Epigenome-wide meta-analysis of prenatal maternal stressful life events and newborn DNA methylation.

This is the author accepted manuscript. The final version is available from Springer Nature via the DOI in this recordCode availability: The code used for this EWAS meta-analysis is available from the corresponding authors upon reasonable request.Prenatal maternal stressful life events are associated with adverse neurodevelopmental outcomes in offspring. Biological mechanisms underlying these associations are largely unknown, but DNA methylation likely plays a role. This meta-analysis included twelve non-overlapping cohorts from ten independent longitudinal studies (N = 5,496) within the international Pregnancy and Childhood Epigenetics consortium to examine maternal stressful life events during pregnancy and DNA methylation in cord blood. Children whose mothers reported higher levels of cumulative maternal stressful life events during pregnancy exhibited differential methylation of cg26579032 in ALKBH3. Stressor-specific domains of conflict with family/friends, abuse (physical, sexual, and emotional), and death of a close friend/relative were also associated with differential methylation of CpGs in APTX, MyD88, and both UHRF1 and SDCCAG8, respectively; these genes are implicated in neurodegeneration, immune and cellular functions, regulation of global methylation levels, metabolism, and schizophrenia risk. Thus, differences in DNA methylation at these loci may provide novel insights into potential mechanisms of neurodevelopment in offspring.Medical Research Council and Wellcome Trus

Neuroendocrine–immune disequilibrium and endometriosis: an interdisciplinary approach

Endometriosis, a chronic disease characterized by endometrial tissue located outside the uterine cavity, affects one fourth of young women and is associated with chronic pelvic pain and infertility. However, an in-depth understanding of the pathophysiology and effective treatment strategies of endometriosis is still largely elusive. Inadequate immune and neuroendocrine responses are significantly involved in the pathophysiology of endometriosis, and key findings are summarized in the present review. We discuss here the role of different immune mechanisms particularly adhesion molecules, protein–glycan interactions, and pro-angiogenic mediators in the development and progression of the disease. Finally, we introduce the concept of endometrial dissemination as result of a neuroendocrine-immune disequilibrium in response to high levels of perceived stress caused by cardinal clinical symptoms of endometriosis

A checkpoint cliffhanger at the dawn of placental mammals

The PD-1 ligands PD-L1 and PD-L2 are commonly expressed on the surface of cells, where they regulate immune system activation. However, the specific role played by each ligand has been unclear. Using site-directed mutagenesis, surface plasmon resonance, and crystallography, Philips et al. explore the distinct features of PD-L2 and identify a specific evolutionary event linked to its appearance. This work provides a deeper understanding of how the immune system adapted to mammalian placental gestation and could be an important consideration in the development of new immune checkpoint therapies

In vivo multiphoton microscopy technique to reveal the physiology of the mouse uterus.

PROBLEM: Pregnancy is a challenge to the maternal immune system as it allows the growing of a semiallogeneic fetus within the uterus. Such tolerance suggests a set of complex cellular distributions and interactions inside the organ. Until now, direct observation of such processes was absent because proper intravital imaging techniques were not available. METHOD: We developed a new two-photon microscope stage together with a set of surgical procedures to provide direct observation of immune cell within the mouse uterus. RESULTS: Using our technique, we observed an accumulation of dendritic cells (DCs) in the uterus during the estrus phase of the estrus cycle. Some of the observed DC clusters were located near the lumen of the uterus or small blood vessels, each situated on the antimesometrium side. CONCLUSION: While two-photon microscopy has become a widely used technology for intravital imaging, new advances in the development of staging and experimental protocols can still push the limits of this technique for exploring new biology. As proof of this, we demonstrated that with specially designed staging and surgical protocols, we observed the formation of DC clusters in the uterus; structures that may play a role in the complex immunology of the uterus-fetal interface

In vivo multiphoton microscopy technique to reveal the physiology of the mouse uterus.

PROBLEM: Pregnancy is a challenge to the maternal immune system as it allows the growing of a semiallogeneic fetus within the uterus. Such tolerance suggests a set of complex cellular distributions and interactions inside the organ. Until now, direct observation of such processes was absent because proper intravital imaging techniques were not available. METHOD: We developed a new two-photon microscope stage together with a set of surgical procedures to provide direct observation of immune cell within the mouse uterus. RESULTS: Using our technique, we observed an accumulation of dendritic cells (DCs) in the uterus during the estrus phase of the estrus cycle. Some of the observed DC clusters were located near the lumen of the uterus or small blood vessels, each situated on the antimesometrium side. CONCLUSION: While two-photon microscopy has become a widely used technology for intravital imaging, new advances in the development of staging and experimental protocols can still push the limits of this technique for exploring new biology. As proof of this, we demonstrated that with specially designed staging and surgical protocols, we observed the formation of DC clusters in the uterus; structures that may play a role in the complex immunology of the uterus-fetal interface

In vivo multiphoton microscopy technique to reveal the physiology of the mouse placenta.

PROBLEM: Pregnancy is a challenge to the maternal immune system as it must defend the body against pathogens while at the same time develop immune tolerance against the fetus growing inside the uterus. Despite ex vivo techniques being used to understand these processes, in vivo techniques are missing. METHOD OF STUDY: To directly study these phenomena, we have developed a new microscope stage and surgical procedures for use in two-photon microscopy, for in vivo observation of the mouse placenta. RESULTS: These tools and surgical procedures demonstrate fetal and maternal blood flow inside the labyrinth zone of the placenta, as well as its three dimensional structure. It was also useful to identify Plasmodium chabaudi-infected red blood cells inside this labyrinth zone. CONCLUSION: We believe this technique will represent an important contribution for expanding the available knowledge concerning cell dynamics and interactions at the fetal-maternal interface

In vivo multiphoton microscopy technique to reveal the physiology of the mouse placenta.

PROBLEM: Pregnancy is a challenge to the maternal immune system as it must defend the body against pathogens while at the same time develop immune tolerance against the fetus growing inside the uterus. Despite ex vivo techniques being used to understand these processes, in vivo techniques are missing. METHOD OF STUDY: To directly study these phenomena, we have developed a new microscope stage and surgical procedures for use in two-photon microscopy, for in vivo observation of the mouse placenta. RESULTS: These tools and surgical procedures demonstrate fetal and maternal blood flow inside the labyrinth zone of the placenta, as well as its three dimensional structure. It was also useful to identify Plasmodium chabaudi-infected red blood cells inside this labyrinth zone. CONCLUSION: We believe this technique will represent an important contribution for expanding the available knowledge concerning cell dynamics and interactions at the fetal-maternal interface

The Concept of Prenatal Gene Therapy

This introductory chapter provides a short review of the ideas and practical approaches that have led to the present and perceived future development of prenatal gene therapy. It summarizes the advantages and the potential adverse effects of this novel preventive and therapeutic approach to the management of prenatal diseases. It also provides guidance to the range of conditions to which prenatal gene therapy may be applied and to the technical approaches, vectors, and societal/ethical considerations for this newly emerging field of Fetal Medicine