Institution
St. Jude Children's Research Hospital
Healthcare•Memphis, Tennessee, United States•
About: St. Jude Children's Research Hospital is a healthcare organization based out in Memphis, Tennessee, United States. It is known for research contribution in the topics: Population & Virus. The organization has 9344 authors who have published 19233 publications receiving 1233399 citations. The organization is also known as: St. Jude Children's Hospital & St. Jude Hospital.
Topics: Population, Virus, Cancer, Influenza A virus, Leukemia
Papers published on a yearly basis
Papers
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TL;DR: The studies during the past several years have revealed that the ER molecular chaperone BiP is a master regulator of ER function, responsible for maintaining the permeability barrier of the ER during protein translocation and contributing to ER calcium stores.
Abstract: The endoplasmic reticulum (ER) is a command center of the cell that is second only to the nucleus in terms of the breadth of its influence on other organelles and activities. It is a major site of protein synthesis, contains the cellular calcium stores that are an essential component of many signaling pathways, and is the proximal site of a signal transduction cascade that responds to cellular stress conditions and serves to maintain homeostasis of the cell. All eucaryotic cells possess an ER, which can comprise nearly 50% of the membranes of a cell. Its functions can be divided into those that occur on the cytosolic side of the membrane (where protein translation and signal transduction cascades occur) and the luminal space (where most other ER functions take place). Our studies during the past several years have revealed that the ER molecular chaperone BiP is a master regulator of ER function. It is responsible for maintaining the permeability barrier of the ER during protein translocation, directing protein folding and assembly, targeting misfolded proteins for retrograde translocation so they can be degraded by the proteasome, contributing to ER calcium stores, and sensing conditions of stress in this organelle, to activate the mammalian unfolded protein response.
445 citations
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TL;DR: The authors found that H9N2 influenza A viruses from Hong Kong live bird markets have receptor specificity similar to that of human H3N2 viruses and the neuraminidase has mutations in its hemadsorbing site.
445 citations
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TL;DR: It is shown that the retinoblastoma genome is stable, but that multiple cancer pathways can be epigenetically deregulated, and that the proto-oncogene SYK is upregulated in retinOBlastoma and is required for tumour cell survival.
Abstract: Retinoblastoma is an aggressive childhood cancer of the developing retina that is initiated by the biallelic loss of RB1. Tumours progress very quickly following RB1 inactivation but the underlying mechanism is not known. Here we show that the retinoblastoma genome is stable, but that multiple cancer pathways can be epigenetically deregulated. To identify the mutations that cooperate with RB1 loss, we performed whole-genome sequencing of retinoblastomas. The overall mutational rate was very low; RB1 was the only known cancer gene mutated. We then evaluated the role of RB1 in genome stability and considered non-genetic mechanisms of cancer pathway deregulation. For example, the proto-oncogene SYK is upregulated in retinoblastoma and is required for tumour cell survival. Targeting SYK with a small-molecule inhibitor induced retinoblastoma tumour cell death in vitro and in vivo. Thus, retinoblastomas may develop quickly as a result of the epigenetic deregulation of key cancer pathways as a direct or indirect result of RB1 loss.
444 citations
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TL;DR: The authors’ findings show that allogeneic fetal MSC can engraft and differentiate into bone in a human fetus even when the recipient is immunocompetent and HLA-incompatible.
Abstract: Fetal Mesenchymal Stem-Cell Engraftment in Bone after In Utero Transplantation in a Patient with Severe Osteogenesis Imperfecta
444 citations
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TL;DR: The data support a model in which Treg-cell stability can be subverted in certain inflammatory sites, but is maintained by a Sema4a–Nrp1 axis, highlighting this pathway as a potential therapeutic target that could limit TReg-cell-mediated tumour-induced tolerance without inducing autoimmunity.
Abstract: Neuropilin-1 (Nrp1) on regulatory T (Treg) cells is shown to interact with semaphorin-4a (Sema4a) to promote a program of Treg-cell stability and survival, in part through PTEN-mediated modulation of Akt signalling; Nrp1-deficient Treg cells can maintain immune homeostasis but fail to suppress in inflammatory sites, such as tumours, providing an attractive immunotherapeutic target for the treatment of cancers. Regulatory T cells (Treg) constitute a barrier to effective anti-tumour immunity. Their depletion can induce reduction and clearance of many tumours, but as the cells perform an important balancing role in the immune system, depletion also results in unchecked autoimmunity and death. This paper describes an interaction between semaphorin-4a — an activator for T-cell-mediated immunity — and the neuropilin receptor Nrp1 on Treg cells that is required for Treg cells to limit anti-tumour immune responses and to cure established inflammatory colitis, but is dispensable for suppression of autoimmunity and maintenance of immune homeostasis. It remains to be determined whether it is feasible to limit tumour growth by targeting Treg cells without unleashing autoimmunity. The two biological activities may be inseparable, but this work points to ways in which this important system can be further characterized. Regulatory T cells (Treg cells) have a crucial role in the immune system by preventing autoimmunity, limiting immunopathology, and maintaining immune homeostasis1. However, they also represent a major barrier to effective anti-tumour immunity and sterilizing immunity to chronic viral infections1. The transcription factor Foxp3 has a major role in the development and programming of Treg cells2,3. The relative stability of Treg cells at inflammatory disease sites has been a highly contentious subject4,5,6. There is considerable interest in identifying pathways that control the stability of Treg cells as many immune-mediated diseases are characterized by either exacerbated or limited Treg-cell function. Here we show that the immune-cell-expressed ligand semaphorin-4a (Sema4a) and the Treg-cell-expressed receptor neuropilin-1 (Nrp1) interact both in vitro, to potentiate Treg-cell function and survival, and in vivo, at inflammatory sites. Using mice with a Treg-cell-restricted deletion of Nrp1, we show that Nrp1 is dispensable for suppression of autoimmunity and maintenance of immune homeostasis, but is required by Treg cells to limit anti-tumour immune responses and to cure established inflammatory colitis. Sema4a ligation of Nrp1 restrained Akt phosphorylation cellularly and at the immunologic synapse by phosphatase and tensin homologue (PTEN), which increased nuclear localization of the transcription factor Foxo3a. The Nrp1-induced transcriptome promoted Treg-cell stability by enhancing quiescence and survival factors while inhibiting programs that promote differentiation. Importantly, this Nrp1-dependent molecular program is evident in intra-tumoral Treg cells. Our data support a model in which Treg-cell stability can be subverted in certain inflammatory sites, but is maintained by a Sema4a–Nrp1 axis, highlighting this pathway as a potential therapeutic target that could limit Treg-cell-mediated tumour-induced tolerance without inducing autoimmunity.
444 citations
Authors
Showing all 9410 results
Name | H-index | Papers | Citations |
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Richard A. Flavell | 231 | 1328 | 205119 |
David Baltimore | 203 | 876 | 162955 |
John C. Reed | 190 | 891 | 164382 |
Joan Massagué | 189 | 408 | 149951 |
Stuart H. Orkin | 186 | 715 | 112182 |
Douglas R. Green | 182 | 661 | 145944 |
Richard K. Wilson | 173 | 463 | 260000 |
Todd R. Golub | 164 | 422 | 201457 |
Robert G. Webster | 158 | 843 | 90776 |
Elaine R. Mardis | 156 | 485 | 226700 |
David Cella | 156 | 1258 | 106402 |
Rafi Ahmed | 146 | 633 | 93190 |
Ching-Hon Pui | 145 | 805 | 72146 |
Yoshihiro Kawaoka | 139 | 883 | 75087 |
Seth M. Steinberg | 137 | 936 | 80148 |