Pig Lymphocytes Research Articles

A monoclonal antibody recognising an epitope associated with pig interleukin-2 receptors

A monoclonal antibody is described which recognises an epitope associated with a receptor for interleukin-2 (IL-2) on pig lymphocytes. The monoclonal antibody inhibits high affinity binding of radiolabelled recombinant human IL-2 (rhIL-2) by pig lymphoblasts and also non-competitively inhibits both pig-TCGF and rhIL-2 maintained proliferation. By flow cytometry the antigen is apparently not present on freshly isolated blood lymphocytes but is detectable on small cells between 6 and 12 h after activation and on large cells by 24-h. These findings are comparable with those obtained using monoclonal antibodies recognising the 55 kDa α chain of the human and mouse IL-2 receptor (p55, TAC) expressed on activated cells in vivo and in vitro. However, the molecular weight of the porcine antigen is between 65 and 70 kDa.

Evaluation of the expression of the cationic peptide gene in various types of leukocytes

To understand the regulation of the production or antimicrobial cationic peptide (CP) in leukocytes, expression of the CP gene was evaluated in various types of leukocytes using guinea pig neutrophils, monocytes, macrophages, cosinophils, lymphocytes and bone marrow cells. Acid-urea PAGE and SDS-PAGE/immunoblot analyses showed that CP was present in neutrophils and bone marrow cells, but not in other leukocytes. Northern blot and transcription run-off analyses revealed that only bone marrow cells expressed CP mRNA and transcribed the CP gene. Interestingly, in situ hybridization analysis using bone marrow cells demonstrated that CP mRNA was expressed in the neutrophil precursor cells, such as promyclocytes and myclocytes, but was not detected in the mature neutrophils and other bone marrow cells. Moreover, immunocytochemical study indicated flat CP present in the neutrophil precursor cells and the mature neutrophils in the bone marrow. Thus, the CP gene appears to be expressed during a limited period of neutrophil maturation, and CP is likely synthesized by the neutrophil precursor cells in the bone marrow.

Differing macrophage and lymphocyte roles in resistance to Legionella pneumophila infection.

Similar to guinea pig macrophages and human monocytes, macrophages from the peritoneal cavity of thioglycolate pretreated A/J mice are permissive for growth of Legionella pneumophila. In contrast, macrophages from BDF1 mice are not permissive for L. pneumophila. Lymphocytes from A/J and BDF1 mice proliferated in response to Legionella Ag but guinea pig lymphocytes did not. Also, splenocyte cultures from A/J mice treated with either Con A or Legionella vaccine produced supernatants which induced A/J macrophages to restrict Legionella growth, but guinea pig splenocyte culture supernatants obtained after stimulation with L. pneumophila vaccine did not induce Legionella growth restriction activity by guinea pig macrophages. Murine rIFN-gamma but not rIFN-alpha markedly inhibited growth of Legionella in A/J mouse macrophages and monoclonal anti-IFN-gamma antibody neutralized the anti-Legionella activity of culture supernatants from A/J mouse splenocytes responding to Legionella Ag. From these data, IFN-gamma appears to be an important factor in anti-Legionella activity of Ag-activated mouse splenocyte culture supernatants. Cyclosporin A, when given to either A/J or BDF1 mice, reduced the proliferation responses of splenocytes to T cell mitogens and also decreased the IFN production of A/J spleen cells to Legionella Ag. In addition, drug treatment decreased the resistance of A/J mice to Legionella infection as shown by an increase in the number of viable bacteria in the liver. However, injection of drug treated mice with lymphokine-rich splenocyte culture supernatant reconstituted the resistance of these animals. These results suggest an important role for lymphocyte activation and lymphokine production in the resistance of A/J mice to Legionella infection. The greater resistance of BDF1 mice, however, may result from nonpermissive macrophages and responsive lymphocytes. In the case of guinea pigs, susceptibility to Legionella infections may result from both the permissive nature of the macrophages and the relatively unresponsive nature of the lymphocytes in these animals.

FK506 and rapamycin: differential sensitivity of human, baboon, cynomolgus monkey, dog and pig lymphocytes

It has recently been suggested that there are species differences in the sensitivity of T lymphocytes to the immunosuppressive effect of FK506 [3]. We explore this phenomenon further and compare FK506 with rapamycin in lymphocytes from dog, pig, baboon, cynomolgus monkey and man. We fond that the relative sensitivity of T cells to FK506 did not necessarily correlate with their sensitivity to rapamycin, further emphasising the different mode of action of each drug. The serum may alter results of dose-response curves, and thus autologous serum may introduce an uncontrolled variable when different species are being compared in vitro. We conclude that the differences in sensitivity of lymphocytes from various species to FK506 and rapamycin are independent of each other, and these differences are likely to reflect variation in the overall interactive pathways involved in T-cell mitogenesis.

Species-specific effect of proteins secreted by cultured pre-pubertal rat Sertoli cells on natural killer cell activity

The eflect of proteins secreted by cultured pre-pubertal rat Sertoli cells (pSCP) on natural killer (NK) cell activity of rat, mice and guinea pig splenocytes and human peripheral blood lymphocytes was estimated. The results indicate that pSCP inhibited, in a dose-dependent manner, NK cell activity of mice, guinea pig and human lymphocytes but did not suppress lysis of YAC-1 target cells by rat NK cells. Species-specific differences in the efiect of pSCP on NK cell activity probably result from differences in the binding of proteins within the effector cells. These data indicate that in the pre-pubertal period of gonadal development immature Sertoli cells synthesize a factor/s which might contribute to the maintenance of specific testis immunological environment.

CRRP: a guinea pig protein, identified by sequence homology to human CR1, which contains two short consensus repeat motifs and appears not to be transmembrane or secreted.

cDNA from the C4b-binding site of the human C3b/C4b receptor (CR1) was used to find homologous sequences in the guinea pig. This cDNA identified an 18S mRNA species in guinea pig spleen, but not liver. Probing of a guinea pig spleen cDNA library identified clones with identical 1.5-kb inserts, which also hybridized to mRNA in spleen, but not liver. Sequence analysis of the insert revealed a single long open-reading frame coding for a 20,000 Mr protein consisting of two short consensus repeat motifs homologous to human CR1, and unique sequence at the amino- and carboxy-terminals of the short consensus repeats. This sequence did not encode peptides with features of transmembrane domains or signal peptides. Antibody to this complement receptor-related protein-beta galactosidase fusion protein recognized a 20,000 Mr protein in SDS lysates of guinea pig spleen, lymph node, lymphocytes, neutrophils, and peritoneal macrophages. Immunoprecipitation of human serum by this antibody revealed an 180,000 Mr protein reacting both with the anti-guinea pig protein antibody and with anti-human CR1 antibody. Immunoprecipitation of guinea pig serum revealed no protein reacting with the anti-guinea pig protein antibody. Tissue staining of cultured peritoneal macrophages with this antibody showed intracellular staining, as opposed to membrane staining obtained with anti-guinea pig Ig antibody. The lack of membrane expression was confirmed by surface protein radiolabeling experiments and by fluorescent staining of surface proteins. Thus, we have identified a guinea pig protein with homology to human CR1, which may have an unusual property for this class of proteins in that it appears to be intracellular.

Comparative studies on in vitro reactivity of fresh and cryopreserved pig lymphocytes

The effect of cryopreservation on in vitro reactivity of pig lymphocytes was studied. Peripheral blood mononuclear cells (PBMC) were frozen by controlled-rate freezing and stored in liquid nitrogen (LN 2) between 4 and 36 days. Following thawing 74.7 ± 2.6% of cells were recovered of which 94.5 ± 0.9% were viable as determined by trypan blue exclusion. Functional parameters measured included the concentration of free intracellular Ca 2+ ([Ca 2+] i) in resting and mitogen-stimulated PBMC, mitogen and alloantigen-induced blastogenesis, as well as cell-mediated cytotoxicity. Irrespective of storage time and cell donor, [Ca 2+] i in frozen-thawed PBMC (67.7 ± 4.3 n M) was significantly lower ( P < 0.001) when compared to fresh cells (96.2 ± 4.5 n M). In addition, cryopreserved PBMC only weakly responded with an increase of [Ca 2+] i after stimulation by various concentrations of phytohemagglutinin (PHA). Following activation by PHA (2 μg/ml) for 4 days fresh lymphocytes (84,047 ± 5475 cpm) incorporated significantly more ( P < 0.005) [ 3H]thymidine than frozen PBMC (66,001 ± 4117 cpm). A similar difference in proliferation rates ( P < 0.05) between fresh (10,046 ± 1915 cpm) and frozen-thawed PBMC (5852 ± 1304 cpm) was observed in one-way mixed lymphocyte cultures (MLC), while the spontaneous incorporation of radiolabel was unchanged in frozen stored cells. By using MLC-derived cytotoxic effector cells (E) and [ 3H]thymidine-labeled concanavalin A blasts as targets (T), cryopreserved PBMC displayed a severe deficiency of cytotoxic effector functions at all tested E:T ratios. These results indicate that pig PBMC are very sensitive to LN 2 storage although some immunological functions are more affected by cryopreservation than others.

Synthesis of nuclear lipids in L 2C leukemic lymphocytes

We previously reported that propiconazole strongly inhibits cholesterol synthesis, but not cell division in a stimulated cell, the human lymphocyte cultured with phytohemagglutinin, showing that newly synthesized cholesterol is not necessary for cell division. In this study we labeled the L2C leukemic guinea pig lymphocyte, a naturally stimulated cell, with [2-14C]acetate, and compared the composition of newly synthesized lipids isolated from nuclei and whole cells (or microsomes). We observed that the proportion of cholesterol in labeled non-saponifiable lipids extracted from nuclei was lower than in non-saponifiable lipids isolated from whole cells, whereas the proportion of squalene and polar lipids was higher. By analyzing total lipid extracts, the polar lipids were identified as alkylglycerols, and the above mentioned distribution of constituents was confirmed. The identification of alkylglycerols was also supported by the comparison of radioactive lipid composition after labeling cells with three different lipid precursors: [2-14C]mevalonate, [2-14C]acetate and [2-14C]stearate. When cells were labeled in the presence of dodecylimidazole, the percentage of squalene and alkylglycerols decreased in nuclear lipids, but was not altered when cells were cultured in the presence of propiconazole, a cholesterol synthesis inhibitor which does not affect cell division of human stimulated lymphocytes. We have shown that dodecylimidazole inhibited alkylglycerol biosynthesis and squalene uptake by the nucleus, suggesting that these compounds could play a role in the regulation of cell division.

Adrenocorticotropin stimulates natural killer cell activity.

Central release of CRH has recently been implicated in modulating natural killer cell (NK) activity independent of its role in activation of the hypothalamic-pituitary-adrenal axis. In the present study, NK- and interleukin-2 (IL-2)-activated NK cytotoxicity against K-562 target cells was examined in porcine lymphocytes cultured in vitro with ACTH or pig lymphocytes after iv or im ACTH administration. Physiological concentrations of porcine ACTH (10(-8)-10(-11) M) added to the culture medium had no direct influence on NK- or IL-2-stimulated NK cytotoxicity. In a second experiment four unrestrained pigs with indwelling catheters given an iv bolus of vehicle or ACTH (1 IU/kg BW) at 0800 h showed significantly elevated cortisol levels for 3 h after ACTH. Although serum cortisol had returned to baseline by 4 h after ACTH treatment, NK- and IL-2-stimulated NK cytotoxicity was dramatically elevated (P less than 0.01) compared to that in saline-injected controls. NK cytotoxicity in control pigs followed a diurnal pattern, with low morning and high evening cytotoxicity. Exogenous ACTH, given by bolus in the morning, prevented the normal morning decline in NK cytotoxicity. Because of this unexpected dramatic increase in NK- and IL-2-stimulated NK cytotoxicity in animals given ACTH, the experiment was replicated in two subsequent studies using 16 pigs (8 controls and 8 experimental) in each. Pigs were injected im with either ACTH (1 IU/kg BW) or an equivalent volume of saline at 0600 h. Two hours later, blood was collected by venipuncture to determine NK cytotoxicity and measure the cortisol response. As was observed in the previous study, NK- and IL-2-stimulated NK cytotoxicity was significantly greater (P less than 0.01) than that in saline-injected controls. In the final experiment pigs were given either ACTH (1 IU/kg BW) or an equivalent volume of saline at 1800 h. Two hours later, blood was collected by venipuncture to determine NK cytotoxicity and cortisol response. ACTH administered in the evening increased NK cytotoxicity, but the effect was only marginally significant and far less dramatic than in previous studies. Because ACTH had little effect on NK- and IL-2-stimulated NK activity in vitro, we hypothesize that the stimulatory effect of exogenous ACTH is mediated through an indirect mechanism, possibly through the suppression of central CRH as a result of elevated cortisol. This effect is more pronounced when the stimulatory dose of ACTH is given at a time in the circadian cycle when NK cytotoxicity is normally low.

The effect of Pasteurella haemolytica A1 leukotoxic culture supernate on the in vitro proliferative response of bovine lymphocytes

The effect of sublethal concentrations of the Pasteurella haemolytica leukotoxic culture supernate on bovine lymphocyte blastogenesis was investigated. Blastogenesis in cultures stimulated with either concanavalin A (Con A) or pokeweed mitogen (PWM) was inhibited in the presence of the supernate, as was the response to purified protein derivative in lymphocytes from BCG-vaccinated cattle. Partially purified leukotoxin had a similar effect. Pre-incubation of the leukotoxic supernate with a polyclonal rabbit antiserum raised to the immunogenic molecule of recombinant leukotoxin (r LktA) abrogated this effect, implicating leukotoxin as the factor responsible for the inhibition. B cell enriched cultures tended to be more sensitive to leukotoxic effects than did T cell enriched cultures. Although only ruminant cells are susceptible to the lethal effects of P. haemolytica leukotoxin, the toxin did inhibit both Con A- and PWM-induced proliferation of human and dog lymphocytes. As well, at high leukotoxin doses, Con A-stimulated pig lymphocyte proliferation was reduced. Rabbit lymphocytes were not affected by leukotoxin in either Con A- or PWM-stimulated cultures.

Liposomal amphotericin B inhibits in vitro T-lymphocyte response to antigen

The effects of free amphotericin B (as Fungizone) and amphotericin B (AMB) incorporated into liposomes on the proliferation of lymphocytes were determined. Freshly obtained guinea pig and rat antigen-specific lymphocytes were compared with rat T-lymphocyte cell lines cultured for a long period of time. Incorporation of AMB into multilayered vesicles significantly reduced its effect relative to that of Fungizone on cultured T-cell lines, as reported by others for mammalian cells. In contrast, the effects on freshly obtained antigen-specific lymphocytes were different. Fungizone inhibited proliferation of antigen-specific lymph node cells freshly obtained from immunized guinea pigs at fungicidal concentrations, and incorporation into multilayered lipid vesicles did not have much of a protective effect. Higher concentrations of Fungizone were required to inhibit proliferation of fresh rat lymph node cells, but incorporation into multilayered lipid vesicles still did not have much of a protective effect. Some T lymphocytes in the peripheral circulation of guinea pigs and in the lymph nodes of rats were more resistant to liposomal AMB than another more sensitive T-lymphocyte population was. Proliferation of lymphocytes in response to mitogens was inhibited less than that in response to specific antigen was. Thus, sensitivity to AMB depended on the species, the strength of the stimulus used to activate the lymphocytes, and on some other property of the lymphocytes, possibly their state of differentiation. Regardless of the reason for the difference in effects on freshly obtained lymph node lymphocytes and cultured line cells, the former may be more relevant to effects in vivo and should be considered in a complete evaluation of the in vivo toxicity of these forms of the drug. Incorporation into sonicated unilamellar vesicles had more of a protective effect, while equimolar drug-lipid complexes had even more of a protective effect. These forms of AMB might have less of an immunosuppressive potential than multilayered vesicles containing low amounts of AMB do.

T cell proliferation induced by monoclonal antibodies to a phosphatidylinositol-linked differentiation antigen of guinea pig lymphocytes

Monoclonal antibodies (mAb) to differentiation antigens frequently influence the in vitro function of antigen-bearing cells. We characterized a 32-36-kDa membrane protein expressed on guinea pig lymphocytes and Langerhans cells. A series of independently derived mAb to this protein, now called guinea pig T cell activation antigen (gpTAA), induced strong proliferation of T cells in vitro. Cross-linking of the mAb by a secondary antibody (rabbit anti-mouse Ig) and costimulation with phorbol 12-myristate 13-acetate were required for activation. Treatment of the cells with phosphatidylinositol-specific phospholipase C greatly reduced the amount of antigen expressed on the cell surface as measured by flow cytometry analysis. This finding indicates that the antigen is anchored to the cell membrane via phosphatidylinositol linkage as shown similarly for other membrane proteins with T cell activating properties, e.g. Thy-1 and Ly-6. The guinea pig protein differs, however, in its molecular weight and tissue distribution from similar proteins identified in the mouse or in the rat system. Unlike Thy-1, gpTAA is also expressed on B Lymphocytes and Langerhans cells. Considering the previously described involvement in cellular adhesion, and the functional characteristics reported here, gpTAA might represent a new species of differentiation antigen with T cell-activating capacity.

Alteration in de novo pyrimidine biosynthesis during uridine reversal of pyrazofurin‐inhibited dna synthesis

Pyrazofurin, a pyrimidine nucleoside analogue with antineoplastic activity, inhibits cell proliferation and DNA synthesis in cells by inhibiting uridine 5'-phosphate (UMP) synthase. It has been previously shown in concanavalin A (con A)-stimulated guinea pig lymphocytes (23) that pyrazofurin-inhibited DNA synthesis could be selectively reversed by exogenous uridine (Urd). In this report, we have examined possible mechanisms for the Urd reversal with experiments that determine the ability of exogenous Urd to (a) interfere with either the intracellular transport of pyrazofurin, or the conversion of pyrazofurin to its intracellularly active form, pyrazofurin-5'-phosphate; (b) reverse the pyrazofurin block of [14C]orotic acid incorporation into DNA; and (c) alter the pattern of exogenous [3H]Urd incorporation into DNA-thymine (DNA-Thy) and DNA-cytosine (DNA-Cyt) during pyrazofurin inhibition of pyrimidine de novo biosynthesis. The results of these experiments showed that Urd reversal does not occur through altered pyrazofurin transport or intracellular conversion to pyrazofurin-5'-phosphate, nor does it alter the distribution of [3H]Urd in DNA-Thy and DNA-Cyt. Instead, these findings indicate that the primary mechanism for exogenous Urd reversal of pyrazofurin inhibition of DNA synthesis involves the reversal of pyrazofurin inhibition of UMP synthase, thus restoring orotic acid incorporation into lymphocyte DNA through the pyrimidine de novo pathway.

A Simple and Efficient Variant of the E Rosette Test for the Detection of T Lymphocytes in Pigs

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Epitopes of the T19 lymphocyte surface antigen are extensively conserved in ruminants

The reactivity of five monoclonal antibodies (mAbs SBU-T19, 197, IL-A29, CC-15 and CC-39) specific for the T19 molecule on sheep and cattle CD4-CD8-T cells was compared. MAbs SBU-T19 and 197 were shown to recognise separate epitopes on T19. All mAbs reacted with lymphocytes from several different ruminant species and the tissue distribution and frequency of positive cells was similar in each case. None of the mAbs reacted with horse, pig or camel lymphocytes. The extensive conservation of T19 epitopes in ruminants during the mammalian radiation could indicate an important role for this molecule in the ruminant immune system.

ANTIBODY-INDUCED REJECTION OF PIG PROISLET XENOGRAFTS IN CD4+ T CELL-DEPLETED DIABETIC MICE

Reversal of diabetes in mice was achieved following in vivo depletion of host CD4+ T cells and transplantation of xenogeneic fetal pig proislets (pancreatic islet precursors). These procedures resulted in xenograft tolerance since established pig proislet xenografts were not rejected by antipig antibodies produced in the host, and rejection was not induced following the administration of donor major histocompatibility complex--specific pig lymphocytes. Proislet xenografts were rejected following the administration of donor MHC-specific hyper-immune antipig PBL serum raised in normal mice. Although established proislet xenografts in anti-CD4-treated mice are sensitive to antibody-mediated destruction, such hosts are unable to produce an antibody response that leads to graft rejection. The study indicates that the mechanism of preventing xenograft rejection by anti-CD4 treatment in vivo involves not only initial CD4+ T cell depletion but also quantitative and/or qualitative modulation of a CD4+ T cell-dependent antibody response. As a consequence, an apparent state of xenograft tolerance is produced.

Erythrocytes modulate the baseline frequency of sister-chromatid exchanges and the kinetics of lymphocyte division in culture

The baseline sister-chromatid exchange (SCE) frequencies of human plasma lymphocyte cultures (PLC), but not pig PLC, were nearly twice as high as those of whole-blood cultures (WBC). Addition of human red blood cells (RBCs) to human PLC decreased the SCE frequency in proportion to the RBC-leukocyte co-incubation interval. When the period of RBC-leukocyte co-incubation was equivalent to the total length of the culture period (72 h), the SCE frequency was similar to that observed in WBC. Shorter co-incubation periods yielded SCE frequencies intermediate between those of PLC and WBC. Regardless of the species, cell proliferation was slower in PLC than in WBC. Experiments where RBCs were added to PLC showed that the time sequence of RBC incorporation also affects the cell-cycle progression of human and pig lymphocytes. When either human or pig RBCs were added immediately after PLC stimulation, the cell-cycle kinetics was similar to that of WBC. Shorter co-incubation periods made cell-cycle progression intermediate between PLC and WBC values. Thus, PBCs modulate the baseline frequency of SCEs in human PLC and the cell-cycle progression of both human and pig lymphocytes in a time-dependent manner. Two possible hypotheses for the heightened frequency of SCEs of human lymphocytes in RBC-free cultures were assessed. The loss of RBC-to-lymphocyte cellular contact in PLC did not influence the SCE frequencies of lymphocytes. Finally, the increase of SCEs in human PLC could not be related to differences in the generation time of lymphocytes in culture.

Mitogenic Effect of α1‐Microglobulin on Mouse Lymphocytes

Human alpha 1-m microglobulin (alpha 1-m), a low molecular weight plasma protein, was found to exert mitogenic effects on mouse lymphocytes from lymph nodes and spleen. The stimulatory effects appeared to be strain-restricted: alpha 1-m induced a varying degree of proliferation of lymphocytes from three strains, whereas one strain responded poorly. Experiments with lymphocyte subpopulations showed only weak stimulatory effects of alpha 1-m on purified T and B lymphocytes cultivated alone. The addition of mitomycin-treated cells of the other subpopulation could not restore the proliferative responses in either T or B lymphocytes. Strong stimulations were recorded only when both T and B lymphocytes were present, indicating that the T and B lymphocytes cooperate to achieve the proliferation. However, FACS studies on cultured splenocytes indicated that the proliferating cells are predominantly B lymphocytes. These data extend our earlier findings of a mitogenic effect of alpha 1-m on guinea pig lymphocytes. Furthermore, results were obtained indicating the presence of a receptor on mononuclear cells. Iodine-labelled alpha 1-m was bound to mononuclear cells prepared from spleens, and the binding could be blocked by an excess of non-labelled alpha 1-m. Scatchard plotting of the data gave an equilibrium constant of 0.7 x 10(5)/M for the binding between alpha 1-m and the receptor. Together with the documented inhibitory activity of alpha 1-m on antigen-driven proliferation of lymphocytes, these results suggest an immunoregulatory role for alpha 1-m.

Effects of Ca2+ Ionophore A23187, 1, 2-Dioctanoylglycerol, and Dibutyryl cAMP on the Activity and Expression of Ornithine Decarboxylase in Guinea Pig Lymphocytes1

The Ca2+ ionophore A23187 induced small increases in ornithine decarboxylase activity and ornithine decarboxylase mRNA in guinea pig lymphocytes. 1,2-Dioctanoylglycerol potentiated the A23187-induced ornithine decarboxylase activity and the accumulation of mRNA for this enzyme. Dibutyryl cAMP also potentiated the enzyme activity, but had little effect on the accumulation of mRNA. 1,2-Dioctanoylglycerol and 12-O-tetradecanoylphorbol-13-acetate potentiated ornithine decarboxylase activity that had been increased by treatment with both A23187 and dibutyryl cAMP with a consistent increase in the ornithine decarboxylase mRNA. However, dibutyryl cAMP augmented ornithine decarboxylase activity that had been increased by the combination of A23187 and 1,2-dioctanoylglycerol without affecting the ornithine decarboxylase mRNA level. These results suggest that the protein kinase C and cyclic AMP pathways are involved in the enhancement of ornithine decarboxylase activity in guinea pig lymphocytes, but that the mechanisms of the enhancement differ for each pathway, the former increasing the ornithine decarboxylase mRNA level, but not the latter.

Exit of recirculating lymphocytes from lymph nodes is directed by specific exit signals

During recirculation, lymphocytes leave the peculiar structurally inverted lymph nodes (LN) of pigs via blood vessels instead of via efferent lymphatics, as in sheep and other mammals. This functional difference provided an opportunity to show the existence of signals directing lymphocyte exit from LN. The recirculation of pig peripheral blood lymphocytes was traced through fetal sheep LN and of sheep PBL into and out of unsuckled newborn piglet LN, using the lack of natural antibody or natural killer cell function in these immunologically mature young to compare foreign and homologous lymphocyte behavior. In spite of some 50 million years of evolutionary divergence, the detailed kinetics and route of recirculation of the xenogeneic PBL were essentially the same as those of the host species. Thus determinants guiding the anomalous blood exit from pig LN must involve conserved "exit" signals in a new site and not changes in pig lymphocyte homing receptors.