Janet Rossant

Understanding the processes and mechanisms underlying early human embryo development has become an increasingly active and important area of research. It has potential for insights into important clinical issues such as early pregnancy loss, origins of congenital anomalies and developmental origins of adult disease, as well as fundamental insights into human biology. Improved culture systems for preimplantation embryos, combined with the new tools of single cell genomics and live imaging, are providing new insights into the similarities and differences between human and mouse development. However, access to human embryo material is still restricted and extended culture of early embryos has regulatory and ethical concerns. Stem cell-derived models of different phases of human development can potentially overcome these limitations and provide a scalable source of material to explore the early …

Cystic fibrosis (CF) is a monogenic recessive disorder, affecting 70,000 people worldwide. CF is due to mutations in the CFTR gene, resulting in a defective protein that leads to symptoms in numerous organs, especially lungs. Despite recent advances, the lack of CF material contributes to the unmet need to find effective treatments for 55% of CF patients, and to restore the function of all affected tissues.A potential strategy would be to use gene-editing technologies (TALENs or CRISPR/Cas9) to introduce into or correct specific mutations in pluripotent stem cells (hPSCs) that can be turned into any other cell type. But current protocols for gene-editing hPSCs are often complicated, lengthy (6-8 months) and costly, thus, being restricted to a few specialised labs.This study describes an optimised protocol to correct the W1282X mutation in 3 CF hPSC lines derived from an adult and children with CF (iPSCs), by …

Physical processes ultimately drive morphogenetic cell movements. Two proposals are that 1) cells migrate toward stiffer tissue (durotaxis) and that 2) the extent of cell rearrangements reflects liquid-solid tissue phase. It is unclear whether and how these concepts are related. Here, we identify fibronectin-dependent tissue stiffness as a control variable that underlies and unifies these phenomena in vivo. In murine limb bud mesoderm, cells are either caged, move directionally by durotaxis or intercalate as a function of their location along a stiffness gradient. A unifying stiffness-phase transition model that is based on a Landau equation accurately predicts cell diffusivity upon loss or gain of fibronectin. Fibronectin is regulated by a WNT5A-YAP positive feedback pathway that controls cell movements, tissue shape and skeletal pattern. The results identify a key determinant of phase transition and show how durotaxis emerges in a mixed phase environment in vivo.

Scientists should carefully consider whether embryo models based on human stem cells are essential to their work because of the associated practical and ethical challenges.Close-up of a blue-gloved hand lifting the lid off a multi-well plate

Introducing or correcting disease-causing mutations through genome editing in human pluripotent stem cells (hPSCs) followed by tissue-specific differentiation provide sustainable models of multiorgan diseases, such as cystic fibrosis (CF). However, low editing efficiency resulting in extended cell culture periods and the use of specialised equipment for fluorescence activated cell sorting (FACS) make hPSC genome editing still challenging. We aimed to investigate whether a combination of cell cycle synchronisation, single-stranded oligodeoxyribonucleotides, transient selection, manual clonal isolation, and rapid screening can improve the generation of correctly modified hPSCs. Here, we introduced the most common CF mutation, ΔF508, into the CFTR gene, using TALENs into hPSCs, and corrected the W1282X mutation using CRISPR-Cas9, in human-induced PSCs. This relatively simple method achieved up to 10% efficiency without the need for FACS, generating heterozygous and homozygous gene edited hPSCs within 3–6 weeks in order to understand genetic determinants of disease and precision medicine.

Human embryology is flourishing thanks to an impetus provided by embryo models formed from stem cells. These scientific advances require meticulous experimental work and a refined ethical framework, but also sensible public communication. Securing public support is essential to achieve societal impact.

MECP2 duplication syndrome (MDS) is a neurodevelopmental disorder caused by tandem duplication of the MECP2 locus and its surrounding genes, including IRAK1. Current MDS mouse models involve transgenic expression of MECP2 only, limiting their applicability to the study of the disease. Herein, we show that an efficient and precise CRISPR/Cas9 fusion proximity-based approach can be utilized to generate an Irak1-Mecp2 tandem duplication mouse model. The Mecp2 Dup model displays a neurological phenotype in keeping with MDS and demonstrates an abnormal immune response to infection not previously observed in other mouse models, possibly stemming from concurrent Irak1 overexpression. The Mecp2 Dup mouse line thus provides an innovative tool to investigate disease mechanisms and potential therapeutic development.

Stem cell-based models of early human embryo development can provide important insights into key stages of human pregnancy. In a recent Cell Research study, based on data obtained from their detailed analysis of gene expression in intact human embryo cultures, Ai and colleagues document the formation of stem cell ‘E-assembloids’ that mimic morphogenetic events of early human post-implantation development in vitro.In vitro fertilization (IVF) has become a standard form of reproductive technology worldwide: it is estimated that 3% of babies born in China each year are produced by IVF. Yet we still have very little understanding of why IVF only succeeds in 40% of cases and why early pregnancy loss remains a persistent problem worldwide. IVF allows access to early human embryos in the first days of their development up to the blastocyst stage. The blastocyst marks the stage when the progenitors of the …