Peter M. Eimon scite author profile

Using a Xenopus expression-cloning screen, we have isolated Gremlin, a novel antagonist of bone morphogenetic protein (BMP) signaling that is expressed in the neural crest. Gremlin belongs to a novel gene family that includes the head-inducing factor Cerberus and the tumor suppressor DAN. We show that all family members are secreted proteins and that they act as BMP antagonists in embryonic explants. We also provide support for the model that Gremlin, Cerberus, and DAN block BMP signaling by binding BMPs, preventing them from interacting with their receptors. In addition, Cerberus alone blocks signaling by Activin- and Nodal-like members of the TGF beta superfamily. Therefore, we propose that Gremlin, Cerberus, and DAN control diverse processes in growth and development by selectively antagonizing the activities of different subsets of the TGF beta ligands.

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mRNA-engineered mesenchymal stem cells for targeted delivery of interleukin-10 to sites of inflammation

Levy

et al. 2013

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Functional characterization of the Bcl-2 gene family in the zebrafish

Kratz

Eimon

Mukhyala³

et al. 2006

Cell Death Differ

127

153

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Members of the Bcl-2 protein family control the intrinsic apoptosis pathway. To evaluate the importance of this family in vertebrate development, we investigated it in the zebrafish (Danio rerio). We found that the zebrafish genome encodes structural and functional homologs of most mammalian Bcl-2 family members, including multi-Bcl-2-homology (BH) domain proteins and BH3-only proteins. Apoptosis induction by c-irradiation required zBax1 and zPuma, and could be prevented by overexpression of homologs of prosurvival Bcl-2 family members. Surprisingly, zebrafish Bax2 (zBax2) was homologous to mammalian Bax by sequence and synteny, yet demonstrated functional conservation with human Bak. Morpholino knockdown of both zMcl-1a and zMcl-1b revealed their critical role in early embryonic zebrafish development, and in the modulation of apoptosis activation through the extrinsic pathway. These data indicate substantial functional similarity between zebrafish and mammalian Bcl-2 family members, and establish the zebrafish as a relevant model for studying the intrinsic apoptosis pathway.

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Delineation of the cell-extrinsic apoptosis pathway in the zebrafish

et al. 2006

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The mammalian extrinsic apoptosis pathway is triggered by Fas ligand (FasL) and Apo2 ligand/tumor necrosis factor (TNF)-related apoptosis-inducing ligand (Apo2L/TRAIL). Ligand binding to cognate receptors activates initiator caspases directly in a death-inducing signaling complex. In Drosophila, TNF ligand binding activates initiator caspases indirectly, through JNK. We characterized the extrinsic pathway in zebrafish to determine how it operates in a nonmammalian vertebrate. We identified homologs of FasL and Apo2L/TRAIL, their receptors, and other components of the cell death machinery. Studies with three Apo2L/TRAIL homologs demonstrated that they bind the receptors zHDR (previously linked to hematopoiesis) and ovarian TNFR (zOTR). Ectopic expression of these ligands during embryogenesis induced apoptosis in erythroblasts and notochord cells. Inhibition of zHDR, zOTR, the adaptor zFADD, or caspase-8-like proteases blocked ligand-induced apoptosis, as did antiapoptotic Bcl-2 family members. Thus, the extrinsic apoptosis pathway in zebrafish closely resembles its mammalian counterpart and cooperates with the intrinsic pathway to trigger tissue-specific apoptosis during embryogenesis in response to ectopic Apo2L/TRAIL expression.

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The zebrafish as a model organism for the study of apoptosis

2009

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Apoptosis plays important roles in embryogenesis, tissue homeostasis, and immune system regulation. The zebrafish (Danio rerio) is a powerful vertebrate model organism that has been extensively used to study apoptotic cell death during normal development and under conditions of cellular stress. In the past 5 years, a detailed picture has begun to emerge of the molecular underpinnings of the cell-intrinsic and the cell-extrinsic apoptosis signaling pathways in zebrafish. We begin this review with an introduction to the techniques and experimental approaches that are used to study apoptosis in zebrafish. We follow with a general overview of developmental apoptosis during zebrafish embryogenesis. Finally, we present a comprehensive review of the intrinsic and extrinsic apoptosis pathways in zebrafish, focusing on the high degree of conservation with humans and other mammals. Recent publications that draw upon the unique advantages of the zebrafish system to study novel aspects of apoptosis regulation and function are highlighted throughout.

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Brain activity patterns in high-throughput electrophysiology screen predict both drug efficacies and side effects

et al. 2018

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Neurological drugs are often associated with serious side effects, yet drug screens typically focus only on efficacy. We demonstrate a novel paradigm utilizing high-throughput in vivo electrophysiology and brain activity patterns (BAPs). A platform with high sensitivity records local field potentials (LFPs) simultaneously from many zebrafish larvae over extended periods. We show that BAPs from larvae experiencing epileptic seizures or drug-induced side effects have substantially reduced complexity (entropy), similar to reduced LFP complexity observed in Parkinson’s disease. To determine whether drugs that enhance BAP complexity produces positive outcomes, we used light pulses to trigger seizures in a model of Dravet syndrome, an intractable genetic epilepsy. The highest-ranked compounds identified by BAP analysis exhibit far greater anti-seizure efficacy and fewer side effects during subsequent in-depth behavioral assessment. This high correlation with behavioral outcomes illustrates the power of brain activity pattern-based screens and identifies novel therapeutic candidates with minimal side effects.

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High-throughput hyperdimensional vertebrate phenotyping

et al. 2013

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Most gene mutations and biologically active molecules cause complex responses in animals that cannot be predicted by cell culture models. Yet animal studies remain too slow and their analyses are often limited to only a few readouts. Here we demonstrate high-throughput optical projection tomography with micrometer resolution and hyperdimensional screening of entire vertebrates in tens of seconds using a simple fluidic system. Hundreds of independent morphological features and complex phenotypes are automatically captured in three dimensions with unprecedented speed and detail in semi-transparent zebrafish larvae. By clustering quantitative phenotypic signatures, we can detect and classify even subtle alterations in many biological processes simultaneously. We term our approach hyperdimensional in vivo phenotyping (HIP). To illustrate the power of HIP, we have analyzed the effects of several classes of teratogens on cartilage formation using 200 independent morphological measurements and identified similarities and differences that correlate well with their known mechanisms of actions in mammals.

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The use ofin vivozebrafish assays in drug toxicity screening

Eimon

Rubinstein²

2009

Expert Opinion on Drug Metabolism & Toxicology

118

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Peter M. Eimon

The Xenopus Dorsalizing Factor Gremlin Identifies a Novel Family of Secreted Proteins that Antagonize BMP Activities

mRNA-engineered mesenchymal stem cells for targeted delivery of interleukin-10 to sites of inflammation

Functional characterization of the Bcl-2 gene family in the zebrafish

Delineation of the cell-extrinsic apoptosis pathway in the zebrafish

The zebrafish as a model organism for the study of apoptosis

Brain activity patterns in high-throughput electrophysiology screen predict both drug efficacies and side effects

High-throughput hyperdimensional vertebrate phenotyping

The use ofin vivozebrafish assays in drug toxicity screening

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