ABSTRACT
The ovary is perhaps the most dynamic organ in the human body, only rivaled by the uterus. The molecular mechanisms that regulate follicular growth and regression, ensuring ovarian tissue homeostasis, remain elusive. We have performed single-cell RNA-sequencing using human adult ovaries to provide a map of the molecular signature of growing and regressing follicular populations. We have identified different types of granulosa and theca cells and detected local production of components of the complement system by (atretic) theca cells and stromal cells. We also have detected a mixture of adaptive and innate immune cells, as well as several types of endothelial and smooth muscle cells to aid the remodeling process. Our results highlight the relevance of mapping whole adult organs at the single-cell level and reflect ongoing efforts to map the human body. The association between complement system and follicular remodeling may provide key insights in reproductive biology and (in)fertility.
Subject(s)
Endothelial Cells/classification , Granulosa Cells/classification , Myocytes, Smooth Muscle/classification , Ovarian Follicle/growth & development , Theca Cells/classification , Adult , Base Sequence , Female , Humans , Ovarian Follicle/anatomy & histology , Ovarian Follicle/cytology , Ovulation/physiology , Sequence Analysis, RNA , Uterus/anatomy & histology , Uterus/cytology , Uterus/growth & developmentABSTRACT
It has been established that two developmentally and functionally distinct cell types emerge within the mammalian testis and adrenal gland throughout life. Fetal and adult types of steroidogenic cells (i.e., testicular Leydig cells and adrenocortical cells) develop in the prenatal and postnatal period, respectively. Although the ovary synthesizes steroids postnatally, the presence of fetal-type steroidogenic cells has not been described. We had previously established transgenic mouse lines in which fetal Leydig cells were labeled with an EGFP reporter gene by the FLE (fetal Leydig enhancer) of the Ad4BP/SF-1 (Nr5a1) gene. In the present study, we examined the reporter gene expression in females and found that the reporter gene is turned on in postnatal ovaries. A comparison of the expressions of the EGFP and marker genes revealed that EGFP is expressed in not all but rather a proportion of steroidogenic theca and in interstitial gland cells in the ovary. This finding was further supported by experiments using BAC transgenic mice in which reporter gene expression recapitulated endogenous Ad4BP/SF-1 gene expression. In conclusion, our observations from this study strongly suggest that ovarian theca and interstitial gland cells in mice consist of at least two cell types.
Subject(s)
Adrenal Glands/cytology , Cell Lineage/genetics , Leydig Cells/cytology , Pituitary Gland/cytology , Steroidogenic Factor 1/genetics , Theca Cells/cytology , Adrenal Glands/growth & development , Adrenal Glands/metabolism , Aging , Animals , Animals, Newborn , Female , Fetus , Gene Expression Regulation, Developmental , Genes, Reporter , Green Fluorescent Proteins/genetics , Green Fluorescent Proteins/metabolism , Leydig Cells/metabolism , Luminescent Proteins/genetics , Luminescent Proteins/metabolism , Male , Mice , Mice, Transgenic , Pituitary Gland/growth & development , Pituitary Gland/metabolism , Signal Transduction , Steroidogenic Factor 1/metabolism , Theca Cells/classification , Theca Cells/metabolism , Red Fluorescent ProteinABSTRACT
Currently, histological classifications of ovarian follicular atresia are almost exclusively based on the morphology of the membrana granulosa without reference to the theca interna. Atresia in the bovine small antral ovarian follicle has been redefined into antral or basal atresia where cell death commences initially within antral or basal regions of the membrana granulosa, respectively. To examine cell death in the theca interna in the two types of atretic follicles, bovine ovaries were collected and processed for immunohistochemistry and light microscopy. Follicles were classified as healthy, antral atretic, or basal atretic. Follicle diameter was recorded and sections stained with lectin from Bandeiraea simplicifolia to identify endothelial cells or with an antibody to cytochrome P450 cholesterol side-chain cleavage to identify steroidogenic cells and combined with TUNEL labeling to identify dead cells. The numerical density of steroidogenic cells within the theca interna was significantly reduced (P < 0.001) in basal atretic follicles in comparison with other follicles. Cell death was greater in both endothelial cells (P < 0.05) and steroidogenic cells (P < 0.01) of the theca interna of basal atretic follicles compared with healthy and antral atretic follicles. Thus, we conclude that the theca interna is susceptible to cell death early in atresia, particularly in basal atretic follicles.
Subject(s)
Cholesterol Side-Chain Cleavage Enzyme/metabolism , Endothelial Cells/metabolism , Follicular Atresia/physiology , Ovarian Follicle/cytology , Theca Cells/cytology , Analysis of Variance , Animals , Cattle , Cell Death , Female , Immunohistochemistry , In Situ Nick-End Labeling , Ovarian Follicle/metabolism , Steroids/metabolism , Theca Cells/classification , Theca Cells/metabolismABSTRACT
Certain components of the interstitial glandular tissue of ovaries are singled out and described in the review. Data on the ultrastructure of interstitial cells and on the amount of various components, hormones and enzymic systems in them are systematized. The interstitial glandular tissue of ovaries, besides follicular and lutein cells, forms a steroidogenic complex which ensures a reproductive function of the woman organism.