice into completely allogeneic, immunodeficient H-2d severe combined immuno deficiency (scid) mice leads to engraftment of allogeneic donor T cells. Mice analysed in the tenth week posttransfer had engrafted donor-type CD4+ and CD8+ T cells in the spleens but showed no clinical evidence of graft-versus-host disease (GVHD). Transfer of allogeneic T cells engrafted in scid recipients did not induce GVHD upon i.v. injection into secondary scid recipients and lead in most recipients to engraftment of a pure CD4+ T-cell population. Experiments were carried out to investigate the reason(s) for the lack of GVHD in recipient scid mice, i.e. the presence of allotolerance in the engrafted donor T cells. Scid spleen cells (SC) efficiently stimulated alloreactive responses of B6 T cells: scid SC stimulated H-2d-specific cytotoxic responses in a B6 anti-scid mixed lymphocyte culture in vitro, and scid SC injected i.v. into B6 mice efficiently primed splenic cytotoxic lymphocyte precursors against H-2d alloantigens. Moreover when assayed in vitro, no veto activity or natural suppressor activity was detectable in scid SC. These data demonstrate that tolerizing mechanisms currently believed to operate in vivo can not explain the fact that allogeneic T cells injected i.v. into immunodeficient scid mice become tolerized against host-type alloantigens. Our results are discussed in the light of clinical experience of allogeneic T-cell transfer in scid infants.