BDNF and NT-4/5 exert neurotrophic influences on injured adult spinal motor neurons

Friedman, Beth; Kleinfeld, David; Ip, Nancy Y.; Verge, Valerie M. K.; Moulton, Ronald; Boland, Patricia; Zlotchenko, Elizabeth; Lindsay, Ronald M.; Li, Liming

doi:10.1523/jneurosci.15-02-01044.1995

Cited by 196 publications

(118 citation statements)

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“…Loss of cholinergic phenotype of axotomized mature motor neurons and rescue thereof by exogenous TrkB ligands is well documented (Yan et al, 1994;Friedman et al, 1995;Wang et al, 1997;Fernandes et al, 1998). Loss of NeuN expression occurs in axotomized facial motor neurons but not in axotomized rubrospinal neurons (McPhail et al, 2004a).…”

Section: Long-term Expression Of Truncated Trkb Results In Motor Neurmentioning

confidence: 99%

“…Cholinergic marker expression in injured adult motor neurons is regulated by exogenously applied TrkB ligands (Yan et al, 1994;Friedman et al, 1995;Tuszynski et al, 1996;Wang et al, 1997;Fernandes et al, 1998). To determine whether overexpression of TrkB isoforms affected the expression of neuronal markers in mature facial motor neurons, we stained sections of AAVinjected animals with an antibody for NeuN, a nuclear protein with DNA binding properties (Mullen et al, 1992), and an antibody for the neurotransmitter synthesizing enzyme ChAT.…”

Section: Downregulation Of Neuronal Marker Expression In Truncated Trmentioning

confidence: 99%

“…NT-4/5 is the predominant neurotrophin expressed in the targets of mature facial and spinal motor neurons Funakoshi et al, 1995;Griesbeck et al, 1995). Adult motor neurons remain responsive to BDNF, because exogenously applied TrkB ligands maintain the cholinergic phenotype of axotomized adult facial, spinal, and hypoglossal motor neurons (Yan et al, 1994;Friedman et al, 1995;Tuszynski et al, 1996;Wang et al, 1997;Fernandes et al, 1998) and rescue avulsed motor neurons from injury-induced cell death Kishino et al, 1997;Novikov et al, 1997).…”

Section: Introductionmentioning

confidence: 99%

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Long-Term Adeno-Associated Viral Vector-Mediated Expression of Truncated TrkB in the Adult Rat Facial Nucleus Results in Motor Neuron Degeneration

et al. 2006

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Adult facial motor neurons continue to express full-length TrkB tyrosine kinase receptor (TrkB.FL), the high-affinity receptor for the neurotrophins BDNF and neurotrophic factor-4/5 (NT-4/5), suggesting that they remain dependent on target-derived and locally produced neurotrophins in adulthood. Studies on the role of TrkB signaling in the adult CNS have been hampered by the early lethality of bdnf, nt-4/5, and trkB knock-out mice. We disrupted TrkB.FL signaling in adult facial motor neurons using adeno-associated viral vector-mediated overexpression of a naturally occurring dominant-negative TrkB receptor, TrkB.T1. Expression of TrkB.T1 resulted in neuronal atrophy and downregulation of NeuN (neuronal-specific nuclear protein) and ChAT expression in facial motor neurons. A subset of transduced neurons displayed signs of motor neuron degeneration that included dendritic beading and rounding of the soma at 2 months of TrkB.T1 expression. Cell counts revealed a significant reduction in motor neuron number in the facial nucleus at 4 months after onset of expression of TrkB.T1, suggesting that a proportion of TrkB.T1-expressing motor neurons became undetectable as a result of severe atrophy or was lost because of cell death. In contrast, overexpression of TrkB.FL did not result in a decrease in facial motor neuron number. Our results indicate that a subset of facial motor neurons remains dependent on TrkB ligands for the maintenance of structural and molecular characteristics in adulthood.

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Section: Long-term Expression Of Truncated Trkb Results In Motor Neurmentioning

confidence: 99%

Section: Downregulation Of Neuronal Marker Expression In Truncated Trmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Long-Term Adeno-Associated Viral Vector-Mediated Expression of Truncated TrkB in the Adult Rat Facial Nucleus Results in Motor Neuron Degeneration

et al. 2006

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“…The neuroprotective effects of neurotrophins have been demonstrated under various pathological conditions. For example, neurotrophins protect various populations of neurons from axotomy (Hefti, 1986;Yan et al, 1992;Mey and Thanos, 1993;Chiu et al, 1994;Cohen et al, 1994;Mansour-Robaey et al, 1994;Friedman et al, 1995). Neurotrophins can attenuate neuronal death following global or focal cerebral ischemia (Shigeno et al, 1991;Beck et al, 1994;Chan, 1996).…”

Section: Maximization For Prevention Of Hypoxic-ischemic Neuronal Deathmentioning

confidence: 99%

Cellular and Molecular Pathways of Ischemic Neuronal Death

Won¹,

Kim²,

Gwag³

2002

BMB Reports

201

172

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Three routes have been identified triggering neuronal death under physiological and pathological conditions. Excess activation of ionotropic glutamate receptors cause influx and accumulation of Ca 2+ and Na + that result in rapid swelling and subsequent neuronal death within a few hours. The second route is caused by oxidative stress due to accumulation of reactive oxygen and nitrogen species. Apoptosis or programmed cell death that often occurs during developmental process has been coined as additional route to pathological neuronal death in the mature nervous system. Evidence is being accumulated that excitotoxicity, oxidative stress, and apoptosis propagate through distinctive and mutually exclusive signal transduction pathway and contribute to neuronal loss following hypoxic-ischemic brain injury. Thus, the therapeutic intervention of hypoxic-ischemic neuronal injury should be aimed to prevent excitotoxicity, oxidative stress, and apoptosis in a concerted way.

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“…C iliary neurotrophic factor (C N TF), a member of the neuropoietin family, brain-derived neurotrophic factor (BDNF), a member of the neurotrophin family, and glial cell line-derived neurotrophic factor (GDN F), a member of the Transforming Growth Factor ␤ (TGF-␤) family, all have demonstrable neuronal survival activity in vivo. Application of any one of these NFs to the proximal stump of a cut facial nerve or sciatic nerve of a neonatal rat protects the facial nucleus and spinal cord motoneurons, respectively, from axotomy-induced death (Sendtner et al, 1990(Sendtner et al, , 1992Yan et al, 1992;Koliatsos et al, 1993;Henderson et al, 1994;Friedman et al, 1995;Li et al, 1995). Under other conditions neurons may be stimulated by target-derived NFs to themselves express N Fs that may, in turn, act both in an autocrine/paracrine manner (Schecterson and Bothwell, 1992).…”

mentioning

confidence: 99%

Targeted Transduction of CNS Neurons with Adenoviral Vectors Carrying Neurotrophic Factor Genes Confers Neuroprotection That Exceeds the Transduced Population

Baumgartner¹,

Shine

1997

J. Neurosci.

113

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Application of neurotrophic factors (NFs) to the cut stump of motor nerves of neonatal rats confers neuroprotection from trauma-induced neuronal death. To test whether motoneurons are capable of responding to endogenously produced NFs, facial motoneurons were genetically modified in vivo to express several NFs and then tested for their response to peripheral nerve damage. Replication-defective adenoviral vectors [Adv.Rous sarcoma virus (RSV)-nf] representing three families of NFs were constructed that carried genes for brain-derived neurotrophic factor (BDNF), ciliary neurotrophic factor (CNTF), glial cell-derived neurotrophic factor (GDNF), and nerve growth factor. Media from cultured cells transduced with Adv.RSV-nf contained NFs that supported the survival of cultured chick sensory neurons in the same manner as recombinant NF standards. When Adv.RSV-nf or an adenoviral vector containing the ␤-galactosidase gene (Adv.RSV-␤-gal) were injected into the facial muscles of neonatal rats the vectors were retrogradely transported to the facial nucleus where the NFs or ␤-gal were expressed. A fraction (ϳ10%) of the neurons were transduced as demonstrated by reverse transcriptase-PCR, histochemistry, and immunocytochemistry. In the case of Adv.RSV-BDNF, Adv.RSV-CNTF, and Adv.RSV-GDNF, a significant portion of the facial nucleus neurons was protected, 16.5, 18.2, and 53.3%, respectively, from death after axotomy, showing that neurons are capable of transporting the Adv.RSV-nf, expressing the recombinant NF genes, and responding to the NFs. In the case of Adv.RSV-GDNF, a greater number of facial nucleus motoneurons survived than were transduced, indicating that neighboring untransduced neurons were protected by the GDNF expressed by the transduced neurons by a paracrine mechanism.

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BDNF and NT-4/5 exert neurotrophic influences on injured adult spinal motor neurons

Cited by 196 publications

References 50 publications

Long-Term Adeno-Associated Viral Vector-Mediated Expression of Truncated TrkB in the Adult Rat Facial Nucleus Results in Motor Neuron Degeneration

Long-Term Adeno-Associated Viral Vector-Mediated Expression of Truncated TrkB in the Adult Rat Facial Nucleus Results in Motor Neuron Degeneration

Cellular and Molecular Pathways of Ischemic Neuronal Death

Targeted Transduction of CNS Neurons with Adenoviral Vectors Carrying Neurotrophic Factor Genes Confers Neuroprotection That Exceeds the Transduced Population

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