There have been several studies on macrophages involved in endometriosis. Let's look first at what, exactly, do macrophages do:
"Macrophages function as control switches of the immune system, providing a balance between pro-
"Macrophages are recruited at sites of hypoxia and tissue stress, where they clear cell debris and heme-iron and generate pro-life and pro-angiogenesis signals. Macrophages are abundant in endometriotic lesions, where are recruited and undergo alternative activation. In rodents macrophages are required for lesions to establish and to grow; bone marrow-derived Tie-2 expressing macrophages specifically contribute to lesions neovasculature, possibly because they concur to the recruitment of circulating endothelial progenitors, and sustain their survival and the integrity of the vessel wall. Macrophages sense cues (hypoxia, cell death, iron overload) in the lesions and react delivering signals to restore the local homeostasis: their action represents a necessary, non-redundant step in the natural history of the disease. Endometriosis may be due to a misperception of macrophages about ectopic endometrial tissue. They perceive it as a wound, they activate programs leading to ectopic cell survival and tissue vascularization. Clearing this misperception is a critical area for the development of novel medical treatments of endometriosis, an urgent and unmet medical need." http://www.ncbi.nlm.nih.gov/pubmed/23372570
"The
expression of CD68, NCL-MACRO, HAM56, TNFα, IL-6, and IL-1β was significantly
higher in PF macrophages obtained from women with endometriosis than in
controls. The ERα and ERβ had significantly higher expression in macrophages of
women with endometriosis than in controls. A positive correlation was observed
between the expression of ERα and ERβ both in women with and without
endometriosis. The ERα expression was positively correlated with the expression
of inflammatory cytokines in women with endometriosis but not in controls; ERβ
expression was correlated to the expression of inflammatory cytokines in the
both groups. There
is a correlation between the expression of ERβ and proinflammatory cytokines
both in women with and without endometriosis. The expression of ERα correlates
with cytokine production selectively in women with endometriosis but not in
controls.” http://www.fertstert.org/article/S0015-0282(07)00095-7/abstract
"On the basis of the common
occurrence of high concentration of estrogen and activated macrophages in
patients with endometriosis, we postulate that interaction between
17beta-estradiol and macrophage may be an important affair in endometriosis. So
our study was focused on the effect of 17beta-estradiol on macrophage. First
morphology of macrophages was examined with environmental scanning electron
microscopy. Increased size, extension of more microvilli, expression of
retraction fibers and elaboration of membrane ruffles were detected in
17beta-estradiol treated macrophages. Then Nitrate and nitrite level in the
supernatant was measured by the method of Griess and iNOS expression was
analyzed using immunohistochemical staining. It showed that 17beta-estradiol
could induce NO release from peritoneal macrophages and expression of iNOS was
increased. Also more TNF-alpha in supernatant that was measured by MTT via L929
cell was produced by macrophages under the inducing of 17beta-estradiol.
Furthermore, [Ca2+]i, which was viewed by microscope in a laser scanning
confocal unit, elevated 39.8% in peritoneal macrophages after 17beta-estradiol
100 nmol/L treated. The results above demonstrated that peritoneal macrophage
had been activated in both morphology and cytokine line when interaction with
17beta-estradiol, which indicated that macrophage activated by
17beta-estradiol might play a permission role in development of
endometriosis." http://www.ncbi.nlm.nih.gov/pubmed/15088640
"Macrophages particularly play important roles in facilitating development, growth, and repair of nerve fibers...Thus the evidence which suggests that the immune cell population, particularly macrophages, are likely to play crucial roles in growth and survival of nerve fibers in endometriosis is compelling, and indicates that certain inflammatory mechanisms may substantially contribute to the generation of pain in endometriosis." Endometriosis: Science and Practice edited by Linda C. Giudice, MD, Johannes L. H. Evers, MD, David L. Healy, MD http://books.google.com/books?id=kxzaBqmglrMC&pg=PA221...
Could this switching of macrophages
also be used to help with the inflammation of endometriosis then?
"Macrophages are critical
effector cells in the inflammatory response. Classically activated macrophages
initiate the innate immune response and direct the activity of the acquired
immune response. Upon resolution of inflammation, macrophages convert to an
anti-inflammatory phenotype called alternatively activated. Alternatively
activated macrophages promote debris scavenging, tissue remodeling and wound
healing. Intriguingly, macrophages can be manipulated to move back and forth
between these two phenotypes. During inflammatory disorders, like inflammatory
bowel disease, switching macrophages to an alternatively activated phenotype,
could dampen down inflammation and reduce disease. We are currently assessing
the macrophage phenotype present during inflammatory bowel disease and
mechanisms that we could use to switch macrophages to an anti-inflammatory
phenotype during disease." http://www.vangopro.ca/Sly-Lab/overview.html
It still appears that complete removal of endometriosis lesions is the best therapy.