Effect of splenectomy on the development of neonatal lymphoid organs transplanted to animals of varying age]

The effect of splenectomy on the development of newborn thymus and spleen grafted under the kidney capsule of young and old mice has been investigated. Preliminary splenectomy is shown to increase cell counts in grafted spleen that is more conspicuous in young recipients as compared with old ones. This result suggests a decrease with age in the inhibitory effect of the host spleen on the maturation of spleen grafted from newborn donor. Combined transplantation of newborn thymus and spleen has revealed a decrease of cell counts in the donor spleen grafted to the young splenectomized recipients and, on the contrary, increase of this parameter in old ones. Immune response in donor spleen with combined transplantation of the thymus to the old splenectomized recipients is much higher as compared with the same parameter in recipient without splenectomy. It is concluded that partial destruction of the old immune system is essential for its correction.     

Cell lines from old immunodeficient donors give normal responses in young recipients.

Two different immune responses were compared in spleen cells obtained from old and young CBA/HT6J mice. Spleen cells from old mice (23 to 33 months) responded about half as well as did spleen cells from young mice (4 to 10 months) in the adoptive transfer anti-sheep red blood cell (SRBC) plague-forming assay, and caused slightly less than half the uptake of tritiated thymidine in response to phytohemagglutinin (PHA) in vitro. Marrow stem cell from some of the old and young mice whose splenic immune responses were tested were transplanted into irradiated young CBA/CaJ recipients. Seven to 17 weeks later these same immune responses were tested in the spleen cells of these young recipients, and the T6 chromosome marker was used to identify donor cells. Old animals' responses varied greatly, perhaps due to suppressing cells or factors in some individuals. Therefore, cells were never pooled and the responses of receipients were compared to the responses of the donor whose marrow had populated them. The response for a particular old donor, or for the recipients of its stem cells, was divided by the response for the young control used with that donor, or for its stem cell recipients. This was called the old/young ratio. With original donors with an old/young ratio for the SRBC response of (mean +/- S.D.) 0.35 +/- 0.14, The old/young ratio for that same response in the recipients was significantly improved to 1.26 +/- 0.71. In original donors with an old/young ratio for the PHA response of 0.44 +/- 0.17, the old/young ratio in the recipients improved significantly to 0.86 +/- 0.27. Thus, little or none of the decline with age in these immune responses was intrinsic to the old lymphoid stem cells.     

Influence of the recipient's age on the effect of transplanting lymphoid organs from newborn donors

The development of immunological capacity of newborn thymus and spleen grafted under the kidney capsule of different-age recipients was investigated. The grafts functions appear to depend strongly upon the macroenvironment of the organism where their development occurs. Therefore+ the favourable influence of young environmental factors, gradually decreasing with the recipient age to become immunosuppressive in old animals is obtained. These data indicate a predominant significance of the macroenvironmental factors both in maturation of the immune system and its alteration during aging.     

Effect of the transplantation of heterochronic thymus on the development of immunological reactivity in CBA mice. 2. Transplantation to intact animals

The effect of transplantation of thymus from donors of different age on the immune system development was studied in the newborn CBA mice. The thymuses of 22 month and 5 day old donors were shown to exert different effects: accelerated (early attainment of the plateau) and decelerated (late attainment of the peak) maturation of the immune system in the recipients. This fact is discussed with respect to interaction of transplanted and host thymuses.     

Dose response kinetics of CD8 lymphocytes from young animals transfused into old animals and challenged with influenza

Transfusion of autologous leukocytes after prolonged storage has been proposed as a means of rejuvenating the immune system of older individuals. The rationale for this approach is that age related immune decline is associated with a diminished pool of naïve T cells following atrophy of the thymus and reduction in thymic output. The presence of high levels of naïve T cells within the blood of young individuals could provide a boost to the immune system of an older “self” through a rejuvenation of the naïve T cell pool. However what remains unresolved is whether the cells could be incorporated effectively into the T cell pool of the host and whether effectors could be generated. Using CD45 congenic mice in our experiments we show that the transfusion of young donor cells into older congenic host animals leads to their successful incorporation into the peripheral T cell pool. When the recipients were challenged with influenza virus, specific effector CD8 cells were generated which were of both host and donor origin. We found no relationship between the number of responder cells of donor origin at the time of assay and the number of cells injected.     

Immune tolerance to a defined heterologous antigen after intrasplenic hepatocyte transplantation: implications for gene therapy.

Development of a host immune response against gene products expressed by genetically modified cells could be a serious limitation for gene therapy. During examination of whether site-specific differences in antigen presentation could regulate the host immune response, we observed an absence of antibodies against hepatitis B virus surface antigen (HBsAg) when HBsAg producing transgenic hepatocytes were transplanted into the spleen. Intrasplenic transplantation resulted in translocation of a large number of cells into the portal vascular bed and liver sinusoids. In these recipients, HBsAg secreted by the transplanted hepatocytes circulated indefinitely in the blood. In contrast, subcutaneous or intraperitoneal transplantation of the transgenic hepatocytes induced an anti-HBs response, followed by clearance of serum HBsAg. Rechallenge with HBsAg in a highly immunogenic form failed to break the tolerance in intrasplenic hepatocyte recipients even though these animals responded to another antigen (keyhole limpet hemocyanin). Immunization with HBsAg in intraperitoneal recipients of HBsAg producing hepatocytes further elevated anti-HBs titers. Our results indicate that hepatocyte transplantation into the portal vascular bed via injection into the spleen can confer immune tolerance to secreted heterologous antigens. This finding should have important implications for human gene therapy as well as for analyzing the mechanisms of immune tolerance.     

A Study of the Regenerative Potential of Bone Marrow Cells of Donor Mice that Carry the <Emphasis Type="Italic">egfp</Emphasis> Gene in Irradiated Mice

A study of the regenerative potential of bone marrow cells of donor mice that express the enhanced green fluorescent protein was conducted in mice irradiated at a dose of 7 Gy. Expression of this protein allowed us to carry out monitoring of the presence of donor cells in recipient blood over the entire lifespan of the recipient. The lifespan of young recipients increased by 93% after transplantation; for old recipients it increased by 15%. Total acceptance of the bone marrow, spleen, thymus, and blood of the recipient with donor bone marrow cells was demonstrated over the entire life of the recipient. Only the donor colonies were detected with the studied irradiation dose and number of transplanted cells (11.7 ± 0.4) · 10⁶ on the spleen surface. The percentage of bone marrow and spleen cells that expressed the CD117 and CD34 stem cell markers in the recipient mice was above the control level for a long period of time after the irradiation. More than half of the cells with CD117, CD34, CD90.2, and CD45R/B220 phenotypes in the studied organs were donor cells. Further detailed study of the peculiarities of the engraftment of bone marrow cells, both without preliminary treatment of recipients and after the effects of extreme factors, will allow improvement of the methods of cell therapy.     

Effect of age of mouse recipients on the functional activity of transplanted hematopoietic and lymphoid cells]

When transplanting the bone marrow cells from adult C57BL mice to the lethally irradiated (CBA X C57BL) F1 hybrids of different age, the decrease of the colony forming activity of the stem haemopoietic cells was observed in the spleen of the older recipients, as compared with the 3 months old ones. The joint transplantation of the bone marrow and thymus cells resulted in both the cases in the stimulation of the growth of colonies. The number of endogenous colonies of haemopoietic cells arising in the spleen of animals following the sublethal irradiation was greater in younger hybrids. After the induction of the "transplant versus host" reaction by the lymph node or spleen cells from the CBA mice, the relative weight of spleen and regional lymph node, respectively, in the older recipients exceeded those in the younger ones.     

Studies on the maturation of immune responsiveness in the mouse. II. Role of the spleen.

Experiments were designed to investigate the role of the spleen in the development of the murine immune system. By using mice splenectomized within 24 hr of birth, as well as mice with a hereditary, congenital absence of the spleen, the primary immune response to sheep erythrocytes was examined. The immunocompetence of lymph node cells from spleenless or control mice was assessed in vitro, in organ and in cell suspension cultures, and in vivo, by transfer into lethally irradiated syngeneic recipients followed by antigenic stimulation. The immunologic capacities of thymus and bone marrow cells were similarly tested by injection separately or in combination into irradiated syngeneic mice. Lymph node cells from spleenless animals appeared fully competent both in vitro and in transfer experiments. Neither neonatal splenectomy nor congenital absence of the spleen significantly reduced the capacity of bone marrow or thymus cells to participate in the immune response to sheep erythrocytes.     

Effects of marrow donor and recipient age on immune responses

This report describes treatments to restore diminished splenic immune responses of old mice. Lethal irradiation, followed by young bone marrow and infant thymus transplants, restored the T cell mitogen response and the antibody-forming cell response against sheep red blood cells in the old mice. Although old bone marrow cells restore these immune responses in young recipients, as well as do young bone marrow cells, old bone marrow in old recipients did not improve their levels of response. Longevities of old recipients with rejuvenated responses were not increased, and aging of tail tendon collagen was not affected. The effect of lethal irradiation before the marrow transplant was shown to be minimal, by the use of unirradiated old W-anemic recipients. Parabiosing young mice with old partners caused impairment of these two immune responses in the young partners without enhancing them in the old partners. The old partners did not have increased longevities. To explain these results, we suggest the following hypothesis: old bone marrow contains precursors that produce suppressive factors or cells when in an old environment but not when in a young environment. However, these factors, if allowed to develop in an old environment, can function in a young parabiosed partner.     

The NPY effects on murine leukocyte adherence and chemotaxis change with age. Adherent cell implication

The two-way communication between the nervous and immune system is currently well-known, but the age-related changes in this communication have been scarcely studied. In the present work, we have investigated the in vitro effects of neuropeptide Y (NPY) at concentrations ranging from 10(-13) to 10(-7) M on the adherence and chemotaxis capacities of spleen, axillary node, thymus and peritoneum leukocytes from BALB/c mice. The NPY effect on these functions was examined on cells from animals of four different ages, i.e. young (12+/-2 weeks old), adult (24+/-2 weeks old), mature (50+/-2 weeks old) and old (72+/-2 weeks old). In young animals, NPY stimulates the adherence of leukocytes from spleen, axillary nodes and thymus and inhibits it in cells from peritoneum. In adult animals NPY inhibits the adherence of leukocytes from thymus. These effects disappear with ageing in all locations. Chemotaxis is stimulated by this neuropeptide at all ages in cells from axillary nodes and peritoneum, but this effect is absent in old mice. NPY exerts an inhibitory effect on the chemotaxis of leukocytes from thymus at all ages studied. These NPY effects on leukocytes seem to be carried out through adherent cells.     

Effect of age on the capacity of the bone marrow and the spleen cells to generate B lymphocytes

The effect of age on the regeneration of the B cell population was studied by cell transfer methods, using the allotype-congenic mouse strains BALB/c (Igha) and C.B-17 (Ighb) as donors of old and young bone marrow (BM) and spleen cells, and C.AL-20 (Igho) as recipients. This design allowed us to identify the origin of the sIgD+ B cells present in the recipients. It was found that in a simple cell transfer, BM cells or spleen cells of aged donors could reconstitute the peripheral B cell population of irradiated, thymectomized recipients essentially as effectively as could BM or spleen cells from young donors. However, when BM cells from aged donors and from young donors were mixed and were used to reconstitute a single recipient, the cells from the aged donor were less efficient than were the cells from the young donor. We found that sIgD+ B cells of young donor origin predominated in the peripheral B cell population of the recipient at 3 to 6 wk after cell transfer. In the BM of the recipients, however, there was no difference in the incidence of sIgD+ B cells derived from the young and the old donors. When recipients were reconstituted with a mixture of spleen cells from old and young mice, the sIgD+ cells of young donor allotype showed a tendency to predominate in the peripheral B cell population, although this predominance was not statistically significant. Under such competitive conditions, the spleen cells of aged donors were less efficient than the BM of aged donors in reconstituting the sIgD+ B cell population of the recipient's BM, but were more efficient in reconstituting the splenic sIgD+ cells. Thus, a subtle defect in the B cell precursor population of the BM and the spleen of aged mice has been demonstrated. The role of T cells in the generation of sIgD+ cells was also analyzed.     

Suppressive effect of normal lymphoid cells on manifestations of immunologic memory

The authors studied the influence of the cells of normal lymphoid organs on the level of immunological response in the recipients of splenic cells from the suppressed animals. The organ cells were mixed with the suppressed ones and were administered to the recipients together with the reimmunizing dose of the antigen. Cells of the spleen, of the lymph nodes, the thymus or of the bone marrow suppressed the capacity of the memory cells to the realization of the immunological response to sheep red blood cells and egg albumin. The spleen cells of one and a half month old mice were more active than the cells of young or old animals. The suppressor activity persisted after the administration to donors of various doses of cortisone or heating of the cells transferred at 56 degrees C. Treatment with T-antiserum or heating at 80 degrees C led to reduction of the suppressor action of normal cells.     

Formation of an IgM and an IgG immune response depending on the redistribution of T- and B-subpopulations under the action of serotonin]

The syngeneic transfer of spleen cells or spleen and lymph node cells from donors with an elevated serotonin level stimulated, in comparison with the control animals, immune response in the recipients subjected to sublethal irradiation, which was manifested by an increase in the number of plaque-forming and rosette-forming cells. After the combined transfer of spleen cells and bone marrow cells from similar animals a decrease in the number of plaque-forming and rosette-forming cells was observed, while after the transfer of spleen and thymus cells the intensity of immune response remained unchanged. Serotonin was supposed to induce the redistribution of T and B cells in the non-immunized animals, so that suppressor cells migrated from the spleen and the lymph nodes to the bone marrow.     

Fate of donor cells in vascularized bone grafts: identification of systemic chimerism by the polymerase chain reaction

Systemic chimerism, or the movement of cells from a transplanted tissue into host organs, is a phenomenon known to occur in association with development of immunological tolerance in allotransplantation. However, little is known about the fate and movement of cells into or out of autogenous free tissue transfers, including vascularized bone grafts. The purpose of this study was to identify systemic chimerism in vascularized bone grafts by transplantation of a vascularized tibiofibular graft from isogenous (inbred) male Lewis rats to female recipients. Donor (male) cells could be identified in the recipient (female) tissues by semiquantitative polymerase chain reaction analysis for a Y chromosome-specific DNA sequence. Chimerism was assessed at 1, 12, 18, and 24 weeks after transplantation. Competitive polymerase chain reaction study using the specific primers for a Y-chromosome marker ( gene) and an autosomal gene (GAPDH) allowed detection of small amounts of male cells in a large pool of female cells and measurement of their relative proportions as a function of time. Of 19 nonimmunosuppressed recipients, nine animals (47 percent) showed low-level chimerism (<0.1 percent) in the peripheral blood. Nine (47 percent), three (16 percent), and two (11 percent) recipients showed high-level chimerism (>1 percent) in the spleen, liver, and thymus, respectively, at final assessment. Donor cells were detected in all bone grafts and in six contralateral tibial bones (i.e., 67 percent of sampled contralateral tibial bones) at 18 and 24 weeks after transplantation. Twenty-four recipients were immunosuppressed with FK506 (tacrolimus) to suppress reaction to a minor histocompatibility barrier present on the Y chromosome. In this group, 14 animals (58 percent) showed low-level chimerism in peripheral blood and 12 (50 percent), eight (33 percent), and one (4 percent) recipients showed high-level chimerism in the spleen, thymus, and liver, respectively. Transplanted cells were detected in nine contralateral tibial bones (i.e., 60 percent of sampled contralateral tibial bones) at 12 and 18 weeks after surgery. The results indicate that polymerase chain reaction for the Y chromosome is a useful tool for differentiating between donor and recipient cell populations experimentally using sex-mismatched tissues in a rat model. This study demonstrated that systemic chimerism occurs after successful vascularized bone transplantation. Transplanted cells not only survive in the graft but also gradually migrate into the recipient's body.     

Lower number of atrial natriuretic peptide receptors in thymocytes and spleen cells of spontaneously hypertensive rats

Spontaneously hypertensive rats (SHR) have a much lower number of atrial natriuretic peptide (ANP) receptors in thymus and spleen from young and adult animals than age-matched normotensive controls. In spite of this low receptor concentration, the ANP-stimulated cyclic GMP response in isolated thymocytes and spleen cells from SHR was similar to that of normotensive control rats. Alterations in ANP receptor concentration in thymus and spleen of SHR may be related to the immune abnormalities described in these animals, and to the pathophysiology of genetic hypertension.     

Migration of peripheral T and B cells into the thymus of aging (NZB × SJL)F1 female mice

Aging NZB × SJL (NS) female mice provide a unique model of thymopathology characterized by the intrathymic accumulation of large numbers of mature T and B cells. The purpose of the present work was to examine the possibility that this phenomenon results from the invasion of the thymus by cells from the periphery. Lymphoid cells labeled with chromium-51 or indium-111 were injected into syngeneic recipients to study their patterns of in vivo migration. Lymph node (LN) or spleen cells were found to localize significantly (1–2% of injected radioactivity) into the thymus of 12-month-old NS females but not into that of young recipients or of old NS males. However, intrathymic localization of injected LN cells was observed in castrated NS males which exhibit the same thymopathology as NS females. Both radiolabeled T and B cells were found to enter the thymus of aged NS females but the latter cells about three times less efficiently than the former. Moreover, while thymocytes from young NS females were unable to recirculate to LN, those of old NS females showed increased LN-seeking capacity and part (1%) of them did migrate back into the thymus of old but not young NS females. In additional cell transfer experiments, the intrathymic migration of B cells into old NS females was further documented by using the antibody response to sheep erythrocytes as a tracer. Taken together, these observations indicate that the thymus of aging NS female mice is permeable to recirculating lymphocytes, suggesting that at least part of the mature T and B cells detected in this thymus, are migrants from the periphery.     

Mechanism of the intensification of the immune response to Staphylococcus in mice after the transplantation of primed donor splenocytes

Experiments on CBA, C57Bl/6 mice and (CBA X X C57Bl/6)F1 hybrids were made to study the mechanism of stimulation of the immune response to staphylococci after injection of primed splenocytes. The stimulating action of immune splenocytes was reversed after their in-vitro treatment with anti-immunoglobulin serum and complement. The stimulant effect was also seen in a semi-allogeneic system (adoptive transfer of CBA mice immune cells to (CBA X C57Bl/6)F1 recipients). Preincubation of splenocytes with CBA-anti-C57Bl/6-serum and complement prior to demonstration of antibody-forming cells did not influence their number in the spleen of hybrid recipients injected with immune cells carrying parent genotype but decreased this indicator of the immune response in control mice. It is concluded that stimulation of the immune response to staphylococci after transplantation of primed splenocytes is due to the anamnestic response of donor's cells repeatedly stimulated by antigen in the recipient's host.     

Regulation of antigen induced changes in cyclic nucleotide levels in NZB/wf1 mice.

Normal C57BL/6J mice respond to the iv injection of antigen with an increase in splenic cAMP at 2 min. NZB/WF₁ mice are predisposed to autoimmune and immunological disorders upon aging. The ability of NZB/WF₁ mice to respond to antigen with an increase in their splenic cAMP level was found to diminish with age. This loss of responsiveness is antigen specific and not due to a loss of adenylate cyclase activity in spleen cells of old NZB/WF₁ mice. The adoptive transfer of spleen cells from unresponsive old mice into responder young mice inhibited the cAMP response to antigen by the recipients. Spleen cells from young responsive mice, on transfer into old nonresponsive NZB/WF₁ recipients, resulted in restoration of the cAMP response to antigen. In both cases, the activity of donor cells was dependent on the transfer of T cells. These results indicate that populations of T cells participate in the regulation of the cAMP response to antigen by NZB/WF₁ mice. The response of old mice could also be restored by treatment with indomethacin, and also the spleen cells of such treated donors failed to suppress the cAMP response of young recipients. Together, the results suggest a role for prostaglandins in regulating the cAMP response to antigen.     

Induction of transplantation tolerance in guinea pigs by spleen allografts. II. Responses in the mixed leukocyte reaction correlate with the tolerant state

We have developed a model for the induction of transplantation tolerance in the guinea pig by vascularized spleen allografts. Spleen allografts from strain 13 to strain 2 hosts frequently survived in healthy recipients without clinical GVHD or induced clinical GVHD. (2 x 13)F1 to strain 2 spleen allografts survived indefinitely without inducing GVHD. In contrast, strain 2 spleen allografts were rejected by strain 13 hosts. An excellent correlation was observed between the clinical course and the degree of reactivity to donor strain stimulator cells in the MLR. Animals that had rejected their grafts had normal or enhanced proliferative responses in the MLR. Strain 2 hosts with long-term surviving strain 13 or (2 x 13)F1 grafts had markedly suppressed anti-13 responses. Animals with GVHD had a suppressed MLR toward donor strain stimulator cells with simultaneous reactivity to host strain stimulator cells. Cells capable of suppressing the response of normal host strain cells to donor strain stimulators were present in some long-term surviving animals and may be responsible in part for the maintenance of the tolerant state.