Some endocrine aspects of the thymus gland.

In studies of the mouse thymus, lymphocyte mitoses are seen to be most frequent in the thymus cortex. There is evidence from thymic grafts that a hypothetical factor, thymopoietin, may stimulate mitosis of thymic lymphocytes. It is a factor which is postulated to act in conjunction with the PAS-positive mesenchymal reticular cells and epithelial reticular cells of the cortex. The thymus medulla is necessary for the integrity of thymic grafts, and may also elaborate a secretion for maintaining the cellular functions of the gland. Thymectomy has been used as a gauge for judging normal thymic function and results, in the mouse, in lymphopenia, degeneration of spleen and lymph nodes, delayed rejection of skin allografts, reduced ability of spleen cells to mount the graft versus host reaction, and reduced primary immune response to certain antigens. Correction of these deficiencies offers a means of evaluating various thymic extracts and grafts. Lymphocytosis-stimulating hormone (LSH) is known to maintain the peripheral lymphoid organs and cause lymphocytosis in the thymectomized animal. Diffusion chamber studies of thymic grafts also show restored lymphoid tissue by a cell-free factor (CIF). These two factors may be the same and probably represent the basis of the highly purified lymphocyte-stimulating proteins, LSHr and LSHh, which restore the L/P ratio in thymectomized animals and may stimulate lymphopoiesis in spleen and lymph nodes. LSHr, unlike LSHh, increases the total lymphocyte count. LSHr has been found to increase the humoral antibody response in neonatal mice both by the PFC technique and by direct hemolysis of sheep erythrocytes. Homeostatic thymic hormone (HTH) is a thymic extract of small molecular weight and contains nucleic acid. In the thymectomized guinea pig it has been found to maintain normal levels of lymphocytes in the blood, spleen and lymph nodes, to restore antibody titers to typhoid H antigen and to restore the toxic allergic reaction. Thymic humoral factor (THF) is of smaller molecular weight (less than 1,000) and probably is not a protein. It also enhances lymphoid proliferation in neonatally thymectomized mice. There is evidence that THF participates in humoral antibody formation because it stimulates PFC formation from neonatally thymectomized mice after inoculation with sheep erythrocytes. Its effects on cell-mediated immunity are seen from findings that injection of THF restores the ability of thymectomized mice to reject skin allografts. THF enables spleen cells from thymectomized or neonatal animals to mount the graft versus host reaction, and causes maturation of bone marrow cells and spleen or lymph node cells so that they can participate in the graft versus host reaction. It has been reported to stimulate lymphocytes to kill isogeneic tumor cells in vitro. Thymosin is protein extracted from the thymus. It has been found to alleviate leukopenia slightly and provide some improvement in lymphoid histology in thymectomized mice...     

Lymphoid organ development in Xenopus thymectomized at eight days of age

This paper examines the effect of early thymectomy on the subsequent development of lymphoid tissues in the toad, Xenopus laevis. At the time of thymic removal (8 days post-fertilization) all the lymphoid organ anlagen are at a rudimentary state of differentiation and contain few, if any, small lymphocytes. Despite the absence of any thymic tissue all thymectomized animals grew normally. Thymectomized larvae developed relatively normal lymphoid organs. However, lymphoid depletion was apparent in the splenic red pulp and in the pharyngeal ventral cavity bodies. Examination of the lymphoid organs of post-metamorphic Xenopus revealed reduction in spleen size following thymectomy. Lymphoid depletion was evident in the splenic red pulp of many thymectomized toadlets and reduction in proportion of white to red pulp was also noted in a few of these animals. Absence of the thymus had no apparent effect on the histology of the other lymphoid organs examined.     

Thymic modulation of IL-2 and IL-4 synthesis by peripheral T cells

In this paper we provide several lines of evidence to support the hypothesis that the thymus can exert regulatory influences on the functional capabilities of mature recirculating T cells. Our studies demonstrate that while the IL-2-producing potential of T cells that repopulate the secondary lymphoid organs of lethally irradiated and stem cell-reconstituted mice is significantly reduced compared to that of T cells harvested from normal mice, the amount of IL-4 produced by the T cells of these experimental animals is equivalent to, or greater than, the amount produced by T cells from control animals. In addition, we determined that the amount of biologically active IL-2 and IL-4 secreted by T cells harvested from lethally irradiated animals who reconstitute their hematopoietic and immune systems under the influence of nonirradiated thymic epithelial grafts is essentially identical to the amount produced by T cells harvested from nonirradiated control animals. Collectively, these findings suggest that: (1) the alterations observed in the lymphokine-producing potential of T cells harvested from lethally irradiated and stem cell-reconstituted mice is not due to a direct effect of ionizing radiation on the T lymphocytes themselves, and (2) the exposure of the epithelial cells of the thymus to ionizing radiation during marrow-ablative regimens abrogates or modifies a component of thymic function which can influence the lymphokine-secreting potential of recirculating T cells. Further evidence for thymic involvement in the regulation of lymphokine production by peripheral T cells comes from our finding of a post-thymectomy time-dependent reduction in the capacity of T cells from animals to produce IL-2. Coincident with this reduction, T cells harvested from peripheral lymphoid organs of thymectomized animals demonstrated an augmentation in their IL-4-producing capabilities. The finding that treatment of thymectomized animals with the androgen steroid hormone dehydroepiandrosterone reestablished a normal IL-2-producing potential by their T cells makes it unlikely that the reduced capacity to produce IL-2 was secondary to a loss in fresh thymic emigrants.     

Production of anti-thymulin (FTS) monoclonal antibodies by immunization against human thymic epithelial cells

A monoclonal antibody specific for thymulin (FTS), a thymic hormone initially isolated from serum, was obtained by cell fusion using spleen cells from BALB/c mice immunized with cultured human thymic epithelial cells. Hybridomas were selected according to their capacity to produce antibodies binding specifically to thymic epithelial cells in culture (as assessed by indirect immunofluorescence) and their ability to absorb in vitro the biological activity of synthetic and natural hormone preparations and to induce in vivo the disappearance of endogenous circulating thymulin. In this way monoclonal antibodies were obtained that recognized a subpopulation of nonlymphoid cells on frozen sections of mouse and human thymuses. The epithelial nature of these cells was assessed using an antikeratin antiserum. The binding of the antibodies to thymic cells was completely abolished by its absorption with the synthetic hormone or normal (but not of thymectomized) mouse serum. The thymic specificity of the antibody was further confirmed by the complete absence of binding to sections of all the various lymphoid and epithelial organs examined (from both humans and mice). Double labeling experiments using the monoclonal antibody described above and a monoclonal antibody prepared by immunization with the synthetic peptide showed that the two antibodies bound to the same cell. These results provide further evidence for the exclusive presence of the thymic hormone thymulin in thymic epithelial cells.     

Immunochemical identification and study of an interspecific thymus antigen (AgT-1)

A new interspecific human and animal thymic antigen (AgT-1) was identified immunochemically. It was shown that AgT-1 is a protein with a molecular mass about 40000 dalton, electrophoretic mobility of alpha 1-globulins and isoelectric points 4.0 and 4.5. Heating of the protein to 80 degrees C led to the loss of its immunochemical activity. Antisera to AgT-1 were obtained by immunization of rabbits by conjugated extract of bovine thymus in complete Freund's adjuvant. AgT-1 was identified immunochemically in bovine embryonal thymus, spleen and liver. In addition to these organs, AgT-1 was discovered in lung extracts of adult animals. Identical antigen was identified in the embryonal thymus and extracts of human small intestine. AgT-1 antibodies inhibited the biological activity of the active thymic fraction (AFT-6) in recovering the sensitivity of spleen fRFC from thymectomized mice to the inhibitory action of azathioprin. The data indicate that the biological activity of AFT-6 is partly due to the molecules having antigenic determinants of AgT-1.     

Production of substances with thymosin-like activity by B- and T-lymphocytes

The authors investigated the ability of various lymphocyte subpopulations to synthesize substances with thymosin-like activity under the influence of thymostimulin, a preparation of active thymic factors. Experiments carried out on T- and B-mice revealed that only T-lymphocytes synthesized thymosin-like substances in response to thymostimulin administration. Thus induced substances differed significantly from those which ensure the serum activity of normal animals in that their thermostability is by far greater. The feasibility was also explored of inducing by thymosin the in vitro synthesis of substances with thymosin-like activity in cells derived from a variety of lymphoid formations of thymectomized mice. The serum of thymectomized lethally irradiated recipients of lymph node and spleen cells pretreated with thymostimulin was found to contain, 4 h after the transfer, relatively high levels of substances with thymosin-like activity. Contrariwise, the pretreatment of bone marrow cells with thymostimulin resulted in declined levels of substances with thymosin-like activity in recipient sera as compared to those in B-mice which were given untreated bone marrow cells. The incubation of bone marrow cells in a medium containing substances with thymosin-like activity caused a decrease in that activity. Thus, the biologically active thymic factors were shown to induce the synthesis by T-cells of substances with thymosin-like activity.     

Neuroendocrine regulation of thymus hormones: hypothalamic dependence of "facteur thymique serique" level

The influence of the hypothalamus extract (HE) on the blood level of the "facteur thymique serique" (FTS) was studied. Hypothalami collected from young mice were pooled, homogenated in saline, and centrifuged; finally, the supernatant injected in old or thymectomized mice with no detectable levels of FTS. In the old mice the treatment results in a reappearance of this circulating thymic hormone; in contrast, in adult thymectomized animals, the HE injection was not able to induce FTS activity. When HE donors were pretreated with thymosin fraction 3, known to contain FTS among other active peptides, the capacity of such a hypothalamus preparation to induce reappearance of FTS in old animals is greatly diminished. The data presented here suggest that the capacity of the thymus to secrete FTS depends on a hypothalamic factor, and therefore the absence of this thymic hormone in the aged reflects a failure of the thymus linked to its impaired neurologic control. On the other hand it seems evident that a feedback system operates in order to regulate the release of this hypothalamus stimulatory factor.     

Anti-immunoglobulin stimulation of murine lymphocytes. III. Enhancement of the development of responsive B cells by thymic deprivation.

The development of splenic B cells that can be induced to proliferate by soluble anti-immunoglobulin (anti-Ig) reagents requires 7 to 9 months in normal mice. We have found that this age-associated response is enhanced by thymic deprivation. Both neonatally thymectomized LAF₁ mice and thymectomized, lethally irradiated, and bone marrow-restored Balb/c mice respond earlier and more strongly to anti-Ig than their sham controls. Nevertheless, at least 3–4 months are still required after thymectomy before a response can be measured. The earlier and enhanced response to anti-Ig seen in thymectomized animals is not due simply to an increase in the total number of Ig-positive spleen cells. The age-associated response of splenic B cells to anti-Ig we have observed in normal mice may be explained by the “natural” loss of thymic influence that occurs with age.     

The proliferative potential of CFUs from the bone marrow of thymectomized mice]

Proliferative potential of CFUs in bone marrow of young and adult mice (1.5-25 months) and thymus influence on this property were studied. It has been shown on the model of adult thymectomized mice that during "steady state" hematopoiesis, proliferative potential of bone marrow CFUs does not depend on the animals age and on thymic factors.     

Thymic transplantation across an MHC class I barrier in swine.

Thymic tissue transplantation has been performed previously in adult mice to induce donor-specific tolerance across allogeneic and xenogeneic barriers. We have now attempted to extend this technique to a large animal preclinical model and describe here our initial studies of allogeneic thymic transplantation in miniature swine. Two miniature swine were thymectomized before thymic tissue transplantation, and two remained euthymic. Donor thymic tissue was harvested from SLA class I-mismatched juvenile pigs and placed into recipient sternocephalicus muscle, kidney capsule, and omentum. A 12-day course of cyclosporin A was started on the day of transplantation. Allogeneic thymic engraftment could only be achieved in euthymic and not in thymectomized miniature swine using this treatment regimen. Both nonthymectomized animals showed good graft development, with evidence of thymopoiesis, as indicated by positive CD1 and host-type SLA class I immunoperoxidase staining of immature graft-infiltrating cells. Both animals also demonstrated donor-specific T cell hyporesponsiveness, as measured by MLR and cell-mediated lympholysis. The thymic grafts continued to develop despite the appearance of high levels of anti-donor specific cytotoxic IgG Abs. Thus, thymic tissue transplanted across an SLA class I barrier can engraft and support host thymopoiesis in euthymic miniature swine. The presence of the host thymus was required for engraftment. These data support the potential of thymic transplantation as part of a regimen to induce donor-specific tolerance to xenogeneic organ grafts.     

Respective influence of extrinsic and intrinsic factors on the age-related decrease of thymic secretion.

The serum level of a circulating thymic factor (FTS) described in our laboratory diminishes in mice after adult thymectomy and with age. However, thymuses from old mice, when grafted into young adult thymectomized recipients lacking circulating FTS, can still partially restore the circulating FTS level of the recipients, whereas newborn thymuses are less efficient in restoring the serum level of FTS in old recipients than in young adult thymectomized recipients. Taken together, our results suggests that in addition to an intrinsic deficiency of the thymic secretion, "environmental" factors play a role in the disappearance of circulating FTS with age, the more so since we observed in old mouse sera factors inhibiting the in vitro biologic activity of FTS, factors that are absent from young mouse sera.     

In vivo regulation of the mandibular organ in the edible crab, Cancer pagurus

Considerable evidence indicates that methyl farnesoate (MF) production by the crustacean mandibular organs is negatively regulated by neuropeptides from the sinus gland (SG) in the eyestalk. In the crab Cancer pagurus, two neuropeptides (MO-IH-1 and -2) have been isolated from the SG that inhibit MF synthesis by mandibular organs of female crabs in vitro. To test their activity in vivo, we treated eyestalk-ablated male crabs with SG extracts (SGEs) or MO-IH-1 and -2. SGEs reduced haemolymph levels of MF by 60-80%, while MO-IH-1 and -2 had little effect. Protease treatment of SGEs destroyed the in vivo activity, suggesting that the extract contains an additional peptide responsible for the in vivo activity. When separated by reversed-phase high performance liquid chromatography (HPLC), the in vivo activity eluted in fractions prior to MO-IH-1 and -2. When mandibular organs were removed from animals previously treated in vivo with these active fractions, they had reduced levels of MF synthesis and activity of farnesoic acid O-methyl transferase compared with mandibular organs from animals treated with saline. Together, these results indicate that the regulation of the crustacean mandibular organ is complex and may involve several SG compounds. Some of these compounds (i.e., MO-IH-1 and -2) act directly on the tissue while others affect the mandibular organ indirectly.     

Thymic transplantation in miniature swine. II. Induction of tolerance by transplantation of composite thymokidneys to thymectomized recipients

Previous studies in our laboratory have demonstrated that the presence of the thymus is essential for rapid and stable tolerance induction in allotransplant models. We now report an attempt to induce tolerance to kidney allografts by transplanting donor thymic grafts simultaneously with the kidney in thymectomized recipients. Recipients were thymectomized 3 wk before receiving an organ and/or tissues from a class I-mismatched donor. Recipients received 1) a kidney allograft alone, 2) a composite allogeneic thymokidney (kidney with vascularized autologous thymic tissue under its capsule), or 3) separate kidney and thymic grafts from the same donor. All recipients received a 12-day course of cyclosporine. Thymectomized animals receiving a kidney allograft alone or receiving separate thymic and kidney grafts had unstable renal function due to severe rejection with the persistence of anti-donor cytotoxic T cell reactivity. In contrast, recipients of composite thymokidney grafts had stable renal function with no evidence of rejection histologically and donor-specific unresponsiveness. By postoperative day 14, the thymic tissue in the thymokidney contained recipient-type dendritic cells. By postoperative day 60, recipient-type class I positive thymocytes appeared in the thymic medulla, indicating thymopoiesis. T cells were both recipient and donor MHC-restricted. These data demonstrate that the presence of vascularized-donor thymic tissue induces rapid and stable tolerance to class I-disparate kidney allografts in thymectomized recipients. To our knowledge, this is the first evidence of functional vascularized thymic grafts permitting transplantation tolerance to be induced in a large animal model.     

Effects of an antiserum for epithelial-reticular cells of the thymus on T-dependent immune response

Relations between thymic factors and Prostaglandins (PG) were studied. We investigated on the effects of different incubation times with Thymosin Fraction 5 and Indomethacin on the release by spleen cells from normal or adult thymectomized mice. Prostaglandins were measured by radioimmunoassay. Thymosin induces an increase in PGE2 release on spleen cells obtained from thymectomized mice; the same effect was not observed on spleen cells obtained from normal mice.     

Bacterial translocation from the gastrointestinal tracts of thymectomized mice

The incidence of translocation of viable indigenous bacteria from the gastrointestinal tract to the mesenteric lymph node, spleen, liver, and kidney was compared in neonatally thymectomized mice and sham-thymectomized specific pathogen-free mice. The immunologic responses of the thymectomized mice to sheep erythrocytes were decreased compared to the responses of sham-thymectomized mice. Strictly anaerobic bacteria were isolated from only 1.8% of the organs from thymectomized mice and from none of the organs of shamthymectomized mice. Aerobic or facultatively anaerobic bacteria were cultured from 27.4% of the organs of thymectomized mice. Of the thymectomized mice, 70.7% contained viable aerobic or facultatively anaerobic bacteria in one or more of their organs tested, compared with only 10% of the sham-thymectomized mice.Escherichia coli was the predominant bacterial species isolated from these organs, althoughStaphylococcus aureus, Streptococcus, andCorynebacterium also were present.Bacteroides were the only strictly anaerobic bacteria cultured. Neonatal thymectomy promotes the translocation of certain indigenous bacteria from the gastrointestinal tract to the mesenteric lymph node, spleen, liver, and kidney.     

Effect of chorionic gonadotropin on the structure and endocrine function of the thymus gland in mice

The thymic secretory function changes in the pubertal female mice under the influence of chorionic gonadotrophin (CG). The latter is activated after administration of hormone in doses, corresponding to its levels in animals in different terms of pregnancy and is depressed with doses, greatly exceeding those levels. The lack of the effect in thymectomized mice testifies to the realization of the modulating CG action at the thymus level. Changes of mass and cellularity of the thymus and spleen reflect dose-dependent alteration of the thymocyte migration rate.     

Regulation of cholesterol synthesis in the liver and mammary gland of the lactating rat.

The activity of 3-hydroxy-3-methylglutaryl-CoA reductase (HMG-CoA reductase; EC 1.1.1.34) in the lactating mammary gland of rats killed between 10:00 and 14:30 h was 2-3 times that in the livers of the same animals. In contrast, after injection of 3H2O in vivo, the rate of appearance of 3H in the cholesterol of the gland was much lower than that in the liver. In the mammary gland of virgin and non-lactating animals, the activity of HMG-CoA reductase was less than 10% of that of the lactating gland. The activity of HMG-CoA reductase in the lactating mammary gland was significantly (P less than 0.005) lower at midnight than at mid-day, and appeared to show an inverse relationship to the activity of the liver enzyme. However, there was no corresponding change in the incorporation of 3H into the gland cholesterol. Withdrawal of food for 6h had no effect on the activity of HMG-CoA reductase in the lactating mammary gland, but resulted in a significant decrease (P less than 0.005) in that of the liver. Starvation of lactating rats for 24h produced a significant decrease (P less than 0.005) in the activity of the enzyme in both organs. There was also a significant decline in the rate at which 3H2O was incorporated in vivo into the cholesterol of both organs (liver, P less than 0.05; gland, P less than 0.005). Giving a high-fat palatable diet together with chow to lactating animals led to a decline in HMG-CoA reductase activity in the mammary gland, but not in liver. This decrease in the gland was not accompanied by a corresponding decline in the apparent rate of cholesterol synthesis.     

Distribution of a novel protein AgK114 expression in the normal tissues of adult mice: dual expression of AgK114 and growth hormone in anterior pituitary cells

The novel antigen K114 (AgK114) has been previously identified in normal hamster skin, and its expression has been up-regulated accompanying tissue damages of the skin, although there is no information on its biological functions. To determine the physiological role of AgK114, we prepared anti-mouse AgK114 monoclonal antibody and studied its tissue distribution in healthy adult mice by immunocytochemistry. A widespread and unique expression of AgK114 peptide was found in the selected organs of various systems (hair follicle cells and sebaceous gland of skin, ciliated epithelial cells of trachea and bronchial tube, striated portion of submandibular gland, distal convoluted tubule cells of kidney, ciliated epithelial cells of oviduct, medulla of adrenal gland and anterior lobe of pituitary gland). Interestingly, dual expression of AgK114 peptide and growth hormone in somatotrophs was found in anterior lobe of pituitary gland by double immunocytochemistry. AgK114 peptide was expressed widely in many regionally well-defined cellular systems in various peripheral tissues, suggesting that AgK114 peptide may have some roles of physiological functions in these organs. The data from our current study have provided a rationale for further studies of functional roles of AgK114 peptide in a variety of organs or tissues under physiological conditions.     

Cutting edge: Secondary lymphoid organs are essential for maintaining the CD4, but not CD8, naive T cell pool.

Despite declining thymic output with age, the peripheral naive T cell pool of an adult animal remains remarkably stable. Therefore, a central question in immunology is how the naive T cell pool is maintained. Here we show that the maintenance of the naive CD4, but not CD8, T cell population in the thymectomized adult mouse is dependent on the presence of secondary lymphoid tissues. This finding is explained by the inability of naive CD4 T cells to sustain normal levels of the survival molecule Bcl-2 or to undergo homeostatic proliferation in the absence of secondary lymphoid organs. Thus, naive CD4 T cells must traffic through secondary lymphoid organs to maintain a stable CD4 pool while naive CD8 T cells encounter their survival and proliferation signals outside the organized structures of secondary lymphoid tissues.