[The influence of the thymus peptides on analgesia caused by acute and chronic immobilization].

OBJECTIVE: Our aim was to investigate the influence of thymic polypeptides on pain sensitivity and to analyze a possible role of the opioid system in the implementation of the analgesia caused by immobilization stress. METHODS: The study was performed on male Wistar rats at the Moscow state University named after M. V. Lomonosov. We studied effects of thymus peptides: thymuline (0.15 mg/kg), fraction 5 thymosin (0.25 microgram/kg) and cattle thymus extracted product (CTEP) (0.5 mg/kg) on pain sensitivity in rats using test "tail flick" without stress, with acute (3 h) and sub acute (12 h) immobilization stress. The comparison groups were animals treated with saline and spleen polypeptides. RESULTS: It is shown that preparations of thymus increase the threshold of pain sensitivity in the intact animals. Immobilization stress duration 3 and 12 h in thymus peptides treated rats caused a less pronounced increase in pain threshold than in the control groups (immobilization stress 3 h: CTEP--p = 0.025, thymuline--p = 0.022, fraction 5 thymosin--p = 0.033; immobilization stress 12 h: CTEP--p = 0.034, thymuline--p = 0.027, fraction 5 thymosin--p = 0.036). The opioid receptor blocker naloxone (1 mg/kg) did not completely block the stress-induced analgesia, indicating the presence of both opioid and non -opioid components in this state. In thymus peptides treated rats, opioid component was less pronounced than in the control groups (CTEP--p = 0.031, thymuline--p = 0.026, fraction 5 thymosin--p = 0.029). CONCLUSION: Pre-activation of the opioid system by the thymus polypeptides leads to an increase in the share of non-opioid component of the stress-induced analgesia and prevents the depletion of the opioid system in immobilization stress.

The thymulin-lactotropic axis in rodents: thymectomy, immunoneutralization and gene transfer studies.

OBJECTIVES: There is clear evidence on the existence of a thymus-pituitary axis which seems to be particularly important during perinatal life. In particular, the thymic peptide thymulin has been shown to be a relevant player in thymus-pituitary communication. Our goal was to explore the effect of thymulin on circulating prolactin (PRL) levels in different animal models. To this end we undertook a series of experiments in rats and mice, implementing adult thymectomy, thymulin immunoneutralization in normal C57BL/6 mice and neonatal thymulin gene therapy in nude mice. METHODS: We assessed the impact of the above manipulations on PRL secretion and lactotrope morphology by measuring serum PRL by radioimmunoassay and by performing morphometric analysis of the lactotropic cell population in the anterior pituitary gland. RESULTS: Adult thymectomy in female rats slightly increased serum PRL, an effect that was partially reversed by thymulin gene therapy. In mice, thymulin immunoneutralization from birth to age 32 days reduced serum PRL both in males and females. Thymulin immunoneutralization induced a significant (p < 0.01) decrease in lactotrope cell density (CD) and volume density (VD) without changes in cell size (CS). Neonatal thymulin gene therapy markedly increased serum thymulin (p < 0.01) and lactotrope CD, CS and VD in nude mice of both sexes. CONCLUSIONS: Our findings suggest a modulatory effect of thymulin on the lactotrope cell population and on serum PRL, particularly during early life.

[The sexual peculiarities of aging changes in circannual rhythms of pineal gland, hypophysis, adrenal cortex and thymus functions in healthy subjects].

The interrelations of circannual rhythms of the functional state of pineal gland, hypophysis, adrenal cortex, thymus in healthy women and men from 20 to 79 years were studied. Fluctuations of melatonin, ACTH, cortisol and thymic serum factor, which were exchanged in aging (the season peaks of hormones and its acrophase) were found in blood of healthy 20-29 years old people. The changes of rhythmicity of indices were in male earlier (pineal gland and hypophysis over 30 years, thymus and adrenal cortex over 40 years) and more impressive than in women. The aging changes of pineal gland function's rhythm in healthy subjects have important role for changes of interrelations of circannual rhythms hypophysis, adrenal cortex and thymus.

[The aging particularities of bone marrow composition, pineal gland and thymus functions in mice of different lines].

We investigated the amount of stromal precursor cells for colonies of fibroblasts (CFC-F) and progenitor cells for granulocyte-macrophage colonies (CFC-GM cells), blood content of thymulin and melatonin in bone marrow of young and old mice CBA/Ca and FVB/N lines. The CBA/Ca mice demonstrated only weak increasing amount of CFC-F and CFC-GM in bone marrow, but these indices in FVB/N mice are increased more significantly. Linear difference of age-related changes in the biological features of the cells of bone marrow are significantly associated with the characteristics and relationships of the function of epiphysis and the thymus in mice of different lines during aging.

Thymulin-based gene therapy and pituitary function in animal models of aging.

Thymulin is a thymic hormone exclusively produced by the thymic epithelial cells. After its discovery and initial characterization in the 1970s, it was demonstrated that thymulin production and secretion is strongly influenced by the neuroendocrine system. Conversely, a growing core of information, to be reviewed here, points to thymulin as a hypophysiotropic peptide. Additionally, thymulin was shown to possess anti-inflammatory and analgesic properties in the brain. In recent years, a synthetic DNA sequence coding for a biologically active analog of thymulin, metFTS, was constructed and cloned in different adenoviral vectors. These include bidirectional regulatable Tet-Off vector systems that simultaneously express metFTS and green fluorescent protein and that can be downregulated reversibly by the addition of the antibiotic doxycycline. A number of recent studies suggest that thymulin gene therapy may be a suitable therapeutic strategy to prevent some of the endocrine and reproductive alterations that typically appear in congenitally athymic (nude) mice, taken as a suitable model of neuroendocrine and reproductive aging. The present article briefly reviews the literature on the physiology of the thymulin-pituitary axis as well as on the new molecular tools available to exploit the therapeutic potential of thymulin.

Thymulin and peroxiredoxin 6 have protective effects against streptozotocin-induced type 1 diabetes in mice.

Protective effects of peroxiredoxin 6 (PRDX6) in RIN-m5F ß-cells and of thymulin in mice with alloxan-induced diabetes were recently reported. The present work was aimed at studying the efficiency of thymulin and PRDX6 in a type 1 diabetes mellitus model induced by streptozotocin in mice. Effects of prolonged treatment with PRDX6 or thymic peptide thymulin on diabetes development were evaluated. We assessed the effects of the drugs on the physiological status of diabetic mice by measuring blood glucose, body weight, and cell counts in several organs, as well as effects of thymulin and PRDX6 on the immune status of diabetic mice measuring concentrations of pro-inflammatory cytokines in blood plasma (TNF-α, interleukin-5 and 17, and interferon-γ), activity of NF-κB and JNK pathways, and Hsp90α expression in immune cells. Both thymulin and PRDX6 reduced the physiological impairments in diabetic mice at various levels. Thymulin and PRDX6 provide beneficial effects in the model of diabetes via very different mechanisms. Taken together, the results of our study indicated that the thymic peptide and the antioxidant enzyme have anti-inflammatory functions. As increasing evidences show diabetes mellitus as a distinct comorbidity leading to acute respiratory distress syndrome and increased mortality in patients with COVID-19 having cytokine storm, thymulin, and PRDX6 might serve as a supporting anti-inflammatory treatment in the therapy of COVID 19 in diabetic patients.

Pharmacokinetics and disposition of rilpivirine (TMC278) nanosuspension as a long-acting injectable antiretroviral formulation.

The next-generation human immunodeficiency virus type 1 (HIV-1) nonnucleoside reverse transcriptase inhibitor rilpivirine (TMC278) was administered in rats and dogs as single intramuscular (IM) or subcutaneous (SC) injections, formulated as a 200-nm nanosuspension. The plasma pharmacokinetics, injection site concentrations, disposition to lymphoid tissues, and tolerability were evaluated in support of its potential use as a once-monthly antiretroviral agent in humans. Rilpivirine plasma concentration-time profiles showed sustained and dose-proportional release over 2 months in rats and over 6 months in dogs. The absolute bioavailability approached 100%, indicating a complete release from the depot, in spite of rilpivirine concentrations still being high at the injection site(s) 3 months after administration in dogs. For both species, IM administration was associated with higher initial peak plasma concentrations and a more rapid washout than SC administration, which resulted in a stable plasma-concentration profile over at least 6 weeks in dogs. The rilpivirine concentrations in the lymph nodes draining the IM injection site exceeded the plasma concentrations by over 100-fold 1 month after administration, while the concentrations in the lymphoid tissues decreased to 3- to 6-fold the plasma concentrations beyond 3 months. These observations suggest uptake of nanoparticles by macrophages, which generates secondary depots in these lymph nodes. Both SC and IM injections were generally well tolerated and safe, with observations of a transient inflammatory response at the injection site. The findings support clinical investigations of rilpivirine nanosuspension as a long-acting formulation to improve adherence during antiretroviral therapy and for preexposure prophylaxis.

Prenatal and childhood exposures are associated with thymulin concentrations in young adolescent children in rural Nepal.

The thymus undergoes a critical period of growth and development early in gestation and, by mid-gestation, immature thymocytes are subject to positive and negative selection. Exposure to undernutrition during these periods may permanently affect phenotype. We measured thymulin concentrations, as a proxy for thymic size and function, in children (n = 290; aged 9-13 years) born to participants in a cluster-randomized trial of maternal vitamin A or ß-carotene supplementation in rural Nepal (1994-1997). The geometric mean (95% confidence interval) thymulin concentration was 1.37 ng/ml (1.27, 1.47). A multivariate model of early-life exposures revealed a positive association with gestational age at delivery (ß = 0.02; P = 0.05) and higher concentrations among children born to ß-carotene-supplemented mothers (ß = 0.19; P < 0.05). At ∼9-12 years of age, thymulin was positively associated with all anthropometric measures, with height retained in our multivariate model (ß = 0.02; P < 0.001). There was significant seasonal variation: concentrations tended to be lower pre-monsoon (ß = -0.13; P = 0.15), during the monsoon (ß = -0.22; P = 0.04), and pre-harvest (ß = -0.34; P = 0.01), relative to the post-harvest season. All early-life associations, except supplementation, were mediated in part by nutritional status at follow-up. Our findings underscore the known sensitivity of the thymus to nutrition, including potentially lasting effects of early nutritional exposures. The relevance of these findings to later disease risk remains to be explored, particularly given the role of thymulin in the neuroendocrine regulation of inflammation.

[Thymic hyperplasia in a patient with Graves' disease]. / Hiperplasia tímica en una paciente con enfermedad de Graves.

Benign thymic hyperplasia (TH) is a known feature of hyperthyroidism. In most cases, thymic enlargement is minimal; however, this syndrome may occasionally appear as an appreciable anterior mediastinal mass. Recognition of the benign nature of TH and its regression following treatment of the hyperthyroidism is important to prevent unnecessary surgical procedures. We present a case of TH associated with hyperthyroidism due to Graves' disease.

In mice transgenic for IGF1 under keratin-14 promoter, lifespan is decreased and the rates of aging and thymus involution are accelerated.

IGF1 signaling is supposedly a key lifespan determinant in metazoans. However, controversial lifespan data were obtained with different means used to modify IGF1 or its receptor (IGF1R) expression in mice. The emerging puzzle lacks pieces of evidence needed to construct a coherent picture. We add to the available evidence by using the Gompertz model (GM), with account for the artifactual component of the Strehler-Mildvan correlation between its parameters, to compare the survival patterns of female FVB/N and FVB/N-derived K14/mIGF1 mice. In K14/mIGF1 vs. FVB/N mice, the rate of aging (γ) is markedly increased without concomitant changes in the initial mortality (µ0). In published cases where IGF1 signaling was altered by modifying liver or muscle IGF1 or whole body IGF1R expression, lifespan changes are attributable to µ0. The accelerated aging and associated tumor yield in K14/mIGF1 mice are consistent with the finding that the age-associated decreases in thymus weight and serum thymulin are accelerated in K14/mIGF1 mice. Our results underscore the importance of accounting for the mathematical artifacts of data fitting to GM in attempts to resolve discrepancies in survival data and to differentiate the contributions of the initial mortality and the rate of aging to changes in lifespan.

Extrathymic production of thymulin induced by oxidative stress, heat shock, apoptosis, or necrosis.

Thymic peptides are immune regulators produced mainly in the thymus. However, thymic peptides such as thymosin-α and thymopoietin have precursors widely expressed outside the thymus, localized in cell nuclei, and involved in vital nuclear functions. In stress-related conditions, they can relocalize. We hypothesized that another thymic peptide, thymulin, could be similarly produced by non-thymic cells during stress and have a precursor therein. Non-thymic cells, including macrophages and fibroblasts, were exposed to oxidative stress, heat, apoptosis, or necrosis. Extracellular thymulin was identified in media of both cell types 2 h after exposure to stress or lethal signals. Therefore, thymulin is released by non-thymic cells. To examine possible thymulin precursors in non-thymic cells, macrophage lysates were analyzed by western blotting. Bands stained with anti-thymulin antibody were detected in two locations, approximately 60 kDa and 10 kDa, which may be a possible precursor and intermediate. All of the exposures except for heat were effective for induction of the 10 kDa protein. BLAST search using thymulin sequence identified SPATS2L, an intranucleolar stress-response protein with molecular weight of 62 kDa, containing thymulin-like sequence. Comparisons of blots stained with anti-thymulin and anti-SPATS2L antibodies indicate that SPATS2L may be a possible candidate for the precursor of thymulin.

Altered expression of Th1-type chemokine receptor CXCR3 on CD4+ T cells in myasthenia gravis patients.

The expression of chemokine receptors on peripheral blood lymphocytes and thymocytes of myasthenia gravis (MG) patients was analyzed before and after therapy with special reference to the thymic histopathology. Before therapy, MG patients showed reduced frequency of CD4+ T cells expressing T-helper1 (Th1) type chemokine receptor CXCR3, with a significantly lower frequency in the thymoma group than in the thymic hyperplasia group, while the frequencies of CXCR3-positive CD8+ T cells remained normal irrespective of the thymic pathology. Both CD4+ cells and CD8+ cells of the hyperplasia group showed significantly increased expression of CCR1 on the cells followed by a reduction to the control level after therapy. No significant changes in the frequencies of CCR2, CCR3, CCR4, and CCR5 were observed in either MG group. There was a significant inverse correlation between the percentage of CXCR3-positive CD4+ T cells and the disease severity assessed with the MGFA scale (Fig. 1, r=-0.55, p=0.0047). The CXCR3 expression on CD4+ cells was increased toward the control level long after the initiation of therapy. The thymomas showed significantly higher percentages of CXCR3-positive CD4+CD8- single positive cells than the control thymuses and, though not significantly, the hyperplastic thymuses also showed higher percentages. These results indicated that Th1-type chemokine signalings were altered in the MG patients, particularly those with thymoma, and that the thymus and thymoma are important sites of Th1-type reactions. The slow clinical improvement of MG symptoms after treatment may be explained partly by the gradual normalization of CXCR3-mediated signaling.

The role of nicotinic acetylcholine receptors in lymphocyte development.

The sizes of lymphocyte populations in lymphoid organs of nicotinic acetylcholine receptor knockout and chimera (knockout/wild-type) mice were studied by flow cytometry. The absence of beta2 subunit decreased, while nicotine treatment increased B lymphocyte numbers in the bone marrow. In chimera mice, either beta2 or alpha7 subunits influenced lymphocyte populations in primary lymphoid organs, while in the spleen, only alpha7 receptors were critical. More annexin V-positive B cells were found in the bone marrow of knockout than wild-type animals. We conclude that nicotinic receptors are involved in regulating lymphocyte development and control the B lymphocyte survival.

Peripheral and mesencephalic transfer of a synthetic gene for the thymic peptide thymulin.

Thymulin is a thymic peptide with antiinflammatory activity in the brain. We constructed a recombinant adenoviral vector, RAd-FTS, expressing a synthetic DNA sequence encoding met-FTS, a biologically active analog of thymulin and used it for peripheral and central gene transfer in rats. Thymulin concentration in serum and brain tissue was determined by bioassay. Reporter gene expression in the substantia nigra (SN) was quantitated by enzymohistochemistry or fluorescence microscopy using an appropriate image analysis software. A single intramuscular injection (10(8) plaque forming units (pfu)/animal) of RAd-FTS in thymectomized rats (nondetectable serum thymulin) induced supraphysiologic serum thymulin levels for at least 110 days (123+/-22 fg/ml versus 598+/-144 fg/ml in intact and vector-injected rats, respectively). Stereotaxic intranigral injection of RAd-FTS induced steady expression levels of met-FTS for at least 90 days, whereas expression of adenovirally transferred reporter genes coding for green fluorescent protein fused to HSV thymidine kinase (GFP-TK)(fus) or E.coli beta-galactosidase (beta-gal), declined drastically within a month (% transgene expression in the SN on post-injection day 30 relative to day 2 was: 18, <1 and 125%, for beta-gal, (GFP-TK)(fus) and met-FTS, respectively). We conclude that RAd-FTS constitutes a suitable biotechnological tool for the assessment of peripheral and central thymulin gene therapy in animal models of nigral dopaminergic neurodegeneration induced by pro-inflammatory agents.

[Role of proteins of the macroglobulin family in regulation of tumor growth].

Proteins of the macroglobulin family are an ancient and evolutionarily conservative link of the immune system, which is actively involved in both inhibition of tumor growth cells and proliferation of tumor cells. Two basically different binding sites and a great conformational plasticity of all representatives of the macroglobulin family, as well as the presence of two to four representatives of the family in the blood of most species allow them to transport diverse substances and exert various regulatory influences on both the tumor and the entire organism. For example, the capacity of macroglobulins for binding hydrolases makes it possible to inhibit enzyme mediated tumor invasion. At the same time, an excess of macroglobulin/hydrolase complexes can activate apoptosis. The tumor is able of using macroglobulins, especially pregnancy-associated proteins, for its own protection. Specifically, pregnancy-associated alpha2-glycoprotein, which is actively produced by human tumor cells, blocks the histocompatibility complex antigens. On the contrary, the capacity of binding zinc stimulates the thymulin-dependent activation of natural killer cells. Nevertheless, the actively growing tumor expresses many receptors to macroglobulins, which are the main carriers of some cytokines and growth factors essential for proliferation.

Studies on the zinc binding site to the serum thymic factor.

Gel filtration studies of 65Zn2+ binding to thymulin show that the nonapeptide can strongly bind one zinc metal ion. At pH 7.5, thymulin binds one zinc ion with an apparent affinity constant Kd of 5 +/- 2 X 10(-7) M. Binding is pH dependent. No binding is observed below pH 6.0. Ga3+, Al3+, Mn2+ and Cu2+ can compete with the binding of Zn2+ at pH 7.5. A good correlation between the competition potencies of metal ions used and the extent of biological activity of thymulin in the presence of these metal ions in an in vitro rosette assay is observed. Structural analogs of thymulin and non-thymulin-related peptides were used in a gel filtration technique to tentatively define the nature of amino acids present in the Zn2+-binding site of thymulin.

High affinity binding sites on plasma membrane obtained from the lymphoblastoid cultured 1301 cell line for highly radioactive serum thymic factor.

The interaction of the synthetic serum thymic factor (FTS, facteur thymique sérique) with a plasma membrane preparation of human T lymphocytes from the lymphoblastoid T cell line 1301 was studied using 3H-labelled FTS (specific activity 120 Ci/mmol). The binding is temperature dependent and function of the concentration of both 3H-labelled FTS and membrane proteins. At 37 degrees C, using 1 nM of 3H-labelled FTS as steady state is observed within 80 min. The binding is reversible, specific and saturable. Scatchard analysis reveals the existence of at least two binding sites with respective Kd of the order of 0.516 +/- 0.2 nM and 110 +/- 27.8 nM with concentration of 0.186 +/- 0.045 pmol and 2.026 +/- 0.367 pmol per mg of membrane protein.

Zinc-dependent low thymic hormone level in type I diabetes.

Zinc is required for optimal functioning of the immune system. It was recently reported that one of the best-known thymic hormones responsible for the maturation and differentiation of the thymus-derived T-lymphocyte line, i.e., serum thymic factor (STF), is biologically active only when bound to zinc ions; in this form it has been called thymulin (Zn-STF). Because low serum and tissue zinc values have been reported to occur in diabetic conditions, and because defects of T-lymphocyte-dependent functions are also present in diabetic patients, even metabolically well-controlled diabetic patients, we investigated the serum level of zinc and the plasma level of both active Zn-STF and inactive STF thymic hormones in 15 young patients suffering from type I (insulin-dependent) diabetes. Serum zinc levels were significantly reduced in diabetic conditions and did not correlate with the degree of metabolic compensation measured by glycosylated hemoglobin. In diabetes, the active form of thymulin is strongly reduced, whereas the inactive form is abnormally elevated. In vitro zinc addition to diabetic plasma samples also induces zinc saturation of inactive thymic hormone molecules: the total thymic hormone measured in these experimental conditions shows values in diabetic patients comparable with those observed in healthy age-matched individuals, suggesting that low thymulin levels recorded in diabetic conditions are due not to a thymic failure in synthesizing and secreting thymic hormone but to a peripheral defect in zinc saturation of the hormone molecules. The zinc-dependent failure of thymic hormone, present even in fairly compensated diabetic conditions, might account for the apparent insulin-independent immunological abnormalities associated with type I diabetes.

Anti-islet immunity and thymic dysfunction in the mutant diabetic C57BL/KsJ db/db mouse.

Anti-islet immune reactions were studied in vitro in genetically diabetic homozygote C57BL/KsJ db/db mice, using murine islet cells as a target. Spleen lymphocytes inhibited insulin secretion by the islet cells. This inhibition was abolished when T-cells were eliminated by treatment with anti-Thy 1.2 monoclonal antibody in the presence of complement. Anti-islet complement-dependent antibody (CDA) and antibody-dependent cell cytotoxicity (ADCC) were also found in the sera of these mice. This anti-islet immunity was detectable as early as the tenth day of life and lasted throughout the entire life span of the animals. A significant lymphopenia was detected in thymus and spleen cell populations. None of these anomalies was found in control heterozygote mice. Thymic function was explored in the same mice by evaluating their serum thymic factor (FTS) levels using a rosette assay. The age-dependent decline of FTS levels was significantly accelerated in diabetic mice as compared with heterozygous littermates. Furthermore, FTS inhibitory immunoglobulins were detected in db/db mouse sera, which inactivated in vitro the biologic potency of synthetic FTS. Histologically, the thymus displayed an accelerated involution. It was shown by indirect immunofluorescence using anti-FTS monoclonal antibodies that the number of FTS+ cells was reduced in db/db mouse thymuses. Histologic study of the islets of Langerhans showed early signs of beta-cell hyperactivity and hypertrophy, followed by beta-cell rarefaction and profound dislocation of islet architecture. Insulitis was not detected.

[Influence of mercury on thymulin production: metallothioneins role]. / Influenza del mercurio sulla timulina. Ruolo delle metallotionine.

Occupational or environmental exposure to various metals affects human health. In particular, mercury is known to affect the immune system adversely. Metallothioneins (MTs) are low molecular weight, cysteine-rich, intracellular proteins, with high affinity for bivalent metals of which they regulate intracellular concentrations, thereby being playing a fundamental role in metal homeostasis. MTs protect cells from stress, inflammation and free radical damage and are involved in zinc homeostasis. Zinc has an important role in the immune system because it is indispensable for the activation andfunctioning of the thymic hormone, thymulin, which in turn is involved in T-lymphocyte differentiation and maturation. MTs participate in the detoxification process following acute poisoning, and are expressed in the various tissues, as well as in chronic intoxication, where continuous stress and the persistent inflammatory state induce their over-expression. The present study was undertaken to gain insights into the potential mechanisms acting on the immune system/altering the immune status in the presence of low mercury concentrations. To do this, the genic expression of MT-I and the amount of active thymulin produced by thymic endothelial cells were studied in mice exposed to different doses of mercury.