Spleen and thymus lymphoid tissue in hypoxia (a biometric study)

The spleen and thymus have been studied macro- and microscopically in rats (180-200 g body mass) on the 1st, 3d, 5th, 7th, 14th and 28th days of adaptation to a decreased atmospheric pressure in the altitude chamber corresponding to lifting to 5,000 and 7,500 m (after a preliminary gradual acclimatization) and on the 14th, 28th, 42d, 56th days of readaptation. A relative mass of the organs, the white pulp section area--the transversal section area of the spleen ratio, the summation section area of its lymph nodules have been estimated. In the thymus the cortico-medullary index (CMI) has been defined. A relative mass of the spleen increases during the first week of hypoxia, and during adaptation period it somewhat decreases and stabilizes, remaining higher than in the control. At the altitude of 5,000 m the cross section area of the lymph nodules decreases by 17% on the 28th adaptation day and at the altitude of 7,500 m--by 27% beginning from the 14th up to the 28th adaptation days. In the thymus the CMI, after some decrease during the first days of hypoxia at the altitude of 5,000 m, increases and normalizes on the 28th adaptation day, and at the altitude of 7,500 m stabilizes on the 14th - 28th days of hypoxia. When the rats are at the altitudes of 5,000 and 7,500 m the thymus lymphoid tissue reacts more quickly to the hypoxia effect and much sooner normalizes during the readaptation period than does the white pulp of the spleen. The main changes in the lymphoid tissue of the spleen and thymus take place on the 7th - 28th days of hypoxia.     

STUDIES ON LYMPHOCYTES

Tritiated thymidine was administered to calves continually for 2 to 8 days via the thymic artery in an attempt to label intensively thymic lymphocytes. Heavily labeled cells which had migrated from the thymus were observed in the spleen, lymph nodes and Peyer's patches. Cell maps were made for the various lymphoid tissues and in all cases the majority of labeled thymic cells were found in the ‘thymus dependent areas’of the spleen and lymph nodes. The number of labeled thymic cells per thousand lymphocytes was highest in the ‘thymus dependent areas’. A few labeled thymic cells were seen in or near the post capillary venules. The labeling pattern in the Peyer's patches was different from that in the spleen and lymph nodes. Labeled thymic cells were not observed in the bone marrow. Heavily labeled cells were not detected in any of the lymphoid tissues of those calves which received continuous intravenous infusion of comparable amounts of tritiated thymidine.     

Ganglioside composition of normal and leukemic bovine lymphocytes

The ganglioside composition of bovine peripheral lymphocytes was shown to change sharply under lymphoid leukemia. In normal lymph, lymph nodes, spleen and blood lymphocytes the major ganglioside is N-glycolylhematoside, whereas in calf thymus lymphocytes appreciable amounts of more polar components (GM1- and GD1a-like gangliosides) were found. In leukemic lymphocytes isolated from the same tissues the hematoside content is decreased, while the amount of more polar gangliosides is increased. Possible causes of the altered ganglioside pattern in leukemic lymphocytes are discussed.     

Quantitative evaluation of the total number and distribution of lymphocytes in young pigs.

In young pigs, the spleen, thymus and all lymph nodes were dissected out and weighed. The relative content of lymphoid cells was determined from histological sections. The number of nucleated cells was evaluated by two different methods: firstly, by measuring the DNA content of samples of lymphoid tissue and dividing by the DNA content of a single nucleus; and, secondly, by counting all lymphoid cells in histological sections of defined volumes of these organs. The number of lymphoid cells in tonsils, gut, bone marrow and lung were determined using histological evaluations and the volumes or weights of these organs. The resulting average number of lymphocytes was 321 times 10 (9) for a pig of 26 kg body weight. The lymphocytes showed the following distribution in lymphoid and non-lymphoid organs: thymus 44%, spleen 9%, mesenteric lymph nodes 17%, cervical lymph nodes 9%, other peripheral lymph nodes 3%, gut-associated lymphocytes 5%, tonsils 2%, bone marrow 5%, blood 3%, lung 0.2% and an estimated figure of 3% for all other tissues.     

Effect of hypokinesia on nucleic acid and protein metabolism in the lymphoid organs of rats

Metabolism of nucleic acids and protein by lymphoid cells of the rat spleen and thymus was studied under conditions of 22-day hypokinesia. It was shown that in the course of hypokinesia the loss of cellular mass by the spleen and thymus was associated with varied biochemical changes in the remaining lymphoid cells. The thymocytes showed a significant activation of nucleic acid and protein biosynthesis. Meanwhile in spleen lymphocytes, DNA and RNA metabolism was inhibited with no appreciable changes in protein metabolism. Potential mechanisms of changes in metabolism of thymus and spleen lymphocytes under long-term hypokinesia are discussed.     

Combined reaction of the lymphoid organs and the adrenals to stress in mature animals subjected to cold in the early period of postnatal ontogeny

Structural-functional organization of the lymphoid organs and functional state of the adrenals have been studied in animals, subjected to cold in early postnatal period, as well as changes of the parameters mentioned to a short and prolonged cooling in mature rats. For the animals increase in the thymus mass and in reproduction rate of lymphocytes in the thymus, spleen and lymph nodes is specific against the background of high corticosteroid secretion. When the control animals are kept in cold for a long time, after the phase of an acute stress, accompanied with hypercorticism and a pronounced lymphatic effect, during the period of an increased cold stability, the high secretion of glucocorticoid hormones is accompanied with a certain activation of thymus-dependent zones in the peripheral lymphoid organs. In the mature rats, subjected to cold at early ontogenesis both stress-reaction to cooling and rearrangement in the regulatory systems studied does not develop at adaptation to cold.     

Changes in proliferation activity and relative distributions of lymphoid cell subpopulations in congenitally athymic nu/nu mice and lurcher mice with spontaneous olivopontocerebellar degeneration

Changes observed in mice with congenital damage of some part of the CNS-neuroendocrine-immune regulatory system are described. nu/nu mice with congenital absence of thymus and Lurcher mice with spontaneous olivopontocerebellar degeneration displayed changes in the histoarchitecture of adrenal gland, immune organs (thymus, spleen, axillar lymph nodes) and intestine. Changes were also observed in IgM+, IgG+, CD4+ and CD8+ lymphoid cell subpopulations in the main lymphoid organs--the spleen and axillar lymph nodes and in the proliferative ability of whole lymphoid cell populations. The extreme decrease of lymphoid T-cell subpopulations in athymic nu/nu mice is the consequence of the absence of thymus, the organ of their maturation. On the other hand, a relative increase of B-cell subpopulations was found in this mouse strain. A relative decrease of CD4+ lymphocytes and a different influence of immunization on B-cell subpopulations were found in the spleen in neurodeficient Lurcher mice. The high percentage of apoptotic cells, cells in the S-phase of cell cycle and increased proliferation index in nu/nu mice suggest that the turnover and renewal of lymphoid cells in the spleen in nu/nu mice is more rapid than in control immunocompetent BALB/c mice.     

Cyclic adenosine 3',5'-monophosphate response to dopamine in mouse lymphoid cells and cell lines

Cyclic adenosine 3',5'-monophosphate responses to dopamine and isoproterenol were studied in mouse and rat spleen, thymus, lymph nodes and Peyer's patches lymphocytes and in 7 mouse cell lines of T- and B-lymphoid derivation. The responses of normal cells to dopamine were moderate, of the same extent, but selective to spleen and thymus in mouse, and to spleen and lymph nodes in rat. The YAC-1 T lymphoma cell line was sensitive to dopamine with a higher magnitude than normal lymphoid cells. Dopamine was less potent than isoproterenol in all cells, and whereas dopamine-sensitive and isoproterenol-sensitive cells, or dopamine-insensitive and isoproterenol-insensitive cells were found, no cell type was dopamine-sensitive and isoproterenol-insensitive. Altogether, these results suggest that only a small subset of lymphocytes is susceptible to the cAMP-elevating action of dopamine.     

Natural history of woodchuck hepatitis virus infections during the course of experimental viral infection: molecular virologic features of the liver and lymphoid tissues.

In this study, the kinetic patterns of woodchuck hepatitis virus (WHV) infection were monitored in the liver and the five primary components of the lymphoid system (peripheral blood lymphocytes, lymph nodes, bone marrow, spleen, and thymus). Groups of woodchucks experimentally infected with a standardized inoculum of WHV were sacrificed at different times over a 65-week period beginning in the preacute phase of viral infection and continuing to the period of serologic recovery or the establishment of chronic infections and subsequent hepatocellular carcinoma. Infection by WHV was not limited to the liver but involved the major components of the lymphoid system during all stages of virus infection. A complex series of kinetic patterns was observed for the appearance of WHV DNA in the different lymphoid compartments and the liver during the entire course of viral infection. A progressive evolution of different WHV genomic forms related to the replicative state of WHV was also observed. Lymphoid cells of the bone marrow were the first cells in which WHV DNA was detected, followed in order by the liver, the spleen, peripheral blood lymphocytes, lymph nodes, and finally the thymus. Several differences were observed in the cellular WHV DNA patterns between woodchucks that developed chronic WHV infections and those that serologically recovered from acute WHV infections. The observations compiled in this study indicate that the host lymphoid system is intimately involved in the natural history of hepadnavirus infections from the earliest stages of virus entry.     

The Functions of the Thymus

In rodents the thymus performs at least two functions. It is a major site of lymphopoiesis in the embryo and newborn, with the resulting lymphocytes migrating from the thymus to seed the spleen, lymph nodes and other lymphoid organs. In addition, the thymus produces a hormone which has an immunotrophic effect, i.e. it endows cells having immunological potential with immunological competence. In some animals other organs, in addition to the thymus, are responsible for directing the normal development of the immunological system. These are the bursa of Fabricius in birds and the appendix in rabbits. In humans it has been postulated that the tonsillar tissues may play an analogous role. Animal experiments involving extirpation of the immunotrophic lymphoid tissues have led to a better understanding of immunological deficiency diseases in man.     

Enhanced suppression of blastogenic responses by weanling mouse lymphoid cells treated with tetrahydrocannabinol in vitro

The suppressive effects of delta 9-tetrahydrocannabinol (THC) on the proliferation of lymphocytes from the spleen, lymph node, and thymus of weanling animals vs adult animals to the T-cell mitogen PHA were examined. THC had a suppressive effect on thymus cells from animals of both younger and older mice. THC suppressed spleen and lymph node cells responses to phytohemagglutinin (PHA) more readily when the cells were obtained from young mice rather than older animals. Suppression by THC in the adult mice was greater in an organ containing fewer mature T lymphocytes such as the thymus in comparison to lymphocytes in secondary organs such as the spleen and lymph nodes which contain more mature lymphocytes.     

Specificity of the effect of growth hormone on DNA concentration in the nuclei of the lymphoid cells of hypophysectomized rats]

The effect of growth hormone on the DNA content in the nuclei of the thymus, spleen and the lymph node lymphocytes was studied by means of cytophotometry. In hypophysectomized rats the growth hormone increased the DNA content in the nuclei of the middle lymphocytes of these organs without altering its amount in the small lymphocytes. Thymus lymphocytes were the most sensitive to the hormone action. The DNA content in the nuclei of these cells increased as soon as one hour after the administration of the hormone; in 4 hours it reached the maximum. Other hormones with an anabolic effect (insulin, thyroxin, testosterone), induced no elevation of DNA in the thymocyte nuclei at that period of time. A conclusion was drawn on the high tropicity of the growth hormone to the cells of the lymphoid organs and particularly to the thymocytes (middle lymphocytes of the thymus).     

Differentiation of lymphocytes in mouse bone marrow. I. Quantitative radioautographic studies of antiglobulin binding by lymphocytes in bone marrow and lymphoid tissues

The density of surface immunoglobulin on small lymphocytes in the bone marrow and other lymphoid tissues has been compared by radioautographic measurements of antiglobulin binding.Cell suspensions from CBA mice were exposed to ¹²⁵I-labeled rabbit anti-mouse globulin in a wide range of concentrations for 30 min at 0 °C. With increasing concentration of antiglobulin-¹²⁵I the percentage of labeled antiglobulin-binding small lymphocytes in spleen and lymph node suspensions reached well-defined plateau levels. Very few normal or cortisone-resistant thymus cells were labeled under identical conditions. Bone marrow small lymphocytes showed a linear increment in labeled cells throughout the antiglobulin-¹²⁵I dose range, their labeling intensity varied widely, and approximately one half remained unlabeled at high antiglobulin-¹²⁵I concentrations. In 6 wk-old congenitally athymic mice the bone marrow small lymphocyte labeling pattern resembled that in CBA mice, while nearly all (91–97%) small lymphocytes in lymph nodes, thoracic duct lymph and blood, and 75% of those in the spleen, became labeled under plateau conditions. Treatment of cells from 10 wk-old CBA mice with AKR anti-θ C3H serum and complement resulted in almost complete (93%) antiglobulin-labeling of residual small lymphocytes from the spleen but had little effect on bone marrow lymphocyte labeling. Under germfree conditions the proportion of antiglobulin-binding small lymphocytes was slightly elevated in all lymphoid tissues of CBA mice.The results demonstrate that many of the small lymphocytes in mouse bone marrow have readily detectable surface immunoglobulin molecules which vary considerably in density from cell to cell, while others neither have detectable surface immunoglobulin, nor are they θ-bearing, thymus-dependent or recirculating cells. The concept of bone marrow small lymphocytes as a maturing cell population is discussed.     

New Ideas on Amphibian Immunity: The Lymph Gland: A Generator of both T and B Cells

Anuran amphibian larvae of the genus Rana possess three majorlymphoid organs: the thymus, the lymph gland, and the spleen.Other accumulations of lymphocytes are present in the kidney,liver, and intestine. The thymus develops lymphocytes firstfollowed by peripheral differentiation of other lymphoid centers.Since bone marrow is absent in larvae, there must be an alternativesource of stem cells that differentiate into T cells under thymicinfluence or B cells under the influence of some other organ(s).We are concerned with the source of B cells after bullfrog larvaebecome immunologically mature. Such an organ should possessstem cells, and, to qualify further, it should play a majorrole in antibody synthesis. The lymph gland seems to fulfillthis requirement. Contrary to our expectations, lymph glandscan restore not only antibody synthesis but also transplantationimmunity in a significant number of larvae. Thus, the lymphgland may house stem cells that can differentiate into B cellsand T cells.     

Carbonic anhydrase activity in peripheral T-lymphocytes and appearance of the activity during their maturation in the thymus. A histochemical demonstration

Carbonic anhydrase (CA) activity is demonstrated in lymphoid tissue for the first time using the histochemical (Hansson's) method. A CA-positive reaction was seen in lymphocytes present in T-lymphocyte areas in both the lymph node and the spleen. The most intense staining was seen in the small T-lymphocytes, whereas the medium-sized T-lymphocytes were less markedly stained. The cortical lymphocytes in the thymus were completely devoid of staining, but the small medullary T-lymphocytes stained intensely. The results suggest that peripheral and thymic medullary T-lymphocytes contain CA activity, which appears in these cells during their maturation in the thymus.     

Purine metabolic enzymes in lymphocytes. I. Adenosine deaminase and purine nucleoside phosphorylase activities in mouse lymphocyte subpopulations

The distribution of adenosine deaminase (ADA) and purine nucleoside phosphorylase (PNP) activities in lymphoid organs and lymphocyte subpopulations in mice, and the effect of phytohemagglutinin P (PHA-P) and concanavalin A (Con A) on the enzyme activities were studied. ADA activity was distributed equally in cells from all organs used and no mouse strain differences were observed. In contrast, PNP activity varied with the mouse strain, being highest in C57BL/6 mice and lowest in BALB/c mice, and with the organ in ICR mice, being high in peripheral blood lymphocytes and spleen lymphocytes, low in mesenteric lymph node cells and absent or very weak in thymus cells. T and B lymphocytes were prepared from spleen of ICR mice. High ADA activity was found in both T and B lymphocytes, whereas PNP activity in the T lymphocytes was about one-third of that in the B lymphocytes. PNP activity in thymus cells was increased to the normal level of T lymphocytes in the spleens by cultivation without stimulant. The development of PNP activity in thymus cells was partially inhibited by Con A but was not affected by PHA-P. ADA activity in thymus cells was enhanced by in vitro stimulation with PHA-P but not with Con A. In contrast, in spleen lymphocytes the development of ADA activity was enhanced by stimulation with PHA-P and Con A, and that of PNP activity was enhanced by PHA-P but not by Con A.     

Structure of the thymus gland, spleen and inguinal lymph nodes of albino rats after immunologic correction during the process of adaptation to physical exercise]

In the experiment performed on 70 noninbred white male rats by means of histological and morphometric techniques construction and cell composition of the thymus, spleen and inguinal lymph nodes have been studied under the influence of systematic physical (swimming) loads. They have been applied under conditions of a pharmacological correction (administration of leacadin) and without it. In the animals not given leacadin, the physical loads result in decrease of the immune function in all the organs investigated. This is evident from decreasing size of the thymus, outgrowth of adipose tissue in it, drop in amount of lymphoid nodules++ in the spleen, decline of contents of lymphocytes in all the organs, and in the cords of the inguinal lymph nodes--decline of plasma cells. Application of leacadin prevents appearance of unfavourable changes.     

Carbonic anhydrase activity in peripheral T-lymphocytes and appearance of the activity during their maturation in the thymus

Summary Carbonic anhydrase (CA) activity is demonstrated in lymphoid tissue for the first time using the histochemical (Hansson's) method. A CA-positive reaction was seen in lymphocytes present in T-lymphocyte areas in both the lymph node and the spleen. The most intense staining was seen in the small T-lymphocytes, whereas the mediumsized T-lymphocytes were less markedly stained. The cortical lymphocytes in the thymus were completely devoid of staining, but the small medullary T-lymphocytes stained intensely. The results suggest that peripheral and thymic medullary T-lymphocytes contain CA activity, which appears in these cells during their maturation in the thymus.     

IL-1 gene expression in lymphoid tissues

We examined the expression of IL-1 mRNA in vivo by in situ hybridization. RNA probes for murine IL-1 alpha and IL-1 beta were used to detect IL-1 mRNA in frozen sections of spleen, lymph node, and thymus of mice injected with Salmonella typhi LPS or SRBC. No IL-1 was detected in lymphoid tissues from un-injected mice. This lack of expression correlated with the absence of IL-1 biologic activity. However, after LPS injection, IL-1 alpha and beta mRNA expression was found in macrophages of the red pulp and marginal zone of the spleen. The periarteriolar lymphoid sheath contained cells that only expressed IL-1 beta mRNA. These cells were not lymphocytes and did not stain with the macrophage marker F4/80. A similar cellular response was found after SRBC injection. Scattered macrophages in lymph nodes and thymus were positive, but only after LPS or SRBC injection. The spleens of mice injected with LPS had megakaryocytes containing IL-1 mRNA.     

Reutilization by maternal and embryonal cells of nuclear materials from H3-thymidine labeled lymphocytes introduced into the lumen of intestine of rats

Summary H³-thymidine labeled lymphocytes from thymus and lymph nodes of donor rats were washed and injected in to the intestine of recipient rats on the 11th and 19th day of gestation; subsequent labeling of maternal and embryonal cells was studied autoradiographically 24 hours after injection. In 12-day embryos, numerous stem cells or hemocytoblasts were labeled frequently intensely. In 20-day embryos, stem cells or hemocytoblasts scattered throughout the liver were often labeled. In other fetal tissues at this stage, cells in thymus, spleen, mesenteric lymph node and intestine were labeled but scarcely and weakly. In mothers, labeling in lymphoid tissues was scarce but definite, in thymus, mesenteric lymph node and spleen. These results suggest that nuclear materials from lymphocytes emigrated into the intestinal canal of the mother could be reutilized by maternal and embryonal cells.