- Next generation teaching and public engagement
Organized by Debra Goldman-Wohl & Michelle Desforges
While studying the placenta can contribute knowledge and insights to diverse medical fields ranging from developmental biology, oncology, aging, and of course maternal fetal health, it is often not given priority in medical education or research. We will discuss how we can excite and entice the next generation to recognize the importance of studying placental biology, in the hope that we can bring placental investigation to the forefront of research endeavors.
Information technology has undergone dramatic advances in recent decades, compelling us to transform the way that we teach the next generation. In our workshop, we will engage the participants by applying future oriented pedagogy, designed to inspire various target audiences who should be educated in placental biology. Please come prepared to share your past experiences. We also ask that you convey to the participants your ideas on how we can impart knowledge of placental biology to the general public, from school children to prospective parents, to students of the sciences and medicine as well as working scientists and physicians, and no less importantly, to funders of scientific research. We will discuss how we as placental biologists can entice, stimulate and engage our scientific and medical colleagues and laypeople to our field in the coming years. We will deliberate on how our placental community of researchers is responding to “glocalization”, (i.e. globalization and its local impact) and its effect on policy, interaction with colleagues, and research opportunities and directions.
- Inputs of single-cell technologies in maternal-foetal research
Organized by Michael Eikmans & Celine Mehats
Experiments at the single-cell level using micromanipulation, microfluidics, fluorescence-activated cell sorting, or mass spectrometry are getting more and more feasible and affordable in lab routine, thanks to improvements in devices, substantial reductions in sequencing costs, developments of ready-to-use kits, and bioinformatic pipelines. These experiments are typically designed to reveal cell population heterogeneity, to identify minority subpopulations of interest, and to discover unique characteristics of individual cells. Moreover, applying single-cell assays to placenta and maternal-foetal tissues during pregnancy holds the promise to gain comprehensive and increased insights of the cellular interplay in physiology and pathophysiology. In this workshop, we will discuss the input of single-cell assays in maternal-foetal research field with experimental feedbacks of current users of single-cell large scale data. The global aim is to offer a critical overview of affordable single cell techniques for non-specialists and to explore what insights these techniques have provided us.
- Animal models: the right model for the right question
Organized by Christiane Pfarrer & Pascale Chavatte-Palmer
- Lumps & Bumps
Organized by Hiten Mistry & Lesia Kurlak
Lumps and Bumps: Similarities between placentation and cancer.
There are many similarities between mechanisms of placentation and tumour growth in terms of angiogenesis, changes in hypoxia and immune responses. We will organise a workshop bringing together both these fields. This will be an ideal opportunity for similarities/differences to be discussed in an open forum and will hopefully lead to some new and exciting collaborations.
- Trophoblast genomics using state-of-the-art techniques
Organized by Soumen Paul & Geetu Tuteja
Mammalian reproduction is dependent on trophoblast cells, which assure embryo implantation and placentation. Development of trophoblast cell lineage begins with specification of the trophectoderm (TE) in pre-implantation embryos. TE ensures embryo implantation and gives rise to multipotent trophoblast stem cell-like progenitor within the placenta primordium. Subsequently, lineage-specific trophoblast progenitors arise, which differentiate to specialized trophoblast subtypes leading to successful placentation. Thus, trophoblast lineage development is a multi-stage process and relies on proper maintenance of self-renewal ability within trophoblast progenitors as well as their differentiation to specialized trophoblast subtypes of a matured placenta. However, transcriptional, epigenetic and epitranscriptomics mechanisms that dictate trophoblast lineage development in a post-implantation embryo and associations of such mechanisms with pathological pregnancies are poorly understood. The workshop will include talks from various investigators, who are using unbiased genomic studies, including single-cell RNA-seq, ATAC-seq, ChIP-seq and MeRIP-seq to define global gene expression changes, chromatin dynamics and epigenetic/epitranscriptomic modifications during trophoblast lineage development. In addition, research talks will include single-cell genomics to define how trophoblast cell derivatives of the embryo contribute to restructuring the uterine environment, an event required for the establishment of a successful pregnancy.
- Michael J. Soares, PhD University of Kansas Medical Center, USA
- William Pastor, PhD, McGill University, Canada
- Geetu Tuteja, PhD, University of Iowa, USA
- Soumen Paul, PhD, University of Kansas Medical Center, USA