Chronic diseases are associated with considerable morbidity and mortality. Therefore, new therapeutic strategies are warranted. Here, we provide a brief review outlining the rationale and feasibility ...for the generation of intraspecies and interspecies chimeras, which one day may serve as a platform for organ transplantation. These strategies are further associated with consideration of scientific and ethical issues.
Key points
The decerebrate mouse provides a novel working model of the exercise pressor reflex (EPR).
The decerebrate mouse model of the EPR is similar to the previously described decerebrate rat ...model.
Studying the EPR in transgenic mouse models can define exact mechanisms of the EPR in health and disease.
The exercise pressor reflex (EPR) is defined by a rise in mean arterial pressure (MAP) and heart rate (HR) in response to exercise and is necessary to match metabolic demand and prevent premature fatigue. While this reflex is readily tested in humans, mechanistic studies are largely infeasible. Here, we have developed a novel murine model of the EPR to allow for mechanistic studies in various mouse models. We observed that ventral root stimulation (VRS) in an anaesthetized mouse causes a depressor response and a reduction in HR. In contrast, the same stimulation in a decerebrate mouse causes a rise in MAP and HR which is abolished by dorsal rhizotomy or by neuromuscular blockade. Moreover, we demonstrate a reduced MAP response to VRS using TRPV1 antagonism or in Trpv1 null mice while the response to passive stretch remains intact. Additionally, we demonstrate that intra‐arterial infusion of capsaicin results in a dose‐related rise in MAP and HR that is significantly reduced by a selective and potent TRPV1 antagonist or is completely abolished in Trpv1 null mice. These data serve to validate the development of a decerebrate mouse model for the study of cardiovascular responses to exercise and further define the role of the TRPV1 receptor in mediating the EPR. This novel model will allow for extensive study of the EPR in unlimited transgenic and mutant mouse lines, and for an unprecedented exploration of the molecular mechanisms that control cardiovascular responses to exercise in health and disease.
Key points
The decerebrate mouse provides a novel working model of the exercise pressor reflex (EPR).
The decerebrate mouse model of the EPR is similar to the previously described decerebrate rat model.
Studying the EPR in transgenic mouse models can define exact mechanisms of the EPR in health and disease.
The scarcity of donor organs may be addressed in the future by using pigs to grow humanized organs with lower potential for immunological rejection after transplantation in humans. Previous studies ...have demonstrated that interspecies complementation of rodent blastocysts lacking a developmental regulatory gene can generate xenogeneic pancreas and kidney
. However, such organs contain host endothelium, a source of immune rejection. We used gene editing and somatic cell nuclear transfer to engineer porcine embryos deficient in ETV2, a master regulator of hematoendothelial lineages
. ETV2-null pig embryos lacked hematoendothelial lineages and were embryonic lethal. Blastocyst complementation with wild-type porcine blastomeres generated viable chimeric embryos whose hematoendothelial cells were entirely donor-derived. ETV2-null blastocysts were injected with human induced pluripotent stem cells (hiPSCs) or hiPSCs overexpressing the antiapoptotic factor BCL2, transferred to synchronized gilts and analyzed between embryonic day 17 and embryonic day 18. In these embryos, all endothelial cells were of human origin.
The mammalian heart has a limited regenerative capacity and typically progresses to heart failure following injury. Here, we defined a hedgehog (HH)-Gli1-Mycn network for cardiomyocyte proliferation ...and heart regeneration from amphibians to mammals. Using a genome-wide screen, we verified that HH signaling was essential for heart regeneration in the injured newt. Next, pharmacological and genetic loss- and gain-of-function of HH signaling demonstrated the essential requirement for HH signaling in the neonatal, adolescent, and adult mouse heart regeneration, and in the proliferation of hiPSC-derived cardiomyocytes. Fate-mapping and molecular biological studies revealed that HH signaling, via a HH-Gli1-Mycn network, contributed to heart regeneration by inducing proliferation of pre-existing cardiomyocytes and not by de novo cardiomyogenesis. Further, Mycn mRNA transfection experiments recapitulated the effects of HH signaling and promoted adult cardiomyocyte proliferation. These studies defined an evolutionarily conserved function of HH signaling that may serve as a platform for human regenerative therapies.
Remodeling of the primitive vasculature is necessary for the formation of a complex branched vascular architecture. However, the factors that modulate these processes are incompletely defined. ...Previously, we defined the role of microRNAs (miRNAs) in endothelial specification. In the present study, we further examined the Etv2-Cre mediated ablation of DicerL/L and characterized the perturbed vascular patterning in the embryo proper and yolk-sac. We mechanistically defined an important role for miR-130a, an Etv2 downstream target, in the mediation of vascular patterning and angiogenesis in vitro and in vivo. Inducible overexpression of miR-130a resulted in robust induction of vascular sprouts and angiogenesis with increased uptake of acetylated-LDL. Mechanistically, miR-130a directly regulated Jarid2 expression by binding to its 3'-UTR region. Over-expression of Jarid2 in HUVEC cells led to defective tube formation indicating its inhibitory role in angiogenesis. The knockout of miR-130a showed increased levels of Jarid2 in the ES/EB system. In addition, the levels of Jarid2 transcripts were increased in the Etv2-null embryos at E8.5. In the in vivo settings, injection of miR-130a specific morpholinos in zebrafish embryos resulted in perturbed vascular patterning with reduced levels of endothelial transcripts in the miR-130a morphants. Further, co-injection of miR-130a mimics in the miR-130a morphants rescued the vascular defects during embryogenesis. qPCR and in situ hybridization techniques demonstrated increased expression of jarid2a in the miR-130a morphants in vivo. These findings demonstrate a critical role for Etv2-miR-130a-Jarid2 in vascular patterning both in vitro and in vivo.
Organ transplantation is limited due to the scarcity of donor organs. In order to expand the supply of organs for transplantation, interspecies chimeras have been examined as a potential future ...source of humanized organs. Recent studies using gene editing technologies in combination with somatic cell nuclear transfer technology and hiPSCs successfully engineered humanized skeletal muscle in the porcine embryo. As these technologies progress, there are ethical issues that warrant consideration and dialogue.
This Personal Viewpoint outlines the scientific and ethical issues associated with the engineering of human‐animal chimeras to generate life‐saving organs for transplantation.
Although cardiomyopathy has emerged as a leading cause of death in Duchenne muscular dystrophy (DMD), limited studies and therapies have emerged for dystrophic heart failure.
The purpose of this ...study was to model DMD cardiomyopathy using DMD patient-specific human induced pluripotent stem cell (hiPSC)-derived cardiomyocytes and to identify physiological changes and future drug therapies.
To explore and define therapies for DMD cardiomyopathy, the authors used DMD patient-specific hiPSC-derived cardiomyocytes to examine the physiological response to adrenergic agonists and β-blocker treatment. The authors further examined these agents in vivo using wild-type and mdx mouse models.
At baseline and following adrenergic stimulation, DMD hiPSC-derived cardiomyocytes had a significant increase in arrhythmic calcium traces compared to isogenic controls. Furthermore, these arrhythmias were significantly decreased with propranolol treatment. Using telemetry monitoring, the authors observed that mdx mice, which lack dystrophin, had an arrhythmic death when stimulated with isoproterenol; the lethal arrhythmias were rescued, in part, by propranolol pre-treatment. Using single-cell and bulk RNA sequencing (RNA-seq), the authors compared DMD and control hiPSC-derived cardiomyocytes, mdx mice, and control mice (in the presence or absence of propranolol and isoproterenol) and defined pathways that were perturbed under baseline conditions and pathways that were normalized after propranolol treatment in the mdx model. The authors also undertook transcriptome analysis of human DMD left ventricle samples and found that DMD hiPSC-derived cardiomyocytes have dysregulated pathways similar to the human DMD heart. The authors further determined that relatively few patients with DMD see a cardiovascular specialist or receive β-blocker therapy.
The results highlight mechanisms and therapeutic interventions from human to animal and back to human in the dystrophic heart. These results may serve as a prelude for an adequately powered clinical study that examines the impact of β-blocker therapy in patients with dystrophinopathies.
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The vasculature is an essential organ for the delivery of blood and oxygen to all tissues of the body and is thus relevant to the treatment of ischaemic diseases, injury-induced regeneration and ...solid tumour growth. Previously, we demonstrated that ETV2 is an essential transcription factor for the development of cardiac, endothelial and haematopoietic lineages. Here we report that ETV2 functions as a pioneer factor that relaxes closed chromatin and regulates endothelial development. By comparing engineered embryonic stem cell differentiation and reprogramming models with multi-omics techniques, we demonstrated that ETV2 was able to bind nucleosomal DNA and recruit BRG1. BRG1 recruitment remodelled chromatin around endothelial genes and helped to maintain an open configuration, resulting in increased H3K27ac deposition. Collectively, these results will serve as a platform for the development of therapeutic initiatives directed towards cardiovascular diseases and solid tumours.
Ets variant 2 (Etv2), a member of the Ets factor family, has an essential role in the formation of endothelial and hematopoietic cell lineages during embryonic development. The functional role of ETS ...transcription factors is, in part, dependent on the interacting proteins. There are relatively few studies exploring the coordinated interplay between ETV2 and its interacting proteins that regulate mesodermal lineage determination. In order to identify novel ETV2 interacting partners, a yeast two-hybrid analysis was performed and the C2H2 zinc finger transcription factor VEZF1 (vascular endothelial zinc finger 1) was identified as a binding factor, which was specifically expressed within the endothelium during vascular development. To confirm this interaction, co-immunoprecipitation and GST pull down assays demonstrated the direct interaction between ETV2 and VEZF1. During embryoid body differentiation,
achieved its peak expression at day 3.0 followed by rapid downregulation, on the other hand
expression increased through day 6 of EB differentiation. We have previously shown that ETV2 potently activated
gene transcription. Using a
promoter-luciferase reporter assay, we demonstrated that VEZF1 co-activated the
promoter. Electrophoretic mobility shift assay and Chromatin immunoprecipitation established VEZF1 binding to the
promoter.
knockout embryonic stem cells had downregulation of hematoendothelial marker genes when undergoing embryoid body mediated mesodermal differentiation whereas overexpression of VEZF1 induced the expression of hematoendothelial genes during differentiation. These current studies provide insight into the co-regulation of the hemato-endothelial lineage development
a co-operative interaction between ETV2 and VEZF1.
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