New Insights into Adipokines in Gestational Diabetes Mellitus.

Gestational diabetes mellitus (GDM) is the most common metabolic disorder of pregnancy and has considerable short- and long-term consequences for the health of both the mother and the newborn. Within its pathophysiology, genetic, nutritional, epigenetic, immunological, and hormonal components have been described. Within the last two items, it is known that different hormones and cytokines secreted by adipose tissue, known collectively as adipokines, are involved in the metabolic alterations underlying GDM. Although the maternal circulating profile of adipokines in GDM has been extensively studied, and there are excellent reviews on the subject, it is in recent years that more progress has been made in the study of their expression in visceral adipose tissue (VAT), subcutaneous adipose tissue (SAT), placenta, and their concentrations in the umbilical circulation. Thus, this review compiles and organizes the most recent findings on the maternal and umbilical circulating profile and the levels of expression of adipokines in VAT, SAT, and placenta in GDM.

Alteración del perfil materno de adipocinas circulantes en preeclampsia / Altered maternal adipokine profile in preeclampsia

Resumen OBJETIVOS: Evaluar las concentraciones séricas maternas de las adipocinas: adiponectina, adipsina, leptina, lipocalina-2, proteína quimioatrayente de monocitos-1, factor de crecimiento nervioso, resistina y factor de necrosis tumoral alfa y su relación con el índice de masa corporal previo al embarazo y la ganancia de peso gestacional en mujeres con preeclampsia comparadas con mujeres sanas, y hacer un análisis de la clasificación de preeclampsia en temprana y tardía. MATERIALES Y MÉTODOS: Estudio transversal, comparativo, retrolectivo, con muestreo no probabilístico por conveniencia efectuado en pacientes atendidas en el Hospital de Gineco-Obstetricia 3, Centro Médico Nacional La Raza, Instituto Mexicano del Seguro Social (IMSS). En el preoperatorio se tomó una muestra de sangre para determinar las concentraciones séricas de las adipocinas mediante ensayos multianalito. RESULTADOS: Se estudió una muestra de 75 mujeres con embarazo sano y 44 con preeclampsia (temprana n = 20, tardía n = 24). Solo las concentraciones de adipsina, leptina y factor de necrosis tumoral alfa fueron mayores en preeclampsia que en el embarazo sano [mediana (rango intercuartílico): 3.9 µg/mL (2.9-5.4) vs 2.5 µg/mL (1.9-3.1), 10.6 ng/mL (6.0-19.1) en comparación con 7.1 ng/mL (3.8-12.4), 3.6 pg/mL (2.7-5.8) vs 2.9 (2.3-3.5), respectivamente]. Las concentraciones de las adipocinas no se correlacionaron con el índice de masa corporal previo al embarazo ni con la ganancia de peso gestacional. No hubo diferencias significativas en las concentraciones entre los subtipos de preeclampsia. CONCLUSIÓN: En el tercer trimestre del embarazo la preeclampsia se asocia con un perfil sérico de adipocinas alterado, caracterizado por concentraciones elevadas de adipsina, leptina y factor de necrosis tumoral alfa, que no se relaciona con el índice de masa corporal previo al embarazo, la ganancia de peso gestacional y el subtipo de preeclampsia.

Abstract OBJECTIVES: To evaluate maternal serum concentrations of adipokines: adiponectin, adipsin, leptin, lipocalin-2, monocyte chemoattractant protein-1, nerve growth factor, resistin and tumor necrosis factor-alpha and their relationship with pre-pregnancy body mass index and gestational weight gain in women with preeclampsia compared with healthy women, and to perform an analysis classifying preeclampsia as early and late. MATERIALS AND METHODS: Cross-sectional, comparative, retrolective, non-probabilistic convenience sampling study carried out in patients attended at the Hospital de Gineco-Obstetricia 3, Centro Médico Nacional La Raza, Instituto Mexicano del Seguro Social (IMSS). Preoperatively, a blood sample was taken to determine serum adipokine concentrations by multianalyte assays. RESULTS: A sample of 75 women with healthy pregnancy and 44 with preeclampsia (early n = 20, late n = 24) was studied. Only adipsin, leptin, and tumor necrosis factor-alpha concentrations were higher in preeclampsia than in healthy pregnancy [median (interquartile range): 3. 9 µg/mL (2.9-5.4) vs. 2.5 µg/mL (1.9-3.1), 10.6 ng/mL (6.0-19.1) compared to 7.1 ng/mL (3.8-12.4), 3.6 pg/mL (2.7-5.8) vs. 2.9 (2.3-3.5), respectively]. Adipokine concentrations did not correlate with pre-pregnancy body mass index and gestational weight gain. There were no significant differences in concentrations between preeclampsia subtypes. CONCLUSION: In the third trimester of pregnancy, preeclampsia is associated with an altered serum adipokine profile, characterized by elevated concentrations of adipsin, leptin, and tumor necrosis factor-alpha, which is not related to prepregnancy body mass index, gestational weight gain, and preeclampsia subtype.

Epigenetic Alterations Related to Gestational Diabetes Mellitus.

Gestational diabetes mellitus (GDM) is the most common metabolic complication in pregnancy, which affects the future health of both the mother and the newborn. Its pathophysiology involves nutritional, hormonal, immunological, genetic and epigenetic factors. Among the latter, it has been observed that alterations in DNA (deoxyribonucleic acid) methylation patterns and in the levels of certain micro RNAs, whether in placenta or adipose tissue, are related to well-known characteristics of the disease, such as hyperglycemia, insulin resistance, inflammation and excessive placental growth. Furthermore, epigenetic alterations of gestational diabetes mellitus are observable in maternal blood, although their pathophysiological roles are completely unknown. Despite this, it has not been possible to determine the causes of the epigenetic characteristics of GDM, highlighting the need for integral and longitudinal studies. Based on this, this article summarizes the most relevant and recent studies on epigenetic alterations in placenta, adipose tissue and maternal blood associated with GDM in order to provide the reader with a general overview of the subject and indicate future research topics.

Nuclear Dishevelled targets gene regulatory regions and promotes tumor growth.

Dishevelled (DVL) critically regulates Wnt signaling and contributes to a wide spectrum of diseases and is important in normal and pathophysiological settings. However, how it mediates diverse cellular functions remains poorly understood. Recent discoveries have revealed that constitutive Wnt pathway activation contributes to breast cancer malignancy, but the mechanisms by which this occurs are unknown and very few studies have examined the nuclear role of DVL. Here, we have performed DVL3 ChIP-seq analyses and identify novel target genes bound by DVL3. We show that DVL3 depletion alters KMT2D binding to novel targets and changes their epigenetic marks and mRNA levels. We further demonstrate that DVL3 inhibition leads to decreased tumor growth in two different breast cancer models in vivo. Our data uncover new DVL3 functions through its regulation of multiple genes involved in developmental biology, antigen presentation, metabolism, chromatin remodeling, and tumorigenesis. Overall, our study provides unique insight into the function of nuclear DVL, which helps to define its role in mediating aberrant Wnt signaling.

HIV X4 Variants Increase Arachidonate 5-Lipoxygenase in the Pulmonary Microenvironment and are associated with Pulmonary Arterial Hypertension.

Pulmonary Arterial Hypertension (PAH) is overrepresented in People Living with Human Immunodeficiency Virus (PLWH). HIV protein gp120 plays a key role in the pathogenesis of HIV-PAH. Genetic changes in HIV gp120 determine viral interactions with chemokine receptors; specifically, HIV-X4 viruses interact with CXCR4 while HIV-R5 interact with CCR5 co-receptors. Herein, we leveraged banked samples from patients enrolled in the NIH Lung HIV studies and used bioinformatic analyses to investigate whether signature sequences in HIV-gp120 that predict tropism also predict PAH. Further biological assays were conducted in pulmonary endothelial cells in vitro and in HIV-transgenic rats. We found that significantly more persons living with HIV-PAH harbor HIV-X4 variants. Multiple HIV models showed that recombinant gp120-X4 as well as infectious HIV-X4 remarkably increase arachidonate 5-lipoxygenase (ALOX5) expression. ALOX5 is essential for the production of leukotrienes; we confirmed that leukotriene levels are increased in bronchoalveolar lavage fluid of HIV-infected patients. This is the first report associating HIV-gp120 genotype to a pulmonary disease phenotype, as we uncovered X4 viruses as potential agents in the pathophysiology of HIV-PAH. Altogether, our results allude to the supplementation of antiretroviral therapy with ALOX5 antagonists to rescue patients with HIV-X4 variants from fatal PAH.

Acetylation of conserved DVL-1 lysines regulates its nuclear translocation and binding to gene promoters in triple-negative breast cancer.

Dishevelled (DVL) proteins are central mediators of the Wnt signalling pathway and are versatile regulators of several cellular processes, yet little is known about their post-translational regulation. Acetylation is a reversible post-translational modification (PTM) which regulates the function of several non-histone proteins involved in tumorigenesis. Since we previously demonstrated that lysine deacetylase, SIRT-1, regulates DVL protein levels and its function, we reasoned that DVL could potentially be a substrate for SIRT-1 mediated deacetylation. To further examine the potential role of multiple families of lysine deacetylases in the post-translational regulation of DVL, we screened for novel acetylation sites using liquid chromatography mass-spectrometry (LC-MS/MS) analysis. Herein, we report 12 DVL-1 lysine residues that show differential acetylation in response to changes in oxygen tension and deacetylase inhibition in triple-negative breast cancer (TNBC). PTMs are well documented to influence protein activity, and cellular localization. We also identify that acetylation of two key lysine residues, K69 and K285, present on the DIX and PDZ domains respectively, promote nuclear over cytoplasmic localization of DVL-1, and influences its promoter binding and regulation of genes implicated in cancer. Collectively, these findings for the first time, uncover acetylation as a novel layer of regulation of DVL-1 proteins.

DVL1 and DVL3 differentially localize to CYP19A1 promoters and regulate aromatase mRNA in breast cancer cells.

The CYP19A1 gene encodes aromatase, an enzyme that converts androgens into estrogens and consequently directly contributes to both the depletion of androgens and the synthesis of estrogens in several organs. Aromatase is critical for diverse biological processes such as proliferation, regulation of fat metabolism and hormone signaling. Additionally, it is also overexpressed in diverse cancers and drives hormone-dependent tumor progression and increases 17-ß-estradiol (E2) within tumors and the tumor microenvironment. Although the inhibition of E2 production via aromatase inhibitors represents a major therapeutic paradigm in clinical oncology, fundamental questions regarding how cancer cells gain the capacity to overexpress aromatase remain unanswered. Multiple tissue-specific CYP19A1 promoters are known to be aberrantly active in tumors, yet how this occurs is unclear. Here, for the first time, we report that Dishevelled (DVL) proteins, which are key mediators of Wnt signaling, regulate aromatase expression in multiple breast cancer cell lines. We also report that DVL enters the nucleus and localizes to at least two different CYP19A1 promoters (pII and I.4) previously reported to drive overexpression in breast tumors and to a very distal CYP19A1 placental promoter (I.1) that remains poorly characterized. We go on to demonstrate that DVL-1 and DVL-3 loss of function leads to differential changes in various aromatase transcripts and in E2 production. The report, herein, uncovers a new regulator of CYP19A1 transcription and for the first time demonstrates that DVL, a critical mediator of WNT signaling, contributes to aberrant breast cancer-associated estrogen production.