Involution of Thymus During Pregnancy in Young Mice

Persike, Edward C.

doi:10.3181/00379727-45-11666

Cited by 19 publications

(10 citation statements)

References 0 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Recently we have reported that marrow lymphocytes show significant age-and sex-related changes and that the changes in marrow lymphocytes are similar in pattern to those in the thymus, the other central lymphatic tissue (SASAKI andITO, 1978, 1980). In relation to sex, it has been observed by earlier investigators (PERSIKE, 1940;GREGOIRE, 1947;ITO and HOSHINO, 1962) that pregnancy and lactation exert significant effects on the thymus.…”

Section: Discussionmentioning

confidence: 64%

“…Thus the pregnancy-induced changes in peripheral lymphatic tissues are generally explained primarily in view of the alloantigenic status of the mother to embryos, particularly allogeneic ones (MARONI and DE SOUSA, 1973;MCLEAN et al, 1974;ANSELL et al, 1978). Concerning the effects of pregnancy and lactation on the central lymphatic tissue, it has been reported that the thymus undergoes involution in late pregnancy (PERSIKE, 1940;GREGOIRE, 1947;PEPPER, 1961;ITO and HOSHINO, 1962;MILLAR et al, 1973;CLARKE, 1979), and that the thymus becomes extremely involuted at parturition and remains atrophic during lactation (ITO and HOSHINO, 1962;MCLEAN et al, 1974). As is generally accepted, the central lymphatic organ, such as the thymus, does not directly respond to antigenic stimulation, but reacts to various endocrine factors (review: WEISS, 1972).…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

Effects of pregnancy and lactation on lymphocytes in the bone marrow of the mouse: A quantitative electron microscopic study.

Sasaki

Ito

1980

Arch. Histol. Jap., Arch. Histol. Jpn

View full text Add to dashboard Cite

Section: Discussionmentioning

confidence: 64%

Section: Discussionmentioning

confidence: 99%

Effects of pregnancy and lactation on lymphocytes in the bone marrow of the mouse: A quantitative electron microscopic study.

Sasaki

Ito

1980

Arch. Histol. Jap., Arch. Histol. Jpn

View full text Add to dashboard Cite

“…56 During pregnancy, an 'involution' of thymus is also known to occur in a number of species including rat, mouse, and human. [57][58][59] However, contrary to what it happens during aging, there are strong evidences that the so-called 'involuted' maternal thymus is active during pregnancy despite suffering several morphological changes. 60,61 It is very likely that the so-called involution is just a remodeling process necessary to achieve tolerance.…”

mentioning

confidence: 99%

REVIEW ARTICLE: Regulatory T Cells and Their Role in Pregnancy

Leber

Teles

Zenclussen

2010

American J Rep Immunol

148

116

View full text Add to dashboard Cite

Citation Leber A, Teles A, Zenclussen AC. Regulatory T cells and their role in pregnancy. Am J Reprod Immunol 2010Regulatory T cells emerge in the last years as key players in allowing fetal survival within the maternal uterus. They were shown to be a unique subpopulation of T cells expanding during human and murine pregnancy. The importance of Treg for a normal pregnancy situation was proven by studies showing that their absence impairs murine pregnancy while the adoptive transfer of Treg prevents fetal rejection. In humans, pregnancy pathologies are associated with lower Treg frequencies while therapies that improve pregnancy outcome are able to boost their number. Functional studies have shown that Treg can regulate immune cell responses directly at the fetal–maternal interface either by interacting with other cells or by inducing the expression of immune regulatory molecules. This article revises relevant literature on regulatory T cells in human and murine pregnancy.

show abstract

“…This blockade manifests itself grossly in the form of thymic involution and bone marrow involution. Involution of the thymus, the site of T cell differentiation, has long been recognized to occur during pregnancy in a number of species including rat, mouse, and human (11)(12)(13) and may be mimicked by the administration of the female sex hormones estrogen (E) and progesterone (P), although the relative contributions of the two hormones are controversial (14,15). Although the functional importance of pregnancy-induced thymic involution remains unknown, the fact that it has been observed in all mammals that have been examined has led to the speculation that reduced or altered output of mature T cells by the thymus could be an important component of maternal immune regulation.…”

mentioning

confidence: 99%

Progesterone receptors in the thymus are required for thymic involution during pregnancy and for normal fertility

Tibbetts

DeMayo

Rich

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

150

123

View full text Add to dashboard Cite

Thymocyte development is reported to be inhibited by pregnancy, although the impact of this effect on fertility is unknown. We demonstrate, using progesterone receptor null mutant mice, that the inhibitory effects of pregnancy hormones on T cell development require the presence of functional progesterone receptor (PR). A combination of hysterectomy, thymic immunohistochemistry, and transplant studies reveals that local expression of PR in thymic stromal cells is specifically required for thymic involution to occur. These cells, under the influence of progesterone, block T cell development at the early pre-T cell (CD3 ؊ CD44 ؉ CD25 ؉ ) stage of development via a paracrine mechanism. In addition, age-related thymic involution is shown to occur by a separate PR-independent mechanism. Finally, pregnancy studies with thymic transplants from progesterone receptor null mutant mice to wild-type female recipients demonstrate that thymic stromal PR is required for normal fertility. Together, these observations provide evidence for a PR-dependent paracrine mechanism that blocks very early T cell lymphopoiesis during pregnancy and is essential for normal fertility. O ne of the long-standing enigmas of reproductive biology is why the fetus is not rejected by the mother's immune system (1-3). Many explanations for this phenomenon have been proposed and tested, including the idea of paternal antigen sequestration and reduced MHC expression (4, 5), the possibility of local immune changes in the uterus (6, 7), and a potential maternal shift from Th1 to Th2 immune responses (8-10). Although each of these mechanisms appears to play some role in protection of the fetus from the maternal immune system, none has been directly shown to be required. It now appears that pregnancy may in fact have many redundant mechanisms acting both systemically and at the maternal-fetal interface to protect the fetus from the mother's immune system.One particularly interesting effect of pregnancy on the maternal immune system is a general blockade of lymphocyte development. This blockade manifests itself grossly in the form of thymic involution and bone marrow involution. Involution of the thymus, the site of T cell differentiation, has long been recognized to occur during pregnancy in a number of species including rat, mouse, and human (11-13) and may be mimicked by the administration of the female sex hormones estrogen (E) and progesterone (P), although the relative contributions of the two hormones are controversial (14,15). Although the functional importance of pregnancy-induced thymic involution remains unknown, the fact that it has been observed in all mammals that have been examined has led to the speculation that reduced or altered output of mature T cells by the thymus could be an important component of maternal immune regulation. It also has been reported that bone marrow, the site of B lymphocyte development, undergoes an involution process similar to that occurring in the thymus during pregnancy. The result is a specific block to B cell de...

show abstract

Involution of Thymus During Pregnancy in Young Mice

Cited by 19 publications

References 0 publications

Effects of pregnancy and lactation on lymphocytes in the bone marrow of the mouse: A quantitative electron microscopic study.

Effects of pregnancy and lactation on lymphocytes in the bone marrow of the mouse: A quantitative electron microscopic study.

REVIEW ARTICLE: Regulatory T Cells and Their Role in Pregnancy

Progesterone receptors in the thymus are required for thymic involution during pregnancy and for normal fertility

Contact Info

Product

Resources

About