Papers by Pantelis Tsoulfas
The Journal of Neuroscience, Aug 21, 2013
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Development, 1993
The Trk family of tyrosine kinases encodes receptors for nerve growth factor-related neurotrophin... more The Trk family of tyrosine kinases encodes receptors for nerve growth factor-related neurotrophins. Here we present a developmental expression study of trkC, which encodes a receptor for neurotrophin-3 (NT-3). Like the related genes, trk and trkB, trkC is expressed primarily in neural lineages although the pattern is complex and includes non-neuronal cells. Direct comparison with trk and trkB developmental expression patterns permits the following observations. (1) trkC is expressed in novel neural tissues where other Trk genes are silent. (2) Some tissues appear to coexpress trkB and trkC receptors in the embryo and in the adult. (3) trkC expression can be detected in the gastrulating embryo. These data provide insights into the role of Trk-family receptors and nerve growth factor-related neurotrophins during development and suggest that, in addition to regulating neuronal survival and differentiation, the neurotrophin/Trk receptor system may have broader physiological effects. Fin...
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ABSTRACTThe mammalian brain contains numerous neurons distributed across forebrain, midbrain, and... more ABSTRACTThe mammalian brain contains numerous neurons distributed across forebrain, midbrain, and hindbrain that project axons to the lower spinal cord and work in concert to control movement and achieve homeostasis. Extensive work has mapped the anatomical location of supraspinal cell types and continues to establish specific physiological functions. The patterns of gene expression that typify and distinguish these disparate populations, however, are mostly unknown. Here we combined retrograde labeling of supraspinal cell nuclei with fluorescence activated nuclei sorting and single nuclei RNA sequencing analyses to transcriptionally profile neurons that project axons from the mouse brain to lumbar spinal cord. We identified fourteen transcriptionally distinct cell types and used a combination of established and newly identified marker genes to assign an anatomical location to each. To validate the putative marker genes, we visualized selected transcripts and confirmed selective exp...
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The American journal of pathology, 1994
The molecular mechanisms underlying the pathogenesis of Wilms' tumor (WT) are poorly understo... more The molecular mechanisms underlying the pathogenesis of Wilms' tumor (WT) are poorly understood, although a variety of growth factors including platelet-derived growth factor and insulin-like growth factor are expressed and are thought to contribute to tumor development. In earlier studies, WT cells in culture were found to express the low affinity nerve growth factor receptor, p75. These WT cells were capable of responding to the neurotrophin (NT) NGF, suggesting that NT may be involved in WT pathogenesis. We have examined a group of WT immunohistochemically with antibodies recognizing known trk receptor proteins, the p75 receptor, and the NTs, NGF and NT-3. Confirmatory immunoprecipitation and Western blots were then performed on representative WT samples from the study group. The p75 receptor was found predominantly in the epithelial and blastemal components where high levels of NT were also identified. The trk A and B receptors were primarily within stromal components, where...
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Journal of Biological Chemistry, 1996
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The wound healing process that occurs after spinal cord injury is critical for maintaining tissue... more The wound healing process that occurs after spinal cord injury is critical for maintaining tissue homeostasis and limiting tissue damage, but eventually results in a scar-like environment that is not conducive to regeneration and repair. A better understanding of this dichotomy is critical to developing effective therapeutics that target the appropriate pathobiology, but a major challenge has been the large cellular heterogeneity that results in immensely complex cellular interactions. In this study, we used single cell RNA sequencing to assess virtually all cell types that comprise the mouse spinal cord injury site. In addition to discovering novel subpopulations, we used expression values of receptor-ligand pairs to identify signaling pathways that potentially drive specific cellular interactions during angiogenesis, gliosis, and fibrosis. Our dataset is a valuable resource that provides novel mechanistic insight into the pathobiology of not only spinal cord injury, but also other...
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Journal of Cell Biology, 1993
Thyroid hormones play an important role in brain development, but the mechanism(s) by which triio... more Thyroid hormones play an important role in brain development, but the mechanism(s) by which triiodothyronine (T3) mediates neuronal differentiation is poorly understood. Here we demonstrate that T3 regulates the neurotrophic factor, neurotrophin-3 (NT-3), in developing rat cerebellar granule cells both in cell culture and in vivo. In situ hybridization experiments showed that developing Purkinje cells do not express NT-3 mRNA but do express trkC, the putative neuronal receptor for NT-3. Addition of recombinant NT-3 to cerebellar cultures from embryonic rat brain induces hypertrophy and neurite sprouting of Purkinje cells, and upregulates the mRNA encoding the calcium-binding protein, calbindin-28 kD. The present study demonstrates a novel interaction between cerebellar granule neurons and developing Purkinje cells in which NT-3 induced by T3 in the granule cells promotes Purkinje cell differentiation.
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Chemico-Biological Interactions, 2008
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eneuro
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Cold Spring Harbor Symposia on Quantitative Biology, 1992
Neurotrophins are known to have important functions in the survival of embryonic and adult subpop... more Neurotrophins are known to have important functions in the survival of embryonic and adult subpopulations of neurons. The identification of Trk family RTKs as receptors for NGF-related neurotrophins indicates phosphotyrosine-mediated signal transduction as a principal mechanism for neurotrophin signaling. Previous trk and trkB expression studies (Klein et al. 1989, 1990b; Martin-Zanca et al. 1990) and more recent studies with trkC (L. Tessarollo et al., in prep.) provide important clues about function. Thus, trkB and trkC expression in motor neurons and in many nonneuronal cells suggests that these cells are targets for neurotrophin action in vivo, even though this has not been demonstrated in the classic in vitro survival assays. Expression of trkB and trkC in nonneuronal cells implies that these receptors may act in additional aspects of organogenesis and development. Current approaches to assay Trk receptor and neurotrophin function will be complemented by further studies in the living organism. Transgenic approaches aimed at ectopic expression and at interfering with normal receptor function should provide additional insights. Finally, reverse genetic approaches using targeted mutation of Trk receptors in embryonic stem cells (Stanton et al. 1992) will allow assessment of critical receptor requirements and provide powerful reagents for studying nervous system development and function.
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The supraspinal connectome is essential for normal behavior and homeostasis and consists of a wid... more The supraspinal connectome is essential for normal behavior and homeostasis and consists of a wide range of sensory, motor, and autonomic projections from brain to spinal cord. Extensive work spanning a century has largely mapped the cell bodies of origin, yet their broad distribution and complex spatial relationships present significant challenges to the dissemination and application of this knowledge. Fields that study disruptions of supraspinal projections, for example spinal cord injury, have focused mostly on a handful of major populations that carry motor commands, with only limited consideration of dozens more that provide autonomic or crucial motor modulation. More comprehensive information is essential to understand the functional consequences of different injuries and to better evaluate the efficacy of treatments. Using viral retrograde labeling, 3D imaging, and registration to standard neuro-anatomical atlases we now provide a platform to profile the entire supraspinal co...
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Experimental Neurology, 2021
The supraspinal connectome consists of dozens of neuronal populations that project axons from the... more The supraspinal connectome consists of dozens of neuronal populations that project axons from the brain to the spinal cord to influence a wide range of motor, autonomic, and sensory functions. The complexity and wide distribution of supraspinal neurons present significant technical challenges, leading most spinal cord injury research to focus on a handful of major pathways such as the corticospinal, rubrospinal, and raphespinal. Much less is known about many additional populations that carry information to modulate or compensate for these main pathways, or which carry pre-autonomic and other information of high value to individuals with spinal injury. A confluence of technical developments, however, now enables a whole-connectome study of spinal cord injury. Improved viral labeling, tissue clearing, and automated registration to 3D atlases can quantify supraspinal neurons throughout the murine brain, offering a practical means to track responses to injury and treatment on an unprecedented scale. Here we discuss the need for expanded connectome-wide analyses in spinal injury research, illustrate the potential by discussing a new web-based resource for brain-wide study of supraspinal neurons, and highlight future prospects for connectome analyses.
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Cell Transplantation, 2002
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PloS one, 2017
In jawed vertebrates, oligodendrocytes (OLs) are the myelin-producing glial cells responsible for... more In jawed vertebrates, oligodendrocytes (OLs) are the myelin-producing glial cells responsible for ensheathment of axons within the central nervous system and are also crucial for remyelination following injury or disease. Olig2 is a crucial factor in the specification and differentiation of oligodendrocyte precursor cells (OPCs) that give rise to mature, myelin-producing OLs in the developing and postnatal CNS; however, its role in adulthood is less well understood. To investigate the role Olig2 plays in regulating gene expression in the adult OL lineage in a physiologically-relevant context, we performed chromatin immunoprecipitation followed by next generation sequencing analysis (ChIP-Seq) using whole spinal cord tissue harvested from adult mice. We found that many of the Olig2-bound sites were associated with genes with biological processes corresponding to OL differentiation (Nkx2.2, Nkx6.2, and Sip1), myelination and ensheathment (Mbp, Cldn11, and Mobp), as well as cell cycle ...
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The Journal of neuroscience : the official journal of the Society for Neuroscience, Jan 27, 2005
Demyelination contributes to the physiological and behavioral deficits after contusive spinal cor... more Demyelination contributes to the physiological and behavioral deficits after contusive spinal cord injury (SCI). Therefore, remyelination may be an important strategy to facilitate repair after SCI. We show here that rat embryonic day 14 spinal cord-derived glial-restricted precursor cells (GRPs), which differentiate into both oligodendrocytes and astrocytes, formed normal-appearing central myelin around axons of cultured DRG neurons and had enhanced proliferation and survival in the presence of neurotrophin 3 (NT3) and brain-derived neurotrophin factor (BDNF). We infected GRPs with retroviruses expressing the multineurotrophin D15A (with both BDNF and NT3 activities) and then transplanted them into the contused adult thoracic spinal cord at 9 d after injury. Expression of D15A in the injured spinal cord is five times higher in animals receiving D15A-GRP grafts than ones receiving enhanced green fluorescent protein (EGFP)-GRP or DMEM grafts. Six weeks after transplantation, the graf...
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Proceedings of the National Academy of Sciences, 1994
Neurotrophin 3 (NT-3) promotes differentiation of neural tube progenitors into motoneurons expres... more Neurotrophin 3 (NT-3) promotes differentiation of neural tube progenitors into motoneurons expressing the BEN/SC1 and islet-1 epitopes. A 1.75- to 6.7-fold increase in BEN-positive motoneurons was obtained when quail neural tube cells were cultured with NT-3 at 0.1-10 ng/ml, respectively. In contrast, the overall number of cells, as well as the proportion of motoneurons that developed from cycling precursors, did not change. Addition of NT-3 at 1 ng/ml to cells obtained from ventral half-neural tubes promoted a 2.5-fold stimulation in motoneuron number, confirming the specificity of the effect. Moreover, NT-3 had no significant effect on survival of differentiated avian motoneurons. The distribution of trkC mRNA, which encodes the high-affinity receptor for NT-3, is consistent with these findings. trkC expression is homogeneous in the embryonic day 2 (E2) neural tube, becomes restricted to the mantle layer on E3, where differentiation occurs, and disappears from the ventral third of...
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Neuron, 1993
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Journal of Biological Chemistry, 1998
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Developmental Biology, 2000
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eNeuro
The histological assessment of spinal cord tissue in three dimensions has previously been very ti... more The histological assessment of spinal cord tissue in three dimensions has previously been very time consuming and prone to errors of interpretation. Advances in tissue clearing have significantly improved visualization of fluorescently labelled axons. While recent proof-of-concept studies have been performed with transgenic mice in which axons were prelabeled with GFP, investigating axonal regeneration requires stringent axonal tracing methods as well as the use of animal models in which transgenic axonal labeling is not available. Using rodent models of spinal cord injury, we labeled axon tracts of interest using both adeno-associated virus and chemical tracers and performed tetrahydrofuran-based tissue clearing to image multiple axon types in spinal cords using light sheet and confocal microscopy. Using this approach, we investigated the relationships between axons and scar-forming cells at the injury site as well as connections between sensory axons and motor pools in the spinal ...
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Papers by Pantelis Tsoulfas