Reversing Uteropathies Including Cancer-Like Changes in Mice by Transplanting Mesenchymal Stromal Cells or XAR Treatment.

Pluripotent, very small embryonic-like stem cells (VSELs) and tissue-committed 'progenitors' termed endometrial stem cells (EnSCs) are reported in mouse uterus. They express gonadal and gonadotropin hormone receptors and thus are vulnerable to early-life endocrine insults. Neonatal exposure of mouse pups to endocrine disruption cause stem/progenitor cells to undergo epigenetic changes, excessive self-renewal, and blocked differentiation that results in various uteropathies including non-receptive endometrium, hyperplasia, endometriosis, adenomyosis, and cancer-like changes in adult life. Present study investigated reversal of these uteropathies, by normalizing functions of VSELs and EnSCs. Two strategies were evaluated including (i) transplanting mesenchymal stromal cells (provide paracrine support) on D60 or (ii) oral administration of XAR (epigenetic regulator) daily from days 60-100 and effects were studied later in 100 days old mice. Results show normalization of stem/progenitor cells (Oct-4, Oct-4A, Sox-2, Nanog) and Wnt signalling (Wnt-4, ß-catenin, Axin-2) specific transcripts. Flow cytometry results showed reduced numbers of 2-6 µm, LIN-CD45-SCA-1 + VSELs. Hyperplasia (Ki67) of epithelial (Pax-8, Foxa-2) and myometrial (α-Sma, Tgf-ß) cells was reduced, adenogenesis (differentiation of glands) was restored, endometrial receptivity and differentiation (LIF, c-KIT, SOX-9, NUMB) and stromal cells niche (CD90, VIMENTIN, Pdgfra, Vimentin) were improved, cancer stem cells markers (OCT-4, CD166) were reduced while tumor suppressor genes (PTEN, P53) and epigenetic regulators (Ezh-2, Sirt-1) were increased. To conclude, normalizing VSELs/EnSCs to manage uteropathies provides a novel basis for initiating clinical studies. The study falls under the umbrella of United Nations Sustainable Development Goal 3 to ensure healthy lives and well-being for all of all ages.

Preventing/Reversing Adverse Effects of Endocrine Disruption on Mouse Testes by Normalizing Tissue Resident VSELs.

Reproductive health of men is declining in today's world due to increased developmental exposure to endocrine-disrupting chemicals (EDCs). We earlier reported that neonatal exposure to endocrine disruption resulted in reduced numbers of seminiferous tubules in Stage VIII, decreased sperm count, and infertility along with testicular tumors in 65% of diethylstilbestrol (DES) treated mice. Epigenetic changes due to EDCs, pushed the VSELs out of a quiescent state to enter cell cycle and undergo excessive self-renewal while transition of c-KIT- stem cells into c-KIT + germ cells was blocked due to altered MMR axis (Np95, Pcna, Dnmts), global hypomethylation (reduced expression of 5-methylcytosine) and loss of imprinting at Igf2-H19 and Dlk1-Meg3 loci. The present study was undertaken to firstly show similar defects in FACS sorted VSELs from DES treated testis and to further explore the reversal of these testicular pathologies by (i) oral administration of XAR (a nano-formulation of resveratrol) or (ii) inter-tubular transplantation of mesenchymal stromal cells (MSCs). Similar defects as reported earlier in the testes were evident, based on RNAseq data, on FACS sorted VSELs from DES treated mice. Both strategies were found effective, improved spermatogenesis, increased number of tubules in Stage VIII, normalized numbers of VSELs and c-KIT + cells, improved epigenetic status of VSELs to restore quiescent state, and reduced cancer incidence from 65% after DES to 13.33% and 20% after XAR treatment or MSCs transplantation respectively. Results provide a basis for initiating clinical studies and the study falls under the umbrella of United Nations Sustainable Development Goal 3 to ensure healthy lives and well-being for all of all ages.

Gonadotropin and steroid hormones regulate pluripotent very small embryonic-like stem cells in adult mouse uterine endometrium.

BACKGROUND: Very small embryonic-like stem cells (VSELs) exist in adult organs, express pluripotent markers and have the ability to differentiate into three germ layers in vitro. Testicular, ovarian and hematopoietic stem/progenitor cells express receptors for follicle stimulating (FSH) and ovarian hormones and are activated by them to undergo proliferation/differentiation. VSELs exist in mouse uterus and are regulated by physiological dose of estradiol (E) & progesterone (P) during endometrial growth, differentiation and regeneration/remodeling. In the present study, effects of daily administration of E (2 µg/day), P (1 mg/Kg/day) or FSH (5 IU/day) for 7 days on the endometrium and stem/progenitor cells was studied in bilaterally ovariectomized mice. RESULTS: E treatment resulted in hypertrophy whereas P resulted in hyperplasia and overcrowding of epithelial cells. FSH also directly stimulated the endometrial cells. Nuclear OCT-4A positive VSELs were visualized in ovariectomized (atrophied) endometrium and cytoplasmic OCT-4B positive epithelial, stromal and endothelial cells were observed after treatment. FSH treated uterine tissue showed presence of 4 alternately spliced FSHR isoforms by Western blotting. 3-5 µm VSELs with a surface phenotype of LIN-/CD45-/SCA-1+ were enumerated by flow cytometry and were found to express ER, PR, FSHR1 and FSHR3 by RT-PCR analysis. Differential effects of treatment were observed on pluripotent (Oct4A, Sox2, Nanog), progenitors (Oct-4, Sca-1), primordial germ cells (Stella, Fragilis) and proliferation (Pcna) specific transcripts by qRT-PCR analysis. FSH and P (rather than E) exerted profound, direct stimulatory effects on uterine VSELs. Asymmetric, symmetric divisions and clonal expansion of stem/progenitor cells was confirmed by co-expression of OCT-4 and NUMB. CONCLUSIONS: Results confirm presence of VSELs and their regulation by circulatory hormones in mouse uterus. Stem cell activation was more prominent after P and FSH compared to E treatment. The results question whether epithelial cells proliferation is regulated by paracrine influence of stromal cells or due to direct action of hormones on stem cells. VSELs expressing nuclear OCT-4A are the most primitive and pluripotent stem cells, undergo asymmetric cell division to self-renew and differentiate into epithelial, stromal and endothelial cells with cytoplasmic OCT-4B. Role of follicle stimulating and steroid hormones on the stem cells needs to be studied in various uterine pathologies.

Evaluating KIND1 human embryonic stem cell-derived pancreatic progenitors to ameliorate streptozotocin-induced diabetes in mice.

BACKGROUND & OBJECTIVES: Diabetes is a global disease burden. Various stem cell types are being explored to serve as an alternative source of islets. This study was conducted to evaluate the ability of in-house developed human embryonic stem (hES) cells-derived pancreatic progenitors to ameliorate diabetic symptoms in mice. METHODS: Pancreatic progenitors were packed in macro-capsules and transplanted into six male Swiss mice and four mice were taken as controls. Thirty days post-transplantation, diabetes was induced by streptozotocin treatment. Mice were then followed up for >100 days and body weight and blood glucose levels were regularly monitored. RESULTS: Control mice lost weight, maintained high glucose levels and did not survive beyond 40 days, whereas transplanted group maintained body weight and four of the six mice had lowered blood glucose levels. About five-fold increase was observed in human C-peptide levels in the recipients of progenitor transplants as compared to diabetic control. INTERPRETATION & CONCLUSIONS: The beneficial effect of transplanted cells was not long-lasting. Further studies are required to critically evaluate and compare the potential of endogenous pluripotent stem cells and hES cells-derived progenitors before moving from bench to the bedside.

Adenoviral vector encoding soluble Flt-1 engineered human endometrial mesenchymal stem cells effectively regress endometriotic lesions in NOD/SCID mice.

This study was undertaken to study the efficiency of Adsflt-1 engineered human eutopic mesenchymal stem cells (MSCs) secreting anti-angiogenic sFlt-1 as a targeted cell-based therapy for endometriosis (EM). Eutopic MSCs were transduced with Adsflt-1/AdV0 viral vectors and were evaluated for expression and secretion of sFlt-1. EM was created in NOD/SCID mice using subcutaneous implantation techniques. Four doses of 10(6) MSC-Adsflt-1/MSC-AdV0 were administered to the model and therapeutic anti-angiogenic ability was analyzed by lesion size measurement, microvessel density, immunohistochemistry and real-time reverse transcriptase-PCR analysis. Approximately 86% of transduced MSCs expressed and secreted sFlt-1. MSC-Adsflt-1-treated animals exhibited significant reduction (52.8±1.8%) in size of endometriotic lesions. We observed a 2.3-fold decrease in the number and a 10-fold decrease in the size of endometrial glands in MSC-Adsflt-1-treated animals. A two-fold decrease in stromal cell densities was also observed in MSC-Adsflt-1-treated animals compared with the MSC-AdV0 group. Specific positive immunostaining for MSC marker, CD146 and sFlt-1 in the lesion sites of the MSC-Adsflt-1 group suggests possible homing of transduced MSCs, their survival and secretion of sFlt-1 at the target sites. A marked reduction in size of microvessels and microvessel density within endometriotic lesions and surrounding host subcutaneous layers was observed in MSC-Adsflt-1 group along with significantly downregulated expression of transcripts for vascular endothelial growth factor, fetal liver kinase 1 and matrix metalloproteinases (2 and 9). Our findings indicate the efficacy of a novel eutopic MSC-Adsflt-1 therapy in EM study models. Evaluating long-term effects of genetically modified MSCs in vivo is essential in translating MSC-Adsflt-1 therapy to the clinics.

High mobility group box 1 (HMGB1) protein in human uterine fluid and its relevance in implantation.

STUDY QUESTION: Does a differential abundance of high mobility group box 1 (HMGB1) protein in uterine fluid (UF) have a functional significance? SUMMARY ANSWER: In rats, an excess of HMGB1 in UF during the receptive phase is detrimental to pregnancy. WHAT IS KNOWN ALREADY: The identification of constituents of the human uterine secretome has been a subject of renewed interest, due to the advent of high throughput proteomic technologies. Proteomic-based investigations of human UF have revealed the presence of several proteins such as mucins, host defense proteins S100, heat shock protein 27 and haptoglobin, etc. The present study reports on the presence of HMGB1, a nuclear protein, in human UF. Activated macrophages/monocytes, natural killer cells, mature dendritic cells, pituicytes and erythroleukemic cells are also known to secrete HMGB1. Existing data suggest that extracellular HMGB1 plays a role in inflammation. STUDY DESIGN, SIZE, DURATION: The human part of this study was cross-sectional in design. UF and endometrial tissues were collected from regularly cycling women in the early secretory (i.e. pre-receptive phase, Day 2 post-ovulation, n = 7) or secretory phase (i.e. receptive phase, Day 6 post-ovulation, n = 7) of their menstrual cycles. Samples were also collected from cycling rats in the proestrous (n = 8) or metestrous (n = 8) phase of their estrous cycles. Uteri were also collected from HMGB1-treated pregnant (n = 7) and untreated pseudo-pregnant (n = 7) rats and from pregnant rats at Day 3-5 post-coitum (p.c.) (n = 18, 3 each for six-time points). PARTICIPANTS/MATERIALS, SETTING, METHODS: In each group of human samples, four samples were used for isobaric tag for relative and absolute quantification (iTRAQ) analysis and three samples were used for immunoblotting experiments to determine the abundance of HMGB1 in pre-receptive and receptive phase UF samples. HMGB1 levels in rat UF and endometrial tissue samples were estimated by ELISA and immunohistochemical studies, respectively. The expression of inflammation-associated molecules, such as nuclear factor kappa B (NFκB), receptor for advanced glycation end products (RAGEs), tumor necrosis factor alpha (TNF-α) and interleukin-6 (IL-6), was analyzed by immunohistochemistry in HMGB1-treated and pseudo-pregnant rats. MAIN RESULTS AND THE ROLE OF CHANCE: HMGB1 was identified as one of the differentially abundant proteins in the list generated by 8-plex iTRAQ analysis of receptive and pre-receptive phase UF samples. In both humans and rats, secreted and cellular levels of HMGB1 showed a similar pattern, i.e. significantly (P < 0.05) lower abundance in the receptive phase compared with that in the pre-receptive phase. A significant (P < 0.05) decline was also observed in the endometrial expression of HMGB1 on the day of implantation in pregnant rats. Exogenous administration of recombinant HMGB1, on Day 3 p.c., led to pregnancy failure, whereas administration of recombinant leukemia inhibitory factor or saline had no effect on pregnant rats. Further investigations revealed morphological changes in the endometrium, an increase in the expression of luminal epithelial NFκB and significantly (P < 0.05) higher expression levels of endometrial RAGE, TNF-α and IL-6 in HMGB1-treated rats, compared with untreated pseudo-pregnant rats. LIMITATIONS, REASONS FOR CAUTION: The mechanisms, contributing to a decline in the cellular and extracellular levels of HMGB1 during the receptive phase, remain to be ascertained. WIDER IMPLICATIONS OF THE FINDINGS: An excess of HMGB1 in the UF may be associated with infertility in women.

Endometrial polyps associated with endometrial hyperplasia in an obese bonnet monkey (Macaca radiata): a case report.

BACKGROUND: A 10-year-old, female bonnet monkey (Macaca radiata) showed abnormal menstrual cycle length with heavy menstrual bleeding for 6-8 days. METHODS: Uterine ultrasound and histological examinations of endometrium by endometrial biopsy. RESULTS: An ultrasound examination of the uterine cavity showed presence of an enlarged polypoid mass. Further endometrial histology confirmed the presence of simple endometrial hyperplasia. CONCLUSIONS: We report for the first time that endometrial polyp is associated with endometrial hyperplasia in obese bonnet monkey.

Uterine secretome and its modulation in rat (Rattus norvegicus).

The present study identifies uterine fluid (UF) proteins that display differential abundance during the embryo-permissive phase in nonconception and conception cycles in rats. UF samples were collected from nonpregnant rats in the proestrous (n=17) and metestrous (n=18) phases and also from pregnant (n=17) and pseudopregnant (n=17) rats on day 4 post coitus. UF protein profile in the metestrous phase was compared with that in the proestrous phase. Similarly, UF protein profile of the pregnant rats was compared with that of the pseudopregnant rats. Two-dimensional PAGE, followed by densitometric analysis of the paired protein spots, revealed differential abundance of 44 proteins in the metestrous phase, compared with that in the proestrous phase. Of these, 29 proteins were identified by matrix-assisted laser desorption/ionization time-of-flight or liquid chromatography-tandem mass spectrometry. Functional groups such as proteases, protease inhibitors, and oxidoreductases were enriched in differentially abundant proteins. Total protease activity in UF was found to be significantly (P<0.05; t-test) higher in the proestrous phase, compared with that in the metestrous phase. Furthermore, 41 UF proteins were found to be differentially abundant in pregnant rats, compared with pseudopregnant rats. Of these, 11 proteins could be identified. Immunoblotting analysis confirmed significantly higher (P<0.05; t-test) abundance of ß-actin, Rho-specific guanine nucleotide dissociation inhibitor alpha (Rho-GDIα), and peroxiredoxin-2 and -6 in the metestrous phase, compared with that in the proestrous phase. Compared with pseudopregnant rats, pregnant rats had significantly higher (P<0.05; t-test) levels of UF ß-actin and Rho-GDIα. Furthermore, these proteins could be detected in the culture supernatants of endometrial epithelial cell lines, thereby providing an evidence of their secretion from endometrial epithelial cells. Data obtained from the study expand our knowledge on the uterine milieu that favours embryo implantation.

Embryo-induced alterations in the molecular phenotype of primate endometrium.

Reproductive biomedicine has made significant advances in the area of assisted reproductive technologies in the last two and half decades. However, embryo implantation remains a major obstacle in securing high pregnancy rates. Various non-human primate models including rhesus, marmoset and baboon have been employed to elucidate in vivo mechanisms underlying the uterine events that initiate, sustain and complete implantation. This review collates the information available on the molecular profile of gestational endometrium in primates. Collectively, these studies reveal dynamic spatio-temporal changes in the expression of cytokines, growth factors, cell-adhesion molecules, cytoskeleton elements and other factors in the endometrium during the post-implantation phase of pregnancy. Considering that the endometrial events during the pre-implantation stages of pregnancy may dictate implantation success, we have developed a bonnet monkey (Macaca radiata) model where pregnancy can be detected at the pre-implantation stage. Using this model, we investigated some of the endometrial events that occur before the completion of implantation. Remarkable changes were observed in endometrial expression of pro-inflammatory cytokines such as tumor necrosis factor-alpha (TNFalpha), as well as expression of immunosuppressive factors such as transforming growth factor beta-2 (TGFbeta2), interleukin-6 (IL-6) and placental protein-14 (PP-14), even before the embryo starts invading the endometrium. This highlights the super-imposition of endometrial receptivity by embryonic stimuli, marked by differential expression and/or localization of the factors that regulate endometrial transformation for embryo survival, growth and development.