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Query: UMLS:C0024312 (
lymphopenia
)
4,859
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Zinc deficiency
is a common nutritional problem observed both in human and in animal populations that has profound effects on host defense mechanisms. Using the young adult mouse as a model, it has been demonstrated that a moderate period of suboptimal zinc causes thymic atrophy,
lymphopenia
, and alterations in the proportions of the various subsets of lymphocytes and mononuclear phagocytes. As a result, antibody-mediated responses to both T cell-dependent and T cell independent antigens are significantly reduced. Cytolytic T cell responses, natural killer (NK) cell activity, and delayed-type hypersensitivity (DTH) reactions are also depressed. Suboptimal zinc during in utero development of mice causes persistent states of immunodeficiency in the offspring that can even be transferred to subsequent generations. In regard to human immunological consequences of zinc deficiency, patients with the genetic disorder of zinc absorption, acrodermatitis enteropathica, also exhibit atrophic thymuses,
lymphopenia
, anergic DTH responses, and reduced NK cell activity. Patients suffering from sickle cell anemia or uremia with associated deficiencies in zinc exhibit similar immune deficiencies. An additional outcome of these studies has been shown to be an essential cofactor for thymulin, one of the thymic hormones. Furthermore, addition of zinc salts to culture can polyclonally activate lymphocytes as well as augment responses to mitogens in adjuvant-like manner.
...
PMID:Interrelationships between zinc and immune function. 348 44
Zinc deficiency
alters lymphocyte and monocyte function in man and animals. A patient with isolated zinc deficiency was found to have
lymphopenia
(420 lymphocytes/microliter), depressed T-cell mitogen response (48% of normal control), increased numbers of circulating T-suppressor cells (OKT8 reactive cells) and decreased circulating T-helper cells (OKT4 reactive cells). Activity of the patient's natural killer (NK) cells was 1 lytic unit/10(6) cells (normal 10 to 40), and monocyte cytotoxicity (MC) was four times that of normal controls. Zinc repletion in vivo improved the peripheral lymphocyte count, corrected the abnormal OKT8-to-OKT4 ratio, normalized T-cell response to mitogen, improved NK function, and lowered MC to control values. A divalent cation chelator, 1,10-orthophenanthroline (OP), was used to simulate zinc deficiency in vitro. T-cells exposed to OP are nonresponsive to mitogen unless zinc is added. NK function of lymphocytes from normal donors exposed to OP was depressed in a time- and dose-dependent manner. NK activity of peripheral blood lymphocytes (PBL) from 12 normal donors exposed to 50 microM OP for 16 hr was 10.3 +/- 7 lytic units/10(6) cells (mean +/- S.E.M.) vs. 32.6 +/- 14 for cells incubated in medium alone. When monocytes were exposed for 16 hr to 50 microM OP, however, MC significantly increased to a range two to five times that of control. OP-induced alterations of lymphocyte and monocyte function was reversed by the addition of 50 microM zinc but not calcium or magnesium. Since NK activity and MC are thought to be important in host tumor immunity, alterations in zinc metabolism may have important implications for human tumor immune surveillance mechanisms.
...
PMID:Alterations in human natural killer cell activity and monocyte cytotoxicity induced by zinc deficiency. 660 71
Zinc deficiency
causes thymic atrophy and
lymphopenia
. It was recently shown that zinc deficiency causes sizable losses among the precursor lymphocytes, such that this compartment was depleted 40%-50% in the marrow of young adult mice. However, the myeloid compartments increased substantially both in proportion and absolute number as zinc deficiency advanced.
Zinc deficiency
caused no change in the cell cycle status of precursor B cells and only modest changes in cycling pro-B cells. Conversely, cells of the myeloid series, especially monocytes, exhibited as much as a 40% increase in the proportion of cells in S and G(2)/M, while myeloid progenitors had an overall 56% increase in cells in the proliferative phase as zinc deficiency advanced. Whether zinc deficiency alters the rate of production of myeloid and lymphopoietic cells or alters the degree of apoptosis or both awaits further study.
...
PMID:Variations in the cell cycle status of lymphopoietic and myelopoietic cells created by zinc deficiency. 1094 80
Zinc deficiency
is one of the leading risk factors for developing disease and yet we do not have a clear understanding of the mechanisms behind the increased susceptibility to infection. This review will examine the interrelationships among the hypothalamus-pituitary-adrenal stress axis, p56(lck), and T-cell maturation in both zinc deficiency and responses during zinc repletion. We will highlight differences between the adult mouse model (wasting malnutrition) and growing rat model (stunting malnutrition) of dietary zinc deficiency and discuss the use of various controls to separate out the effects of zinc deficiency from the associated malnutrition. Elevated serum corticosterone in both zinc deficient and pair-fed rats does not support the hypothesis that zinc deficiency per se leads to corticosterone-induced apoptosis and
lymphopenia
. In fact, the zinc deficient rat does not have
lymphopenia
. Thymocytes from zinc deficient mice and rats have elevated levels of p56(lck), a signalling protein with a zinc clasp structure, but this does not appear to affect thymocyte maturation. However, post-thymic T-cell maturation appears to be altered based on the lower proportion of splenic late thymic emigrants in zinc deficient rats. Fewer new T-cells in the periphery could adversely affect the T-cell repertoire and contribute to immunodeficiency in zinc deficiency.
...
PMID:Dietary zinc deficiency in rodents: effects on T-cell development, maturation and phenotypes. 2282 46
Zinc deficiency
is an important factor that impairs cellular immunity and contributes to low T lymphocyte counts in head and neck cancers. Persistent T
lymphopenia
is clinically relevant in terms of tumor persistence and/or recurrence. The primary objective was to evaluate the impact of zinc sulfate supplementation on the absolute numbers of circulating T lymphocytes and T lymphocyte subpopulations. The secondary objectives were to evaluate overall survival, progression-free survival, and the adverse events of zinc sulfate. Seventy-two head and neck cancer patients were enrolled in a randomized, double-blind, placebo-controlled trial. Zinc sulfate 50 mg in 10 cc and an identically appearing placebo were self-administered 3 times daily at meal times. Blood samples were obtained for complete blood count, total T lymphocytes and T lymphocyte subpopulations before radiation therapy as baselines, at the fifth week during radiation therapy, and at the first month after completion of radiation therapy. The baseline characteristics of patients, tumors, and treatments and the baseline lymphocyte parameters were not significantly different between the 2 groups. Zinc sulfate supplementation during head and neck radiation therapy showed no increase in absolute numbers of circulating T lymphocytes, T lymphocyte subpopulations, or survival with acceptable side effects.
...
PMID:Effects of zinc sulfate supplementation on cell-mediated immune response in head and neck cancer patients treated with radiation therapy. 2580 77
