1,829 results on '"Hannun, Yusuf A."'
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52. Supplementary Data from Sphingosine-1-Phosphate Receptor 3 Potentiates Inflammatory Programs in Normal and Leukemia Stem Cells to Promote Differentiation
53. Supplementary Tables and Figures from Neutral Sphingomyelinase 2 Heightens Anti-Melanoma Immune Responses and Anti–PD-1 Therapy Efficacy
54. Data from Sphingosine-1-Phosphate Receptor 3 Potentiates Inflammatory Programs in Normal and Leukemia Stem Cells to Promote Differentiation
55. Supplementary Tables from Sphingosine-1-Phosphate Receptor 3 Potentiates Inflammatory Programs in Normal and Leukemia Stem Cells to Promote Differentiation
56. Supplementary figures merged from Sphingosine-1-Phosphate Receptor 3 Potentiates Inflammatory Programs in Normal and Leukemia Stem Cells to Promote Differentiation
57. Supplementary Methods from Off-Target Function of the Sonic Hedgehog Inhibitor Cyclopamine in Mediating Apoptosis via Nitric Oxide–Dependent Neutral Sphingomyelinase 2/Ceramide Induction
58. Data from Off-Target Function of the Sonic Hedgehog Inhibitor Cyclopamine in Mediating Apoptosis via Nitric Oxide–Dependent Neutral Sphingomyelinase 2/Ceramide Induction
59. Supplementary Figures 1 - 7 from Off-Target Function of the Sonic Hedgehog Inhibitor Cyclopamine in Mediating Apoptosis via Nitric Oxide–Dependent Neutral Sphingomyelinase 2/Ceramide Induction
60. Tabel S2 from Signal-Oriented Pathway Analyses Reveal a Signaling Complex as a Synthetic Lethal Target for p53 Mutations
61. Supplementary Figures, Results, and Methods from Signal-Oriented Pathway Analyses Reveal a Signaling Complex as a Synthetic Lethal Target for p53 Mutations
62. Data from Signal-Oriented Pathway Analyses Reveal a Signaling Complex as a Synthetic Lethal Target for p53 Mutations
63. Functions of Ceramide in Coordinating Cellular Responses to Stress
64. Bcl-2 Interrupts the Ceramide-Mediated Pathway of Cell Death
65. Ceramide: An Intracellular Mediator of Apopotosis and Growth Supression [and Discussion]
66. Expression of Ceramide Synthases in Mice and Their Roles in Regulating Acyl-Chain Sphingolipids: A Framework for Baseline Levels and Future Implications in Aging and Disease
67. Exploring the Therapeutic Landscape of Sphingomyelinases
68. Foreword
69. A simple, highly sensitive, and facile method to quantify ceramide at the plasma membrane
70. Upregulation of sphingosine kinase 1 in response to doxorubicin generates an angiogenic response via stabilization of Snail
71. Abstract A59: A tumor supressor role for nSMase2 in triple negative breast cancer
72. Elevation of 20-carbon long chain bases due to a mutation in serine palmitoyltransferase small subunit b results in neurodegeneration
73. Sphingolipid Metabolism and Signaling as a Target for Cancer Treatment
74. Novel Chemotherapeutic Drugs in Sphingolipid Cancer Research
75. Sphingolipid Metabolism and Neutral Sphingomyelinases
76. Targeting (cellular) lysosomal acid ceramidase by B13: Design, synthesis and evaluation of novel DMG-B13 ester prodrugs
77. Targeting acid ceramidase ameliorates fibrosis in mouse models of non-alcoholic steatohepatitis
78. GATA1-Dependent Ceramide Homeostasis Controls Cytokine Signaling and Erythroid Cell Function
79. Alkaline ceramidase catalyzes the hydrolysis of ceramides via a catalytic mechanism shared by Zn2+-dependent amidases
80. An Overview of Sphingolipid Metabolism: From Synthesis to Breakdown
81. Computational Analysis of Sphingolipid Pathway Systems
82. Chapter 19 - Regulation and function of neutral sphingomyelinase 2
83. Erratum
84. A role for caspase‐2 in sphingosine kinase 1 proteolysis in response to doxorubicin in breast cancer cells – implications for the CHK1‐suppressed pathway
85. Ceramide: A Stress Response Mediator Involved in Growth Suppression
86. Introduction and Overview
87. Sphingosine Kinase 1 expression in peritoneal macrophages is required for colon carcinogenesis
88. Metabolism and Function of Sphingolipids in Saccharomyces Cerevisiae: Relevance to Cancer Research
89. Differentiate and switch, a tale of two heads of a lipid
90. Substantial contribution of extrinsic risk factors to cancer development
91. Overview of Acid and Neutral Sphingomyelinases in Cell Signaling
92. Generation of Signaling Molecules by De Novo Sphingolipid Synthesis
93. Ceramide, Ceramidase, and FasL Gene Therapy in Prostate Cancer
94. Dietary Choline and Sphingomyelin Choline moiety Intake and Risk of Colorectal Cancer: A Case Control Study
95. Targeting Acid Ceramidase Ameliorates Fibrosis in Mouse Models of Nonalcoholic Steatohepatitis
96. 12 Baker’s Yeast: a rising foundation for eukaryotic sphingolipid-mediated cell signaling
97. Adiponectin Regulates Bone Mass via Opposite Central and Peripheral Mechanisms through FoxO1
98. Sphingolipids In Vascular Biology
99. Correction: PKCα is required for Akt-mTORC1 activation in non-small cell lung carcinoma (NSCLC) with EGFR mutation
100. Neutral ceramidase deficiency protects against cisplatin-induced acute kidney injury
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