A framework for neural organoids, assembloids and transplantation studies.

As the field of neural organoids and assembloids rapidly expands, there is an emergent need for guidance and advice on designing, conducting and reporting experiments to increase the reproducibility and utility of these models. Here, our consortium- representing specialized laboratories from around the world- presents a framework for the experimental process that ranges from ensuring the quality and integrity of human pluripotent stem cells to characterizing and manipulating neural cells in vitro, and from transplantation techniques to considerations for modeling human development, evolution, and disease. As with all scientific endeavors, we advocate for rigorous experimental designs tailored to explicit scientific questions, and transparent methodologies and data sharing, to provide useful knowledge for both current research practices and for developing regulatory standards.

Acute resistance to BET inhibitors remodels compensatory transcriptional programs via p300 coactivation.

Initial clinical trials with drugs targeting epigenetic modulators - such as bromodomain and extraterminal protein (BET) inhibitors - demonstrate modest results in acute myeloid leukemia (AML). A major reason for this involves an increased transcriptional plasticity within AML, which allows cells to escape the therapeutic pressure. In this study, we investigated immediate epigenetic and transcriptional responses following BET inhibition and could demonstrate that BET inhibitor-mediated release of BRD4 from chromatin is accompanied by an acute compensatory feedback that attenuates down-regulation, or even increases expression, of specific transcriptional modules.

BCL11A +58/+55 enhancer-editing facilitates HSPC engraftment and HbF induction in rhesus macaques conditioned with a CD45 antibody-drug conjugate.

Editing the +58 region of the BCL11A erythroid enhancer has shown promise in treating β-globin disorders. To address variations in fetal hemoglobin (HbF) response, we investigated editing both +58 and +55 enhancers. Rhesus macaques transplanted with edited hematopoietic stem/progenitor cells (HSPCs) following busulfan conditioning exhibited durable, high-level (∼90%) editing frequencies post transplantation with sustained HbF reactivation over 4 years, without hematological perturbations.

Engineering regional diversity: A morphogen screen for patterned brain organoids.

Morphogens orchestrate cellular diversity during nervous system development, yet a systematic approach to harnessing these signals in stem cell differentiation remains elusive. Amin et al. present a platform integrating parallel morphogen modulator screening with single-cell sequencing of neural organoids, reinforcing brain regionalization principles and enabling detailed cellular annotation.

Ageing limits stemness and tumorigenesis by reprogramming iron homeostasis.

Ageing is associated with a decline in the number and fitness of adult stem cells. Ageing-associated loss of stemness is posited to suppress tumorigenesis, but this hypothesis has not been tested in vivo. Here we use physiologically aged autochthonous genetically engineered mouse models and primary cells to demonstrate that ageing suppresses lung cancer initiation and progression by degrading the stemness of the alveolar cell of origin.

Patterned gastrointestinal monolayers with bilateral access as observable models of parasite gut infection.

Organoids for modelling the physiology and pathology of gastrointestinal tissues are constrained by a poorly accessible lumen. Here we report the development and applicability of bilaterally accessible organoid-derived patterned epithelial monolayers that allow the independent manipulation of their apical and basal sides. We constructed gastric, small-intestinal, caecal and colonic epithelial models that faithfully reproduced their respective tissue geometries and that exhibited stem cell regionalization and transcriptional resemblance to in vivo epithelia.

Supra- and sub-threshold intracellular-like recording of 2D and 3D neuronal networks using nanopillar electrode arrays.

The brain integrates activity across networks of interconnected neurons to generate behavioral outputs. Several physiological and imaging-based approaches have been previously used to monitor responses of individual neurons. While these techniques can identify cellular responses greater than the neuron's action potential threshold, less is known about the events that are smaller than this threshold or are localized to subcellular compartments.

SARS-CoV-2 human challenge reveals biomarkers that discriminate early and late phases of respiratory viral infections.

Blood transcriptional biomarkers of acute viral infections typically reflect type 1 interferon (IFN) signalling, but it is not known whether there are biological differences in their regulation that can be leveraged for distinct translational applications. We use high frequency sampling in the SARS-CoV-2 human challenge model to show induction of IFN-stimulated gene (ISG) expression with different temporal and cellular profiles. MX1 gene expression correlates with a rapid and transient wave of ISG expression across all cell types, which may precede PCR detection of replicative infection.

Emerging models of human and non-human primate placental development - Centre for Trophoblast Research 17th annual meeting 2024.

The 17th annual meeting of the Centre for Trophoblast Research (CTR) took place at the University of Cambridge, UK, on 1-2 July 2024. This year's meeting provided an opportunity to reflect on the significant advancements made recently in modelling the human placenta in vitro. The meeting featured 12 invited speakers and attracted 260 participants from 25 countries.

Hormone-induced thrombosis is mediated through non-canonical fibrin(ogen) aggregation and a novel estrogen target in zebrafish.

Venous thrombosis is a well-known complication of sex hormone therapy, with onset typically within weeks to months after initiation. Worldwide, more than 100 million pre-menopausal women use combined oral contraceptives, with tens to hundreds of thousands developing thrombosis annually, resulting in significant morbidity and mortality. Although it is known that estrogens can alter expression of coagulation factors, the pathways and mechanisms that connect the two systems, as well as the proteins involved in progression to thrombosis, are poorly understood.

The transcription factor GABPA is a master regulator of naïve pluripotency.

The establishment of naïve pluripotency is a continuous process starting with the generation of inner cell mass (ICM) which then differentiating into epiblast (EPI). Recent studies have revealed key transcription factors (TFs) for ICM formation, but which TFs initiate EPI specification remains unknown. Here, using a targeted rapid protein degradation system, we show that GABPA is not only a regulator of major ZGA, but also a master EPI specifier required for naïve pluripotency establishment by regulating 47% of EPI genes during E3.

Single-cell transcriptome analysis reveals CD34 as a marker of human sinoatrial node pacemaker cardiomyocytes.

The sinoatrial node regulates the heart rate throughout life. Failure of this primary pacemaker results in life-threatening, slow heart rhythm. Despite its critical function, the cellular and molecular composition of the human sinoatrial node is not resolved.

Cytokine modulation and immunoregulation of uterine NK cells in pregnancy disorders.

Uterine natural killer (uNK) cells play a pivotal role in promoting placental development and supporting maternal-fetal immune tolerance, primarily through cytokine regulation and growth factor production. While the importance of uNK cells in pregnancy is well-established, the mechanisms of their interactions with trophoblasts and contributions to various pregnancy complications remain incompletely understood. This review highlights recent advancements in understanding uNK cell functions, with a focus on cytokine production, growth factor secretion, and receptor-ligand interactions, particularly involving killer immunoglobulin-like receptors (KIR) and human leukocyte antigen-C (HLA-C).

Models to study myelodysplastic syndrome and acute myeloid leukaemia.

Purpose Of Review: Myelodysplastic syndromes (MDS) and acute myeloid leukemia (AML) are hematological malignancies characterized by complex genetic alterations, leading to poor clinical outcomes. Despite advances in treatment, there is an urgent need for novel therapeutic approaches. This review outlines recent progress in humanized models of MDS and AML and highlight their role in advancing our understanding of these diseases.

The Yin and Yang of Microglia-Derived Extracellular Vesicles in CNS Injury and Diseases.

Microglia, the resident immune cells of the central nervous system (CNS), play a crucial role in maintaining neural homeostasis but can also contribute to disease and injury when this state is disrupted or conversely play a pivotal role in neurorepair. One way that microglia exert their effects is through the secretion of small vesicles, microglia-derived exosomes (MGEVs). Exosomes facilitate intercellular communication through transported cargoes of proteins, lipids, RNA, and other bioactive molecules that can alter the behavior of the cells that internalize them.

The development of growth hormone-releasing hormone analogs: Therapeutic advances in cancer, regenerative medicine, and metabolic disorders.

Growth Hormone-Releasing Hormone (GHRH) and its analogs have gained significant attention for their therapeutic potential across various domains, including oncology, regenerative medicine, and metabolic disorders. Originally recognized for its role in regulating growth hormone (GH) secretion, GHRH has since been discovered to exert broader physiological effects beyond the pituitary gland, with GHRH receptors identified in multiple extrahypothalamic tissues, including tumor cells. This review explores the development of both GHRH agonists and antagonists, focusing on their mechanisms of action, therapeutic applications, and future potential.

15th Annual ENBDC Meeting: How do Cellular Potency, Microenvironment and Natural Rhythms Influence Mammary Gland Biology and Breast Cancer?

Following previous editions, the fifteenth annual workshop of the European Network for Breast Development and Cancer (ENBDC) on Methods in Mammary Gland Biology and Breast Cancer was held from the 2nd to the 4th of May in Weggis, Switzerland. Over the course of this meeting, participants followed and discussed presentations from a roster of internationally renowned invited speakers and selected abstracts, complemented with two poster sessions covering exciting unpublished results. The sessions covered projects on normal mammary gland development, breast cancer evolution and metastasis, as well as epigenetic and metabolic regulation of breast cancer.

Enhancing mitochondrial one-carbon metabolism is neuroprotective in Alzheimer's disease models.

Alzheimer's disease (AD) is the most common form of age-related dementia. In AD, the death of neurons in the central nervous system is associated with the accumulation of toxic amyloid β peptide (Aβ) and mitochondrial dysfunction. Mitochondria are signal transducers of metabolic and biochemical information, and their impairment can compromise cellular function.