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ABSTRACT: In the context of immunoneuroendocrine cross talk, growth hormone (GH) exerts pleiotropic effects in the immune system. For example, GH-transgenic mice, as well as animals and humans treated with GH, exhibit enhanced cellularity in the thymus. GH also stimulates the thymic microenvironment, augmenting chemokine and extracellular matrix (ECM) production, with consequent increase in ECM- and chemokine-driven thymocyte migratory responses. Peripheral T cell migration triggered by laminin or fibronectin was enhanced in cells from GH-transgenic versus wild-type control adult mice, as seen for CD4(+) and CD8(+) T cells from mesenteric lymph nodes. Migration of these T lymphocytes, triggered by the chemokine CXCL12, in conjunction with laminin or fibronectin, was also enhanced compared with control counterparts. Considering that GH can be used as an adjuvant therapy in immunodeficiencies, including AIDS, the concepts defined herein, that GH enhances developing and peripheral T cell migration, provide new clues for future GH-related immune interventions.
Annals of the New York Academy of Sciences 07/2012; 1261:49-54. · 3.15 Impact Factor
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ABSTRACT: Congenitally athymic (nude) female mice show severe ovarian dysgenesis after puberty, which seems to be consequential to a number of neuroendocrine derangements described in these mutants. Thus, considerable evidence suggests that thymulin, a thymic peptide, may be involved in thymus-pituitary communication. In order to clarify the relevance of thymulin for the maturation of the female reproductive system, we assessed at hypothalamic, pituitary, ovarian, and uterine level the preventive action of neonatal thymulin gene therapy (NTGT) on the changes that typically occur after puberty in congenitally athymic female mice. We injected (im) an adenoviral vector harboring a synthetic DNA sequence encoding a biologically active analog of thymulin, methionine-serum thymic factor, in newborn nude mice (which are thymulin deficient) and killed the animals at 70-71 d of age. NTGT in the athymic mice restored the serum thymulin levels. Morphometric analysis revealed that athymic nudes have reduced numbers of brain GnRH neurons and pituitary gonadotropic cells as compared with heterozygous controls. NTGT prevented these changes and also rescued the premature ovarian failure phenotype typically observed in athymic nude mice (marked reduction in the number of antral follicles and corpora lutea, increase in atretic follicles). Serum estrogen, but not progesterone, levels were low in athymic nudes, a reduction that was partially prevented by NTGT. Little to no morphological changes were observed in the endometrium of female nudes. The delay in the age of vaginal opening that occurs in athymic nudes was significantly prevented by NTGT. Our results suggest that thymulin plays a relevant physiologic role in the thymus-hypothalamo-pituitary-gonadal axis.
Endocrinology 06/2012; 153(8):3922-8. · 4.46 Impact Factor
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ABSTRACT: Cell migration is a key event for proper intrathymic T cell differentiation and several ligand/receptor interactions contribute to the well-coordinated movement of developing thymocytes within the thymic lobules. Herein we summarize recent data that place semaphorin 3A and its receptor neuropilin 1 (Sema3A/NRP1) as further players in the physiological process of cell migration in the human thymus. These molecules, as well as plexins A (necessary for the intracellular signaling transduction triggered by Sema3A-NRP1 ligation) are constitutively expressed by both developing thymocytes and components of the thymic microenvironment, including epithelial and dendritic cells. Functionally, Sema3A decreases the adhesion of human thymocytes on thymic epithelial cell monolayers, and exerts per se a dose-dependent chemorepulsive effect on human thymocytes. Moreover, Sema3A inhibits chemoattractive migratory responses induced by other ligands, including fibronectin, laminin and CXCL12. These data should be placed in the context of the notion stating that migration of developing T cells is a multivectorial system, in which the resulting migration vector derives from a balance of several simultaneous and/or sequential ligand/receptor pair interactions. Accordingly, semaphorins and neuropilins can be considered as further players in the system.
Experimental physiology 02/2012; · 3.17 Impact Factor
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ABSTRACT: Intrathymic T cell differentiation takes place within the thymic lobules and depends on interactions between developing thymocytes and cells of the thymic microenvironment. Along with differentiation, thymocytes migrate in an oriented progression, which is tightly regulated by a number of interactions, including one mediated by the chemokine CXCL12. It has been shown recently that SEMA-3A, a soluble member of the semaphorin family, is also involved in this human thymocyte migration and can have a chemorepulsive and de-adhesive role. Herein, we study the role of SEMA-3A on the CXCL12-driven migration of human thymocytes. We have shown that SEMA-3A is able to inhibit the chemotaxis triggered by CXCL12. Such an inhibition was seen in respect to immature and mature CD4/CD8-defined thymocyte subsets and can be reverted specifically by neutralizing anti-SEMA-3A mAb. We have also shown that SEMA-3A consistently down-regulates CXCR4 membrane expression in all CD4/CD8-defined thymocyte subsets, and this down-regulation is accompanied by a decrease in the phosphorylation of FAK and ZAP-70 protein kinases. Taken together, these results demonstrate the involvement of SEMA-3A in the regulation of CXCL12-driven human thymocyte migration, where it acts as a physiological antagonist.
Journal of leukocyte biology 08/2011; 91(1):7-13. · 4.99 Impact Factor
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NeuroImmunoModulation 01/2011; 18(5):263. · 2.38 Impact Factor
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ABSTRACT: Cell migration is crucial for intrathymic T cell differentiation and export of mature T lymphocytes to the peripheral lymphoid organs. The intrinsic regulation of T cell migration, mediated by adhesion molecules and chemokines, can be influenced by a number of endogenous factors, such as hormones, as for instance growth hormone (GH). Laminin deposition was enhanced in GH-treated mice and in GH-transgenic animals, compared with corresponding controls, and thymocyte adhesion to laminin was increased by in vivo GH treatment. An enhancing effect was also observed ex vivo in relation to the number of migrating cells in laminin-coated transwell chambers. Additionally, we found that the chemokine CXCL12, in conjunction with laminin, further enhanced the migration of thymocytes previously exposed to high concentrations of GH in vivo. Moreover, an increase in CXCL12 production has been detected in the thymus of GH-transgenic mice as well as in primary thymic epithelial cell cultures derived from these animals, as compared to age-matched wild-type counterparts. In keeping with these data, in vivo experiments showed that GH favors the trafficking of naive CD4+CD8- recent thymic emigrants to the peripheral lymph nodes. In addition, we found that migration of lymphocytes from mesenteric lymph nodes of GH-transgenic mice, triggered by the chemokine CXCL12, in conjunction with laminin or fibronectin, was enhanced, when compared to lymphocytes from control mice. Since GH-based therapy has been used in human and experimental infectious diseases, this hormone can be envisioned as an additional therapeutic tool in situations in which increasing lymphocyte numbers and migration are required for correcting a given pathological state.
NeuroImmunoModulation 01/2011; 18(5):309-13. · 2.38 Impact Factor
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ABSTRACT: 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.
NeuroImmunoModulation 01/2011; 18(5):350-6. · 2.38 Impact Factor
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ABSTRACT: Based on significant amount of evidence, it is now generally believed, that one underlying cause for neurodegenerative diseases, could be dysregulation in inflammatory processes. The actual mechanisms involved are not yet well understood. Several studies have demonstrated the potent analgesic and anti-inflammatory actions of thymulin related peptide (PAT), in different animal pain models. In this study, we investigated the efficacy of PAT in a recently developed model of neuroinflammation, in conscious rats, caused by intracerbroventricular (ICV) injection of endotoxin (ET). Our results indicate that ICV injection of PAT alone did not elicit significant alteration of nociceptive thresholds, while ET injections produced significant thermal hyperalgesia and cold allodynia. Pretreatment with PAT resulted in significant alleviation of ET-induced hyperalgesia and increased body temperature. In other sets of experiments, ICV injection of ET resulted in a significant elevation in the concentration of pro-inflammatory mediators measured in different areas of the brain; this elevation was significantly following pretreatment with PAT. Taken together these results provide evidence in support of our hypothesis that as a potent anti-inflammatory and analgesic peptide, PAT might have potential therapeutic use for the treatment of neurodegenerative conditions induced by silent or overt inflammation.
Neuropharmacology 11/2010; 60(2-3):496-504. · 4.81 Impact Factor
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ABSTRACT: The thymus gland, where T lymphocyte development occurs, is targeted in malnutrition secondary to protein energy deficiency. There is a severe thymic atrophy, resulting from massive thymocyte apoptosis (particularly affecting the immature CD4+CD8+ cell subset) and decrease in cell proliferation. The thymic microenvironment (the non-lymphoid compartment that drives intrathymic T-cell development) is also affected in malnutrition: morphological changes in thymic epithelial cells were found, together with a decrease of thymic hormone production, as well as an increase of intrathymic contents of extracellular proteins. Profound changes in the thymus can also be seen in deficiencies of vitamins and trace elements. Taking Zn deficiency as an example, there is a substantial thymic atrophy. Importantly, marginal Zn deficiency in AIDS subjects, children with diarrhoea and elderly persons, significantly impairs the host's immunity, resulting in an increased risk of opportunistic infections and mortality; effects that are reversed by Zn supplementation. Thymic changes also occur in acute infectious diseases, including a severe thymic atrophy, mainly due to the depletion of CD4+CD8+ thymocytes, decrease in thymocyte proliferation, in parallel to densification of the epithelial network and increase in the extracellular matrix contents, with consequent disturbances in thymocyte migration and export. In conclusion, the thymus is targeted in several conditions of malnutrition as well as in acute infections. These changes are related to the impaired peripheral immune response seen in malnourished and infected individuals. Thus, strategies inducing thymus replenishment should be considered as adjuvant therapeutics to improve immunity in malnutrition and/or acute infectious diseases.
Proceedings of The Nutrition Society 11/2010; 69(4):636-43. · 2.77 Impact Factor
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ABSTRACT: In the context of the cross-talk between the neuroendocrine and immune systems, it is well known that growth hormone (GH) exerts physiological effects in central as well as peripheral compartments of the immune system. GH modulates a variety of thymic functions, including proliferation of thymocytes and thymic epithelial cells (TEC). Accordingly, GH-transgenic mice, as well as animals and humans treated with exogenous GH, exhibit an enhanced cellularity in the organ. GH also stimulates the secretion of cytokines and chemokines by the thymic microenvironment, as well as the production of extracellular matrix proteins. These effects lead to an increase in thymocyte migratory responses and intrathymic traffic of developing T cells, including the export of thymocytes from the organ, as ascertained by experimental studies with intrathymic injection of GH in normal mice and with GH-transgenic animals. Most likely, GH effects in the thymus are mediated by an IGF-1/IGF-1 receptor circuitry, which physiologically operates in nonstimulated conditions in both thymocytes and TECs. Since GH enhances thymus replenishment and increases intrathymic T-cell traffic, ultimately modulating thymocyte exit, it should be placed as a potential adjuvant therapeutic agent in the treatment of immunodeficiencies associated with thymic atrophy, and examples recently appeared in the literature are promising and strongly indicate that GH can be beneficial for individuals suffering severe immunodeficiency.
Current Opinion in Pharmacology 04/2010; 10(4):434-42. · 6.86 Impact Factor
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ABSTRACT: Abstract Background The thymus is a central lymphoid organ, in which bone marrow-derived T cell precursors undergo a complex process of maturation. Developing thymocytes interact with thymic microenvironment in a defined spatial order. A component of thymic microenvironment, the thymic epithelial cells, is crucial for the maturation of T-lymphocytes through cell-cell contact, cell matrix interactions and secretory of cytokines/chemokines. There is evidence that extracellular matrix molecules play a fundamental role in guiding differentiating thymocytes in both cortical and medullary regions of the thymic lobules. The interaction between the integrin α5β1 (CD49e/CD29; VLA-5) and fibronectin is relevant for thymocyte adhesion and migration within the thymic tissue. Our previous results have shown that adhesion of thymocytes to cultured TEC line is enhanced in the presence of fibronectin, and can be blocked with anti-VLA-5 antibody. Results Herein, we studied the role of CD49e expressed by the human thymic epithelium. For this purpose we knocked down the CD49e by means of RNA interference. This procedure resulted in the modulation of more than 100 genes, some of them coding for other proteins also involved in adhesion of thymocytes; others related to signaling pathways triggered after integrin activation, or even involved in the control of F-actin stress fiber formation. Functionally, we demonstrated that disruption of VLA-5 in human TEC by CD49e-siRNA-induced gene knockdown decreased the ability of TEC to promote thymocyte adhesion. Such a decrease comprised all CD4/CD8-defined thymocyte subsets. Conclusion Conceptually, our findings unravel the complexity of gene regulation, as regards key genes involved in the heterocellular cell adhesion between developing thymocytes and the major component of the thymic microenvironment, an interaction that is a mandatory event for proper intrathymic T cell differentiation.
BMC Genomics. 01/2010;
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ABSTRACT: The thymus is a central lymphoid organ, in which bone marrow-derived T cell precursors undergo a complex process of maturation. Developing thymocytes interact with thymic microenvironment in a defined spatial order. A component of thymic microenvironment, the thymic epithelial cells, is crucial for the maturation of T-lymphocytes through cell-cell contact, cell matrix interactions and secretory of cytokines/chemokines. There is evidence that extracellular matrix molecules play a fundamental role in guiding differentiating thymocytes in both cortical and medullary regions of the thymic lobules. The interaction between the integrin α5β1 (CD49e/CD29; VLA-5) and fibronectin is relevant for thymocyte adhesion and migration within the thymic tissue. Our previous results have shown that adhesion of thymocytes to cultured TEC line is enhanced in the presence of fibronectin, and can be blocked with anti-VLA-5 antibody.
Herein, we studied the role of CD49e expressed by the human thymic epithelium. For this purpose we knocked down the CD49e by means of RNA interference. This procedure resulted in the modulation of more than 100 genes, some of them coding for other proteins also involved in adhesion of thymocytes; others related to signaling pathways triggered after integrin activation, or even involved in the control of F-actin stress fiber formation. Functionally, we demonstrated that disruption of VLA-5 in human TEC by CD49e-siRNA-induced gene knockdown decreased the ability of TEC to promote thymocyte adhesion. Such a decrease comprised all CD4/CD8-defined thymocyte subsets.
Conceptually, our findings unravel the complexity of gene regulation, as regards key genes involved in the heterocellular cell adhesion between developing thymocytes and the major component of the thymic microenvironment, an interaction that is a mandatory event for proper intrathymic T cell differentiation.
BMC Genomics 01/2010; 11 Suppl 5:S2. · 4.07 Impact Factor
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ABSTRACT: Previous evidence indicated that growth hormone (GH) modulates cell migration in the thymus, and that extracellular matrix and chemokines are involved. Herein, we studied migration of peripheral lymphocytes derived from spleen and lymph nodes of GH-transgenic (GH-Tg) mice. We initially found that the relative cell numbers (normalized per gram of body weight) in lymph nodes and spleens from GH-Tg were higher at all ages tested (2-3, 7 and 12 months), as compared to wild type age-matched controls. Functionally, we found that lymphocyte migration triggered by laminin or fibronectin was enhanced in cells from GH-Tg versus control mice, independent of the organ from which the cells were derived (as ascertained in young adult animals). However, such an enhancement in migration was statistically significant only for CD4+ and CD8+ T cells from mesenteric lymph nodes. Migration of lymphocytes from mesenteric lymph nodes of GH-Tg mice, triggered by the chemokine CXCL12, in conjunction with laminin or fibronectin, was enhanced compared to lymphocytes from control mice. Rather surprisingly, the membrane levels of the corresponding extracellular matrix or chemokine receptors in peripheral lymphoid organs of GH-Tg mice did not necessarily correlate with the changes seen in migratory responses. In conclusion, our data show for the first time that GH alters lymphocyte migration in the periphery of the immune system. Considering that GH is used as an adjuvant therapeutic agent in immunodeficiencies, including AIDS, the concepts defined herein provide relevant background knowledge for future GH-related immune interventions.
Brain Behavior and Immunity 11/2009; 24(3):451-61. · 4.72 Impact Factor
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ABSTRACT: Some molecules described in the nervous system are also expressed in cells involved in the control of the immune response, suggesting they have a role as common mechanisms between neuroendocrine and immune systems. In this review, we focus on the expression and role of neuropilins (NPs) and their soluble ligands class 3 semaphorins in thymus physiology, particularly migration of developing thymocytes. We also discuss the concept of multivectorial thymocyte migration, including semaphorins, as a new individual cell migration vector.
Annals of the New York Academy of Sciences 03/2009; 1153:20-8. · 3.15 Impact Factor
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ABSTRACT: Thymulin is a thymic hormone exclusively produced by the thymic epithelial cells. It consists of a nonapeptide component coupled to the ion zinc, which confers biological activity to the molecule. After its discovery in the early 1970s, thymulin was characterized as a thymic hormone involved in several aspects of intrathymic and extrathymic T cell differentiation. Subsequently, 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 hypophysotropic peptide. In recent years, interest has arisen in the potential use of thymulin as a therapeutic agent. Thymulin was shown to possess anti-inflammatory and analgesic properties in the brain. Furthermore, an adenoviral vector harboring a synthetic gene for thymulin, stereotaxically injected in the rat brain, achieved a much longer expression than the adenovirally mediated expression in the brain of other genes, thus suggesting that an anti-inflammatory activity of thymulin prevents the immune system from destroying virus-transduced brain cells. Other studies suggest that thymulin gene therapy may also be a suitable therapeutic strategy to prevent some of the endocrine and metabolic alterations that typically appear in thymus-deficient animal models. The present article briefly reviews the literature on the physiology, molecular biology, and therapeutic potential of thymulin.
Annals of the New York Academy of Sciences 03/2009; 1153:98-106. · 3.15 Impact Factor
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ABSTRACT: In the context of the cross-talk between the neuroendocrine and immune systems, it is well known that growth hormone (GH) exerts physiological effects in central as well as peripheral compartments of the immune system. GH modulates a variety of thymic functions. For example, GH upregulates proliferation of thymocytes and thymic epithelial cells. Accordingly, GH-transgenic mice, as well as animals and humans treated with exogenous GH, exhibit an enhanced cellularity in the thymus organ. GH also stimulates the secretion of thymic hormones, cytokines, and chemokines by the thymic microenvironment as well as the production of extracellular matrix proteins. These effects lead to an increase in thymocyte migratory responses and intrathymic traffic of developing T cells, including the export of thymocytes from the thymus organ, as ascertained by experimental studies with intrathymic injection of GH in normal mice and with GH-transgenic animals. Because GH promotes a replenishment of the thymus and an increase of thymocyte export, it has been applied as a potential adjuvant therapeutic agent in the treatment of immunodeficiencies associated with thymic atrophy.
Annals of the New York Academy of Sciences 03/2009; 1153:1-5. · 3.15 Impact Factor
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ABSTRACT: Thymulin is a thymic hormone exclusively produced by the thymic epithelial cells. It consists of a nonapeptide component coupled to the ion zinc, which confers biological activity to the molecule. After its discovery in the early 1970s, thymulin was characterized as a thymic hormone involved in several aspects of intrathymic and extrathymic T cell differentiation. Subsequently, 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 hypophysotropic peptide. In recent years, interest has arisen in the potential use of thymulin as a therapeutic agent. Thymulin was shown to possess anti-inflammatory and analgesic properties in the brain. Furthermore, an adenoviral vector harboring a synthetic gene for thymulin, stereotaxically injected in the rat brain, achieved a much longer expression than the adenovirally mediated expression in the brain of other genes, thus suggesting that an anti-inflammatory activity of thymulin prevents the immune system from destroying virus-transduced brain cells. Other studies suggest that thymulin gene therapy may also be a suitable therapeutic strategy to prevent some of the endocrine and metabolic alterations that typically appear in thymus-deficient animal models. The present article briefly reviews the literature on the physiology, molecular biology, and therapeutic potential of thymulin.
Annals of the New York Academy of Sciences 02/2009; 1153(1):98 - 106. · 3.15 Impact Factor
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ABSTRACT: We previously described a fibronectin/VLA-5-dependent impairment of NOD thymocyte migration, correlated with partial thymocyte arrest within thymic perivascular spaces. Yet, NOD thymocytes still emigrate, suggesting the involvement of other cell migration-related alterations. In this context, the aim of this work was to study the role of extracellular matrix ligands, alone or in combination with the chemokine CXCL12, in NOD thymocyte migration. Intrathymic contents of CXCL12, fibronectin, and laminin were evaluated by immunohistochemistry while the expression of corresponding receptors was ascertained by flow cytometry. Thymocyte migration was measured using Transwell chambers and transendothelial migration was evaluated in the same system, but using an endothelial cell monolayer within the chambers. NOD thymocytes express much lower VLA-5 than C57BL/6 thymocytes. This defect was particularly severe in CD4(+) thymocytes expressing Foxp3, thus in keeping with the arrest of Foxp3(+) cells within the NOD giant perivascular spaces. We observed an enhancement in CXCL12, laminin, and fibronectin deposition and colocalization in the NOD thymus. Furthermore, we detected altered expression of the CXCL12 receptor CXCR4 and the laminin receptor VLA-6, as well as enhanced migratory capacity of NOD thymocytes toward these molecules, combined or alone. Moreover, transendothelial migration of NOD thymocytes was diminished in the presence of exogenous fibronectin. Our data unravel the existence of multiple cell migration-related abnormalities in NOD thymocytes, comprising both down- and up-regulation of specific responses. Although remaining to be experimentally demonstrated, these events may have consequences on the appearance of autoimmunity in NOD mice.
The Journal of Immunology 05/2008; 180(7):4639-47. · 5.79 Impact Factor
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ABSTRACT: Malnutrition, secondary to deficiency in intake of proteins, minerals or vitamins, consistently results in changes in the thymus. This organ undergoes a severe atrophy due to apoptosis-induced thymocyte depletion, particularly affecting the immature CD4+CD8+ cells, as well as a decrease in cell proliferation. This feature is apparently linked to a hormonal imbalance, involving a decrease in leptin and consequent increase in glucocorticoid hormone levels in the serum. The thymic microenvironment is also affected in malnutrition: morphological changes in thymic epithelial cells have been found, together with a decrease of thymic hormone production by these cells. Additionally, intrathymic contents of extracellular proteins, such as fibronectin, laminin and collagens, are increased in thymuses from malnourished children. Taken together, these data clearly point to the notion that the thymus is significantly affected in malnutrition. Similar patterns of thymic changes occur in acute infectious diseases, including a severe atrophy of the organ, mainly due to the apoptosis-related depletion of immature CD4+CD8+ thymocytes. Additionally, thymocyte proliferation is compromised in acutely-infected subjects. The microenvironmental compartment of the thymus is also affected in acute infections, with an increased density of the epithelial network and an increase in the deposition of extracellular matrix. In conclusion, it seems clear that the thymus is targeted in malnutrition as well as in acute infections. These changes are related to the impaired peripheral immune response seen in malnourished and infected individuals. Thus, strategies inducing thymus replenishment should be considered in therapeutic approaches, in both malnutrition and acute infectious diseases.
British Journal Of Nutrition 11/2007; 98 Suppl 1:S11-6. · 3.01 Impact Factor
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ABSTRACT: Integrity of the thymus during perinatal life is necessary for a proper maturation of the pituitary-gonadal axis in mice and other mammalian species. Thus congenitally athymic (nude) female mice show significantly reduced levels of circulating gonadotropins, a fact that seems to be causally related to a number of reproductive derangements described in these mutants. Interestingly, a number of in vitro studies suggest that the thymic peptide thymulin may be involved in thymus-pituitary communication. To determine the consequences of low serum thymulin in otherwise normal animals, we induced short (8 days)- and long (33 days)-term thymulin deficiency in C57BL/6 mice by neonatally injecting (intraperitoneally) an anti-thymulin serum and assessed their circulating gonadotropin levels at puberty and thereafter. Control mice received an irrelevant antiserum. Gonadotropins were measured by radioimmunoassay and thymulin by bioassay. Both long- and short-term serum thymulin immunoneutralization resulted in a significant reduction in the serum levels of gonadotropins at 33 and 45 days of age. Subsequently, we injected (intramuscularly) an adenoviral vector harboring a synthetic DNA sequence (5'-ATGCAAGCCAAATCTCAAGGTGGATCCAACTAGTAG-3') encoding a biologically active analog of thymulin, methionine-FTS, in newborn nude mice (which are thymulin deficient) and measured circulating gonadotropin levels when the animals reached 52 days of age. It was observed that neonatal thymulin gene therapy in the athymic mice restored their serum thymulin levels and prevented the reduction in circulating gonadotropin levels that typically emerges in these mutants after puberty. Our results indicate that thymulin plays a relevant physiological role in the thymus-pituitary-gonadal axis.
AJP Endocrinology and Metabolism 07/2007; 293(1):E182-7. · 4.75 Impact Factor
