A.M. Mackler scite author profile

Immune activation is implicated in the etiology of preterm labor, but little is known about macrophage number or distribution in the uterus or cervix at term. This study tested the hypothesis that macrophages migrate into the reproductive tract before the onset of parturition. Paraffin-embedded sections from the mid-uterine horn and cervix of C3/HeN mice on Days 15 and 18 of pregnancy, the day of birth (Day 19), and 1 day postpartum were stained with a pan-macrophage marker to analyze cell numbers and distribution. During pregnancy, uterine macrophages were dispersed in endometrium, usually associated with vasculature and subluminal epithelium. In myometrium, macrophages were clustered in stromal connective tissue; near term and postpartum, cells appeared to surround the muscle bundles. Total macrophage numbers were increased on Day 15 relative to those in nonpregnant controls, declined before birth, and increased postpartum. In the cervix, macrophages congregated in subepithelium, often perivascular or near ganglia. Macrophage numbers in the cervix peaked on Day 18, then declined to nonpregnant levels by the day after birth. Thus, macrophage numbers in the uterus were inversely related to those in the cervix. These findings raise the possibility that macrophages and their products may be involved in uterine contractility and cervical remodeling during the processes of parturition.

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The role of leukocyte traffic and activation in parturition

Yellon

Mackler

Kirby

2003

Journal of the Society for Gynecologic Investigation

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Indoleamine 2,3-Dioxygenase Is Regulated by IFN-γ in the Mouse Placenta DuringListeria monocytogenesInfection

Mackler¹,

Barber²,

Takikawa

et al. 2003

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The tryptophan-catabolizing enzyme indoleamine 2,3-dioxygenase (IDO) is expressed in macrophages that have been differentiated in the presence of CSF-1 and is important in the containment of intracellular pathogens. IDO also appears to play a role in suppression of T cell responses in a variety of contexts. In the placenta, its enzymatic activity is believed to establish a chemical barrier that protects the fetal allograft from T cell-mediated immune aggression. We have studied the regulation of IDO in the utero-placental unit of mice following infection with the Gram-positive, intracellular bacterium Listeria monocytogenes that has a predilection for replication in the decidua basalis. IDO mRNA and protein expression is enhanced in the utero-placental unit following infection with L. monocytogenes. However, in contrast to the human where IDO is expressed by the CSF-1R-positive syncytial trophoblast, IDO is not expressed in murine trophoblastic tissue but instead is found in stromal cells of the decidua basalis and metrial gland and following infection, in endothelial cells. Using mice carrying null mutations in cytokine/growth factor genes, we explored the regulation of IDO in the placenta. Consistent with the absence of CSF-1R expression in the IDO-expressing cells of mice, neither the basal levels of IDO nor its induction following infection is affected by the absence of CSF-1. However, although the basal level of IDO is normal, the enhanced expression during Listeriosis is completely abrogated in the absence of IFN-γ, a cytokine required for the resolution of this infection. These data suggest that IDO plays a role in resolving bacterial infection in the placenta while at the same time maintaining a barrier to T cells whose presence might result in fetal rejection.

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The Role of Leukocyte Traffic and Activation in Parturition

Yellon

Mackler²,

Kirby

2003

Journal of the Society for Gynecologic Investigation

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Distribution and Activation of Uterine Mononuclear Phagocytes in Peripartum Endometrium and Myometrium of the Mouse

Mackler¹,

Green²,

McMillan³

et al. 2000

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The present study tested the hypothesis that macrophage distribution and activation are enhanced in the uterus before term. Mid-uterine horn tissue strips from mice on Days 15 and 18 of pregnancy, the day of birth (= Day 19), and one day postpartum were paraffin-embedded and then sectioned, stained with a monoclonal pan-macrophage marker (BM8), and processed for visualization and quantification of resident macrophages per nuclear area. Macrophages were dispersed throughout the endometrium and subluminal epithelium; cell numbers declined on the day before term, then increased postpartum. Within myometrium, macrophages congregated in stroma surrounding muscle bundles, and staining was enhanced near term. Macrophage numbers were similar in pregnant and postpartum uteri, enhanced more than 2-fold over those in nonpregnant controls. Uterine sections were also analyzed by laser-scanning cytometry to enumerate activated macrophages (i.e., those that express the intercellular adhesion molecule marker CD54+) and to determine cell cycle (propidium iodide fluorescence). Activated macrophages were directly proportional to cell numbers and, by cell cycle analysis, were not terminally differentiated. Highest cell numbers occurred on Day 15: 4-fold greater than those in nonpregnant controls and 2-fold higher than those at Day 18 or in postpartum groups. These findings indicate a decline in endometrial macrophage numbers at least one day before the onset of parturition and raise the possibility that trafficking of this immune cell may contribute to onset of labor.

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A.M. Mackler

Macrophage Trafficking in the Uterus and Cervix Precedes Parturition in the Mouse

The role of leukocyte traffic and activation in parturition

Indoleamine 2,3-Dioxygenase Is Regulated by IFN-γ in the Mouse Placenta DuringListeria monocytogenesInfection

The Role of Leukocyte Traffic and Activation in Parturition

Distribution and Activation of Uterine Mononuclear Phagocytes in Peripartum Endometrium and Myometrium of the Mouse

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