All Stories

  1. Selective regulation of axonal growth from developing hippocampal neurons by tumor necrosis factor superfamily member APRIL
  2. TNFα reverse signaling promotes sympathetic axon growth and target innervation
  3. Regulation of neurite growth by tumour necrosis superfamily member RANKL
  4. Regulation of neural process growth, elaboration and structural plasticity by NF-κB
  5. Selective regulation of nerve growth factor expression in developing cutaneous tissue by early sensory innervation
  6. Faculty Opinions recommendation of Nna1 mediates Purkinje cell dendritic development via lysyl oxidase propeptide and NF-κB signaling.
  7. Faculty Opinions recommendation of Neurotrophin receptors TrkA and TrkC cause neuronal death whereas TrkB does not.
  8. Extracellular signals regulating sympathetic neuron survival and target innervation during development
  9. Macrophage stimulating protein is a neurotrophic factor for a sub-population of adult nociceptive sensory neurons
  10. A function for the calponin family member NP25 in neurite outgrowth
  11. HAND transcription factors are required for neonatal sympathetic neuron survival
  12. Neurotrophins giveth and they taketh away
  13. Regulation of sympathetic neuron differentiation by endogenous nerve growth factor and neurotrophin-3
  14. Regulation of axonal and dendritic growth by the extracellular calcium-sensing receptor
  15. NGF-promoted axon growth and target innervation requires GITRL-GITR signaling
  16. Bacterial lipopolysaccharide regulates nociceptin expression in sensory neurons
  17. A fast and accurate procedure for deriving the Sholl profile in quantitative studies of neuronal morphology
  18. Novel class of pain drugs based on antagonism of NGF
  19. Retinoic acid negatively regulates GDNF and neurturin receptor expression and responsiveness in embryonic chicken sympathetic neurons
  20. Neurotrophins: A Ticket to Ride for BDNF
  21. HGF promotes survival and growth of maturing sympathetic neurons by PI-3 kinase- and MAP kinase-dependent mechanisms
  22. Homeodomain-Interacting Protein Kinase-2 Regulates Apoptosis in Developing Sensory and Sympathetic Neurons
  23. Macrophage‐stimulating protein is a neurotrophic factor for embryonic chicken hypoglossal motoneurons
  24. Faculty Opinions recommendation of Identification of DIABLO, a mammalian protein that promotes apoptosis by binding to and antagonizing IAP proteins.
  25. Faculty Opinions recommendation of Smac, a mitochondrial protein that promotes cytochrome c-dependent caspase activation by eliminating IAP inhibition.
  26. Coupling Met to Specific Pathways Results in Distinct Developmental Outcomes
  27. Trophic Support
  28. Negative regulation of PI 3-kinase by Ruk, a novel adaptor protein
  29. Induction of neuronal death by α-synuclein
  30. Neurotrophins: More to NGF than just survival
  31. Neurotrophins: Neurotrophic modulation of neurite growth
  32. Differences in Bcl‐2‐ and Bax‐independent function in regulating apoptosis in sensory neuron populations
  33. TrkB expression and early sensory neuron survival are independent of endogenous BDNF
  34. TrkB expression and early sensory neuron survival are independent of endogenous BDNF
  35. In vivo survival requirement of a subset of nodose ganglion neurons for nerve growth factor
  36. Mutations in the gene encoding human persyn are not associated with amyotrophic lateral sclerosis or familial Parkinson's disease
  37. Identifying Components of Max Factor
  38. p75-Mediated NF-κB Activation Enhances the Survival Response of Developing Sensory Neurons to Nerve Growth Factor
  39. Differences and Developmental Changes in the Responsiveness of PNS Neurons to GDNF and Neurturin
  40. GFRα-4 and the tyrosine kinase Ret form a functional receptor complex for persephin
  41. Point Mutation in trkB Causes Loss of NT4-Dependent Neurons without Major Effects on Diverse BDNF Responses
  42. TrkB signalling inhibits p75-mediated apoptosis induced by nerve growth factor in embryonic proprioceptive neurons
  43. GFRα1 Is an Essential Receptor Component for GDNF in the Developing Nervous System and Kidney
  44. GFRα-4, a New GDNF Family Receptor
  45. Multiple Roles for Hepatocyte Growth Factor in Sympathetic Neuron Development
  46. Cytokines promote the survival of mouse cranial sensory neurones at different developmental stages
  47. Neuronal survival: Early dependence on Schwann cells
  48. Chapter 5 Developmental changes in the neurotrophic factor survival requirements of peripheral nervous system neurons
  49. Studies of neurotrophin biology in the developing trigeminal system
  50. Bcl-2 influences axonal growth rate in embryonic sensory neurons
  51. Neurotrophin switching: where does it stand?
  52. Neurotrophins: The yin and yang of nerve growth factor
  53. NGF Binding to p75 Enhances the Sensitivity of Sensory and Sympathetic Neurons to NGF at Different Stages of Development
  54. Timing and Regulation oftrkBand BDNF mRNA Expression in Placode-derived Sensory Neurons and their Targets
  55. Paracrine and autocrine actions of neurotrophic factors
  56. Characterization of a multicomponent receptor for GDNF
  57. Intracellular Compartmentalization of Two Differentially Spliceds-rex/NSPmRNAs in Neurons
  58. Paracrine Interactions of BDNF Involving NGF-Dependent Embryonic Sensory Neurons
  59. High Specificity of Neurotrophins in the Embryonic Chicken Trigeminal System
  60. GDNF is an age-specific survival factor for sensory and autonomic neurons
  61. Trigeminal Sensory Neurons Require Extrinsic Signals to Switch Neurotrophin Dependence during the Early Stages of Target Field Innervation
  62. NGF Receptor Expression in Sensory Neurons Develops Normally in Embryos Lacking NGF
  63. The Bcl-2 family of proteins, and the regulation of neuronal survival
  64. Neurotrophic Factors: Neurotrophin autocrine loops
  65. Role of Bcl‐2 in the Brain‐derived Neurotrophic Factor Survival Response
  66. Neural Development: Chemoattractants for navigating axons
  67. The role of neurotrophins in the developing nervous system
  68. Neurons from mouse embryos with a null mutation in the tumour suppressor gene p53 undergo normal cell death in the absence of neurotrophins
  69. Localization of nerve growth factor (NGF) and low‐affinity NGF receptors in touch domes and quantification of NGF mRNA in keratinocytes of adult rats
  70. Tracking neurotrophin function
  71. Neurotrophic Factors: Switching neurotrophin dependence
  72. Intrinsic programmes of growth and survival in developing vertebrate neurons
  73. The role of neurotrophins during successive stages of sensory neuron development
  74. Age‐related effects of nerve growth factor on the morphology of embryonic sensory neurons in vitro
  75. p75-Deficient trigeminal sensory neurons have an altered response to NGF but not to other neurotrophins
  76. The proto-oncogene bcl-2 can selectively rescue neurotrophic factor-dependent neurons from apoptosis
  77. Transforming growth factor‐βs inhibit mitogen‐stimulated proliferation of astrocytes
  78. Intracellular calcium regulates the survival of early sensory neurons before they become dependent on neurotrophic factors
  79. Neurotrophic factors promote the maturation of developing sensory neurons before they become dependent on these factors for survival
  80. The duration of neurotrophic factor independence in early sensory neurons is matched to the time course of target field innervation
  81. Nerve Growth Factor Synthesis and Nerve Growth Factor Receptor Expression in Neural Development
  82. Inhibition of protein synthesis prevents cell death in sensory and parasympathetic neurons deprived of neurotrophic factor in vitro
  83. Expression of the NGF receptor gene in sensory neurons and their cutaneous targets prior to and during innervation
  84. The Development of Primary Sensory Neurons
  85. Innervative ideas
  86. Intrinsic differences in the growth rate of early nerve fibres related to target distance
  87. Role of neurotrophic factors in development
  88. The emerging generality of the neurotrophic hypothesis
  89. Timing and site of nerve growth factor synthesis in developing skin in relation to innervation and expression of the receptor
  90. Fasciculation in the early mouse trigeminal nerve is not ordered in relation to the emerging pattern of whisker follicles
  91. Chemotropic effect of specific target epithelium in the developing mammalian nervous system
  92. The survival and growth of embryonic proprioceptive neurons is promoted by a factor present in skeletal muscle
  93. Different factors from the central nervous system and periphery regulate the survival of sensory neurones
  94. The cranial sensory ganglia in culture: Differences in the response of placode-derived and neural crest-derived neurons to nerve growth factor
  95. Neural crest-derived spinal and cranial sensory neurones are equally sensitive to NGF but differ in their response to tissue extracts
  96. Relation of target encounter and neuronal death to nerve growth factor responsiveness in the developing mouse trigeminal ganglion
  97. Influence of nerve growth factor on developing dorso‐medial and ventro‐lateral neurons of chick and mouse trigeminal ganglia