Androgens, although traditionally thought to be male sex steroids, play important roles in female reproduction, both in healthy and pathological states. This mini-review focuses on recent advances in our knowledge of the role of androgens in the ovary. Androgen receptor (AR) is expressed in oocytes, granulosa cells, and theca cells, and is temporally regulated during follicular development. Mouse knockout studies have shown that AR expression in granulosa cells is critical for normal follicular development and subsequent ovulation. In addition, androgens are involved in regulating dynamic changes in ovarian steroidogenesis that are critical for normal cycling. Androgen effects on follicle development have been incorporated into clinical practice in women with diminished ovarian reserve, albeit with limited success in available literature. At the other extreme, androgen excess leads to disordered follicle development and anovulatory infertility known as polycystic ovary syndrome (PCOS), with studies suggesting that theca cell AR may mediate many of these negative effects. Finally, both prenatal and postnatal animal models of androgen excess have been developed and are being used to study the pathophysiology of PCOS both within the ovary and with regard to overall metabolic health. Taken together, current scientific consensus is that a careful balance of androgen activity in the ovary is necessary for reproductive health in women.
Chronic inflammation promotes progression of many cancers, with circulating myeloid-derived suppressor cell (MDSC) levels correlating with poor prognosis. Here we examine effects of MDSCs on lymphangioleiomyomatosis (LAM), a rare disease occurring almost exclusively in women whereby estrogen-sensitive metastatic TSC2-null tumors grow throughout the lungs, markedly reducing pulmonary function. The LAM cell origin remains unknown; however, previous work demonstrated that Tsc2 inactivation in the mouse uterus induced estrogen-dependent myometrial tumors with nearly all features of LAM. Half of these animals developed metastatic myometrial tumors in the lungs, suggesting that LAM cells might originate from the myometrium, possibly explaining its overwhelming female prevalence and estrogen-sensitivity. Here we report that MDSC levels, and in particular granulocytic myeloid cell levels, are elevated in the periphery and in tumors of uterine-specific Tsc2-null mice. Importantly, MDSC depletion or inhibition of their recruitment impairs myometrial tumor growth. RNA and protein analysis of Tsc2-null myometrial tumors and xenografts demonstrate high expression and activity of the serine protease neutrophil elastase (NE), with selective qPCR studies indicating a stromal origin of the NE. Notably, treatment with sivelestat, a known NE inhibitor already approved for human use in some countries, reduces tumor growth similar to MDSC depletion. Furthermore, NE promotes Tsc2-null tumor cell growth, migration, and invasion in vitro. Finally, NE-expressing myeloid cells are present throughout the lungs of LAM patients but not controls. These data suggest that NE derived from granulocytic myeloid cells might directly promote LAM tumor cell progression and could be a novel therapeutic target for LAM.
Lymphangioleiomyomatosis (LAM) is a rare cystic lung disease caused by smooth muscle cell-like tumors containing tuberous sclerosis (TSC) gene mutations and found almost exclusively in females. Patient studies suggest LAM progression is estrogen-dependent, an observation supported by in vivo mouse models. However, in vitro data using TSC-null cells lines demonstrate modest estradiol responses, suggesting estradiol effects in vivo may involve pathways independent of direct tumor stimulation. We previously reported tumor-dependent neutrophil expansion and promotion of TSC2-null tumor growth in an estradiol-sensitive LAM mouse model. We therefore hypothesized that estradiol stimulates tumor growth in part by promoting neutrophil production. Here we report that estradiol-enhanced lung colonization of TSC2-null cells is indeed dependent on neutrophils. We demonstrate that estradiol induces granulopoiesis via ERα in male and female bone marrow cultures. With our novel TSC2-null mouse myometrial cell line, we show that factors released from these cells drive estradiol-sensitive neutrophil production. Lastly, we analyzed single-cell RNA sequencing data from LAM patients and demonstrate the presence of tumor-activated neutrophils. Our data suggest a powerful positive feedback loop whereby estradiol and tumor factors induce neutrophil expansion, which in turn intensifies tumor growth and production of neutrophil-stimulating factors, resulting in continued TSC2-null tumor growth.
Lymphangioleiomyomatosis (LAM) is a cystic lung disease found almost exclusively in genetic females and caused by small clusters of smooth muscle cell tumors containing mutations in one of the two tuberous sclerosis genes (TSC1 or TSC2). Significant advances over the past 2-3 decades have allowed researchers and clinicians to more clearly understand the pathophysiology of LAM, and therefore better diagnose and treat patients with this disease. Despite substantial progress, only one proven treatment for LAM is used in practice: mTORC1 inhibition with medications such as sirolimus. While mTORC1 inhibition effectively slows LAM progression in many patients, it is not curative, is not effective in all patients, and can be associated with significant side effects. Furthermore, the presence of established and accurate biomarkers to follow LAM progression is limited. That said, discovering additional diagnostic and treatment options for LAM is paramount. This review will describe recent advances in LAM research, centering on the origin and nature of the LAM cell, the role of estrogen in LAM progression, the significance of melanocytic marker expression in LAM cells, and potential roles of the microenvironment in promoting LAM tumor growth. By appreciating these processes in more detail, researchers and caregivers may be afforded novel approaches to aid in the treatment of patients with LAM.
Lymphangioleiomyomatosis (LAM) is an estrogen-sensitive lung disease found almost exclusively in women. LAM is characterized by the hyperproliferation of smooth muscle cells creating small tumors throughout the lungs, resulting in the formation of large cysts that replace normal alveolar space. Growth of these tumors and progression of the cyst development leads to loss of pulmonary function, and sometimes subsequent lung transplantation. LAM tumor cells contain mutations in one of the tuberous sclerosis genes (TSC1 or TSC2), leading to activation of the mTORC1 pathway. In fact, mTOR inhibitors are commonly used to treat LAM; however, these drugs are not always effective and have significant side effects, suggesting the need for new therapeutic targets. Additionally, tumors recur even after lung transplantation and LAM cells are found in circulating body fluids, suggesting a metastatic nature of LAM, and a question of the origin of the LAM cell. Due to LAM’s estrogen sensitivity, female specificity, and metastatic nature, we previously proposed that LAM cells originate from the uterine myometrium. We therefore designed a uterine-specific TSC2-null mouse model where all the mice generate uterine tumors characteristic of LAM and half develop lung metastases. Using RNASeq analysis of uterine tissue from this mouse model, when focusing on genes regulated by estrogen and TSC2, we discovered significant upregulation of inflammatory proteases such as Neutrophil Elastase (NE). NE is secreted by myeloid cells such as polymorphonuclear cells (PMNs) and has been reported to promote invasion, migration, and proliferation in various cancers. We found this to be true in LAM as well, as depleting myeloid cells with an antibody directed against PMNs, or inhibiting NE with the NE inhibitor, sivelestat, markedly decreased TSC2-null uterine tumor growth. NE is released when PMNs undergo Neutrophil Extracellular Trap release, or NETosis. NETosis has been shown to have a pro-tumorigenic role in various cancers and we are investigating the effects of NETosis in LAM. We have also generated a novel uterine-specific TSC2-null mouse in the background of no NE to determine whether uterine tumor burden and lung metastases are reduced in NE-null mice and if these mice have PMNs capable of undergoing NETosis in the absence of NE. Overall, our results suggest that NE release from PMNs is critical for LAM tumor development and may be a novel target for its treatment.
The estrogen sensitivity of Lymphangioleiomyomatosis (LAM)—a rare lung disease involving the slow growth of smooth muscle-like adenomas that result in cystic change in the lung parenchyma—is traditionally examined to assess the direct effects of estradiol on the tumor cells. However, we have observed that the estrogen sensitivity of in vitro models is markedly less pronounced than that of in vivo models, suggesting that estradiol may act elsewhere to promote tumor progression. We have previously reported that polymorphonuclear cells (PMNs) are preferentially increased in the immune microenvironment and regulate growth of LAM-like TSC2-null uterine tumors. We hypothesized that, in addition to direct effects of estrogen on tumor cells, estrogen might also stimulate tumor growth by promoting PMN production in the bone marrow and actions in the tumor microenvironment. Here, we show that estrogen availability influences the levels of PMNs in naïve and tumor-burdened mice. Using bone marrow cultures and CFC assay, we demonstrate that estradiol is a potent inducer of PMN production in chronic inflammatory conditions. Employing both pharmacologic agents and estrogen receptor (ER)-null bone marrow, we showed that ER□ is necessary for promoting a PMN fate for myeloid progenitors. While we see that the migratory, invasive, and proliferative capacities of TSC2-null cell lines are not augmented when stimulated with E2 directly, evidence shows estrogen promotes the pro-tumorigenic function of PMNs co-cultured with TSC2-null cell lines. These data provide insight into the robust effect of in vivoestrogen stimulation as estradiol may be a dual effector in LAM tumor progression and great target for anti-LAM therapeutic strategy. Supported by grants from NIH (R01CA193583, F31 CA254132-01).
Lymphangioleiomyomatosis (LAM) is a rare lung disease seen almost exclusively in female sexed individuals and characterized by slowly growing, metastatic smooth muscle cell-like adenomas that cause cyst formation in the lung parenchyma and irreversible loss of pulmonary function. Given the female specificity of disease manifestation, metastatic nature, and estrogen sensitivity of LAM cells, we previously proposed that LAM cells originate in the myometrium. Our subsequent reports showed that inactivation of TSC2 in the mouse uterus results in notable LAM features in the setting of primary myometrial tumors. Additionally, we established that estrogen is required to maintain LAM-like tumor progression in a uterine-specific Tsc2-knockout murine model. However, the observed estrogen sensitivity in vivo is more markedly pronounced than that of our estrogen receptor-positive TSC2-null cells when stimulated with estradiol in vitro, suggesting that estradiol may act elsewhere in vivo to promote LAM progression. Recent immunophenotyping of LAM-like TSC2-null uterine tumors revealed preferential increase in polymorphonuclear cell (PMNs) numbers of the tumor microenvironment; we also determined that PMNs are important regulators of tumor growth. Therefore, we hypothesize that, in addition to direct effects of estrogen on tumor cells, estrogen might also stimulate tumor growth by promoting PMN production in the bone marrow and actions in the tumor microenvironment. Here, we show that estrogen availability influences PMN mobilization in naïve and tumor-burdened mice. Using bone marrow cultures and CFC assay, we demonstrate that estradiol is a potent inducer of PMN production in chronic inflammatory conditions. Employing both pharmacologic agents and estrogen receptor (ER)-null bone marrow, we showed that ERα is necessary for promoting induction of PMN fate for myeloid progenitors. While we see that the migratory, invasive, and proliferative capacities of TSC2-null cell lines are not augmented when stimulated with E2 directly, experiments are underway to assess the extent to which estrogen promotes the pro-tumorigenic function of PMNs co-cultured with TSC2-null cell lines. Together these data provide insight into the robust effect of in vivo estrogen stimulation as estradiol may be a dual effector in LAM tumor progression and great target for anti-LAM therapeutic strategy. Presentation: Saturday, June 11, 2022 1:00 p.m. - 1:05 p.m., Sunday, June 12, 2022 12:30 p.m. - 2:30 p.m.
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