Autoimmune regulator (AIRE): Takes a hypoxia-inducing factor 1A (HIF1A) route to regulate FOXP3 expression in PCOS.

PROBLEM: Autoimmune polyendocrinopathy-candidiasis- ectodermal dystrophy (APECED) pathology due to autoimmune regulator (AIRE) gene mutations leads to loss of central tolerance triggering immune attack, a factor causing infertility. One of the targets of autoimmune attack is ovary and its repercussion results in polycystic ovarian syndrome (PCOS). Although reduced Tregs have been reported in PCOS, a lacunae exists on the status of AIRE gene expression and its role in treg insufficiency via HIF1A-FOXP3 axis in PCOS. METHOD OF STUDY: This is a case-control cohort study recruiting 40 normal and 40 PCOS volunteers for peripheral blood sample collection and PCOS diagnoses were based on Rotterdam Consensus criteria. AIRE and HIF1A expression status was analysed by qRT PCR and western blot. FACS analyses was conducted on AIRE silenced peripheral blood mononuclear cells (PBMCs) after Treg induction. RESULTS: Our results indicate a reduced AIRE (fold change log2 (RQ) = -2.6, P < .01) and increased HIF1A (fold change log2 (RQ) = 3.6, P < .02) in PBMCs of PCOS subjects compared to age-matched controls. Western blot of AIRE and HIF1A corroborates with qRT PCR data. Our CHIP data demonstrate AIRE mediated HIF1A promoter regulation. Silencing of AIRE in PBMCs contributes to the upregulation of HIF1A transcripts by two-fold (P < .0015) and downregulation in FOXP3 expression by three-fold (P < .0017). FACS analyses revealed that silencing of AIRE reduces Tcell to Treg conversion. CONCLUSIONS: Our consolidated results derive a new connection among AIRE-HIF1A-FOXP3 with AIRE reduction enabling increased HIF1A resulting in reduced FOXP3 in PBMCs of PCOS patients leading to Treg insufficiency.

Transcriptional Regulation of Nos2 via STAT5B Binding to Nos2 Gene Promoter Mediates Nitric Oxide Production: Relevance in ß-Cell Maintenance.

BACKGROUND/AIMS: Type 1 Diabetes (T1D) involves autoimmune attack due to reduced regulatory T cells as an effect of mutant Stat5b(C1462A) in non-obese diabetic (NOD) mice, a T1D model resulting in pancreatic ß-cell destruction. Although reactive oxygen species are considered to orchestrate the immune attack, the role of nitric oxide (·NO) still remains debatable. Since JAK-STAT pathway is known to induce Nos2, we investigated the role of STAT5B in nitric oxide generation and oxidative stress. METHODS: In this study, we have used chromatin immunoprecipitation with STAT5B antibody to explore whether STAT5B binds Nos2 promoter. Using Stat5b gene silencing and overexpression models in MIN6 mouse pancreatic ß-cell line we have assayed nitric oxide and its end products, superoxide levels, H2O2 levels, and expression of genes related to redox pathway by immunocytochemistry, biochemical assays, quantitative real time PCR and western blotting. RESULTS: Our results prove that STAT5B binds to the candidate gamma-interferon-activated (GAS) element in Nos2 promoter thereby inducing Nos2 mRNA transcription resulting in NOS2 protein expression in MIN6, a mouse pancreatic ß-cell line. Our findings are substantiated by reduced ·NO as well as nitric oxide end products (nitrate and nitrite), and increased superoxide production in Stat5b silenced MIN6 cells. Our results indicate that C1462A mutant STAT5B shows lack of ·NO generation ability. To detoxify excess superoxide as a consequence of lowered Nos2, an overexpressed SOD2 in Stat5b silenced cells results in increased H2O2 production. H2O2 metabolizing enzymes do not show upregulation upon Stat5b silencing, and thus oxidative stress is brought about by amassed H2O2. Stat5b silencing finally reduces AKT expression, a prosurvival signal. CONCLUSION: Our study enables us to conclude that ß-cell stress is aggravated by the incapability of STAT5B to induce Nos2 resulting in H2O2 accumulation and the ensuing oxidative stress enhances ß-cell damage.

Silencing of dedicator of cytokinesis (DOCK180) obliterates pregnancy by interfering with decidualization due to blockage of nuclear entry of autoimmune regulator (AIRE).

PROBLEM: Dedicator of cytokinesis (DOCK 180) involved in cytoskeletal reorganization is primarily a cytosolic molecule. It is recently shown to be nuclear in HeLa cells but its nuclear function is not known. METHOD OF STUDY: The spatiotemporal distribution of DOCK180 in uterus was studied in uterine cytoplasmic and nuclear compartments during the "window of implantation." The functional significance of nuclear DOCK180 was explored by homology modeling, co-immunoprecipitation assays, and mass spectrometric analysis. Dock180's role in early pregnancy was ascertained by Dock 180 silencing and subsequent quantitative real-time PCR and Western blotting analysis. RESULTS: Our study shows a nuclear DOCK180 in the uterus during "window of implantation." Estrogen and progesterone mediate expression and nuclear translocation of DOCK180. The nuclear function of DOCK180 is attributed to its ability to import autoimmune regulator (AIRE) into the nucleus. Silencing of Dock180 inhibited AIRE nuclear shuttling which influenced its downstream targets, thereby affecting decidualization with AIRE and HOXA-10 as the major players as well as lack of implantation site formation due to impact on angiogenesis-associated genes. CONCLUSION: DOCK180 has an indispensable role in pregnancy establishment as knocking down Dock180 abrogates pregnancy by a consolidated impact on decidualization and angiogenesis by regulating AIRE nuclear entry.

CrkL is a co-activator of estrogen receptor alpha that enhances tumorigenic potential in cancer.

Signaling via estrogen receptor (ER) occurs by interacting with many proteins. Nuclear interactome analysis of ERα in an embryo implantation model revealed the association of chicken tumor virus no. 10 regulator of kinase like (CrkL) with ERα, which was further validated by mammalian two-hybrid assay as well as coimmunoprecipitation and colocalization. Mutation in LPALL motif of CrkL disrupts the ERα-CrkL interaction and its transactivation potential, thereby suggesting that the interaction is mediated via its single ER binding motif, Leu-Pro-Ala-Leu-Leu (LXXLL) motif in the sarcoma homology (SH)2 domain. CrkL deletion constructs of SH2 domain target to the nucleus due to presence of nuclear localization signal. Interestingly, the SH2-SH3 (N terminal) construct shows an increased transactivation potential like CrkI. Weak interaction capability of mutated ERα-Y538F with CrkL validates that CrkL interacts with ERα via its YDLL motif at Tyr 541. In an attempt to understand the physiological relevance of this association, we investigated the impact on cell proliferation using a cancer model, because events associated in the process of pregnancy and cancer are analogous. Also, overexpression of CrkL is frequently associated with tumorigenesis. However, its significance in hormone-regulated cancers still remains obscure. Here, we demonstrate that association of ERα and CrkL directly enhances the tumorigenic potential of CrkL, thus pointing to its role in cell proliferation. In human endometrial cancers, we observed a strong association between ERα and CrkL levels. Thus, the molecular signaling set off by ERα and CrkL association may have a central role in pregnancy and cancer, two events which share parallels in growth, invasion, and immune tolerance.