Access the full text.
Sign up today, get DeepDyve free for 14 days.
S. Miller, M. Gallagher, S. Datta, J. Trentin (1981)
Development of Natural Killer Cell Activity and Genetic Resistance to Bone Marrow Transplantation with Age: Effect of Neonatal ThymectomyScandinavian Journal of Immunology, 13
G. Koo, J. Peppard, A. Hatzfeld (1982)
Ontogeny of Nk-1+ natural killer cells. I. Promotion of Nk-1+ cells in fetal, baby, and old mice.Journal of immunology, 129 2
B. Beck, S. Gillis, C. Henney (1982)
Display of the neutral glycolipid ganglio-n-tetraosylceramide (asialo GM1) on cells of the natural killer and T lineages.Transplantation, 33 2
S. Miller, D. Osmond (1975)
LYMPHOCYTE POPULATIONS IN MOUSE BONE MARROW: QUANTITATIVE KINETIC STUDIES IN YOUNG, PUBERTAL AND ADULT C3H MICECell Proliferation, 8
J. Albright, J. Albright (1985)
Age-associated decline in natural killer (NK) activity reflects primarily a defect in function of NK cellsMechanisms of Ageing and Development, 31
S. Miller, D. Osmond (1976)
Quantitative studies of lymphocytes and other cell populations in the bone marrow of neonatally thymectomized C3H miceThe Anatomical Record, 184
K. Viken (2009)
The effect of steroids on differentiation and function of cultured, mononuclear cells.Acta pathologica et microbiologica Scandinavica. Section C, Immunology, 84 1
W. Young, S. Hakomori, J. Durdik, C. Henney (1980)
Identification of ganglio-N-tetraosylceramide as a new cell surface marker for murine natural killer (NK) cells.Journal of immunology, 124 1
S. Miller, D. Osmond (1974)
Quantitative changes with age in bone marrow cell populations of C3H mice.Experimental hematology, 2 4
C. Biron, L. Turgiss, R. Welsh (1983)
Increase in NK cell number and turnover rate during acute viral infection.Journal of immunology, 131 3
(1976)
Quantita - tive studies of lymphocytes and other cell populations in the bone marrow of neonatally thymectomized C 3 H mice
S. Pollack, C. Rosse (1987)
The primary role of murine bone marrow in the production of natural killer cells. A cytokinetic study.Journal of immunology, 139 7
N. Fabirs, M. Muzzioli, E. Mocchegiani (1982)
Recovery of age-dependent immunological deterioration in Balb/c mice by short-term treatment with L-thyroxineMechanisms of Ageing and Development, 18
R. Stevenson (1973)
Hydrocortisone and the migration of human leucocytes: an indirect effect mediated by mononuclear cells.Clinical and experimental immunology, 14 3
M. Tam, S. Emmons, S. Pollack (1980)
Analysis and enrichment of murine natural killer cells with the fluorescence-activated cell sorter.Journal of immunology, 124 2
(1992)
Population dynamics of natural killer cells and T lymphocytes in murine spleen and bone marrow during the development of erythro - leukemia
I. Dussault, S. Miller (1994)
Decline in natural killer cell-mediated immunosurveillance in aging mice — a consequence of reduced cell production and tumor binding capacityMechanisms of Ageing and Development, 75
J. Kameoka, N. Yanai, M. Obinata (1995)
Bone marrow stromal cells selectively stimulate the rapid expansion of lineage‐restricted myeloid progenitorsJournal of Cellular Physiology, 164
S. Lo, R. Aft, J. Ross, G. Mueller (1978)
Control of globin gene expression by steroid hormones in differentiating friend leukemia cellsCell, 15
M. Kasai, Masao Iwamod, Y. Nagai, K. Okumura, T. Tada (1980)
A glycolipid on the surface of mouse natural killer cellsEuropean Journal of Immunology, 10
R. Herberman, M. Nunn, D. Lavrin (1975)
Natural cytotoxic reactivity of mouse lymphoid cells against syngeneic and allogeneic tumors. I. Distribution of reactivity and specificityInternational Journal of Cancer, 16
Jan Thompson, R. Furth (1973)
THE EFFECT OF GLUCOCORTICOSTEROIDS ON THE PROLIFERATION AND KINETICS OF PROMONOCYTES AND MONOCYTES OF THE BONE MARROWThe Journal of Experimental Medicine, 137
I. Dussault, S. Miller (1993)
Stimulation of natural killer cell numbers but not function in leukemic infant mice: a system primed in infancy allows survival in adulthood.Natural immunity, 12 2
G. Koo, Y. Cayre, L. Mittl (1981)
Comparative study of splenic natural killer cells and prothymocytes.Cellular immunology, 62 1
S. Miller (1982)
Production and renewal of murine natural killer cells in the spleen and bone marrow.Journal of immunology, 129 5
(1975)
Lympho - cyte populations in mouse bone marrow : Quantitative , kinetic studies in young , pubertal and adult C 3 H mice
I. Dussault, M. Sc (1995)
Suppression of natural killer cell activity in infant mice occurs after target cell binding.Natural immunity, 14 1
(1973)
Glucocor - ticoid suppression of macrophage migration inhibitory factor
R. Kiessling, E. Klein, H. Pross, H. Wigzell, H. Wigzell (1975)
„Natural”︁ killer cells in the mouse. II. Cytotoxic cells with specificity for mouse Moloney leukemia cells. Characteristics of the killer cellEuropean Journal of Immunology, 5
L. Malgor, C. Blanc, E. Klainer, S. Irízar, P. Torales, L. Barrios (1975)
Direct effects of thyroid hormones on bone marrow erythroid cells of rats.Blood, 45 5
I. Dussault, S. Miller (1995)
Effectiveness of immunotherapy in aged leukemic mice.Gerontology, 41 4
Peter Hall, Fiona Watt (1989)
Stem cells: the generation and maintenance of cellular diversity.Development, 106 4
N. Fabris, E. Mocchegiani, Stefano Mariotti, Furio Pacini, Aldo Pinchera (1986)
Thyroid function modulates thymic endocrine activity.The Journal of clinical endocrinology and metabolism, 62 3
Katsuiku Hirokawa, M. Utsuyama, M. Kasai, C. Kurashima, Sanae Ishijima, Yi Zeng (1994)
Understanding the mechanism of the age-change of thymic function to promote T cell differentiation.Immunology letters, 40 3
M. Hurme (1984)
Cell Proliferation during the Maturation of Natural Killer CellsScandinavian Journal of Immunology, 19
J. Balow, A. Rosenthal (1973)
GLUCOCORTICOID SUPPRESSION OF MACROPHAGE MIGRATION INHIBITORY FACTORThe Journal of Experimental Medicine, 137
M. Provinciali, M. Muzzioli, G. Stefano, N. Fabris (1991)
Recovery of spleen cell natural killer activity by thyroid hormone treatment in old mice.Natural immunity and cell growth regulation, 10 4
C. Gauwerky, N. Bersch, D. Golde (1981)
Beta 2 receptor-mediated stimulation of Friend erythroleukemia cell growth by thyroid hormones.Experimental hematology, 9 8
S. Miller, F. Christopher, I. Dussault (1992)
Population dynamics of natural killer cells and T lymphocytes in murine spleen and bone marrow during the development of erythroleukemia: the effect of indomethacin.Natural immunity, 11 2
The present study aimed to quantitatively analyze the effects of thyroxin on natural killer (NK) cells in the bone marrow and spleen of older adult (6 months) mice of both sexes. Five intraperitoneal injections of thyroxin were administered over 10 days in an attempt to stimulate the virtually negligible levels of NK cells in these older mice. Immunoperoxidase labeling of an NK cell surface marker, together with a tetrachrome hematologic counterstain, permitted morphological microscopic identification of mature NK cells, distinct from all other hemopoietic and immune (lymphoid) cells in the spleen and bone marrow. The results revealed that in spite of similar total cell content in both the spleen and bone marrow in both sexes at this age, there were significant, gender-based differences in NK cells and various other hemopoietic and immune cells. NK cells in the 6-month-old female mice are significantly more abundant than those of males at this age. Granulocytes in females were also significantly more numerous in both the spleen and bone marrow than in males. By contrast, monocytes and nucleated erythroid cells were significantly more numerous in males of this age. In both sexes, at this postbreeding age, the immunostimulant, thyroxin, had the common effect of significantly elevating the levels of NK cells. Our results underline the need for considering the two basic parameters of age and gender, as potentially confounding variables, prior to therapeutic administration of thyroxin, and possibly a host of hormones, cytokines and other regulators of hemopoietic and immune phenomena.
Natural Immunity – Karger
Published: Jun 1, 1999
Keywords: Natural killer cells; Thyroxin; Spleen; Bone marrow
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.