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Query: UNIPROT:P42574 (
caspase-3
)
45,978
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Neuronal survival during the developmental period of naturally occurring cell death is mediated through a successful competition for limiting concentrations of neurotrophic factors, and the deprived neurons will die. New results show that induced death through the p75 neurotrophin receptor (
p75(NTR)
), a member of the p55TNF/Fas family of cell death receptors, may also influence survival during development. We find that eliminating
p75(NTR)
or neurotrophin 4 (NT4) in mice leads to a marked attenuation of apoptosis during the programmed cell death period of the trigeminal ganglion neurons, suggesting that NT4 can induce the death of these neurons through the
p75(NTR)
. These in vivo findings were reproduced in primary cell cultures, where NT4 was found to induce death in a
p75(NTR)
-dependent pathway. Analysis of p75 deficient and wild-type cells revealed two separate cell death pathways, a
p75(NTR)
- and
caspase-3
-independent pathway activated by trophic factor deprivation, and a
p75(NTR)
- and
caspase-3
-dependent pathway initiated by NT4. Crossing in the NT4 null alleles in brain-derived neurotrophic factor (BDNF) null mutant mice led to a rescue of a large proportion of BDNF-dependent neurons from excessive cell death, indicating that trophic factor deprivation is not sufficient for the death of many neurons and that additional death inducing signals might be required. Our results suggest that NT4 competitively signals survival and death of sensory neurons through trkB and
p75(NTR)
, respectively.
...
PMID:Attenuation of a caspase-3 dependent cell death in NT4- and p75-deficient embryonic sensory neurons. 1099 52
After injury, the striatum displays several morphologic responses that may play a role in both regenerative and degenerative events. One such response is the de novo expression of the low-affinity p75 neurotrophin receptor (
p75(NTR)
), a gene that plays critical roles in central nervous system (CNS) cell death pathways. The present series of experiments sought to elucidate the cellular origins of this
p75(NTR)
response, to define the conditions under which
p75(NTR)
is expressed after striatal injury, and how this receptor expression is associated with neuronal plasticity. After chemical lesions, by using either the excitotoxin quinolinic acid (QA) or the complex II mitochondria inhibitor 3-nitropropionic acid (3-NP), we compared the expression of the
p75(NTR)
receptor within the rat striatum at different survival times. Intrastriatal administration of QA between 7 days and 21 days postlesion induced
p75(NTR)
expression in astrocytes that was preferentially distributed throughout the lesion core. P75(NTR) immunoreactivity within astrocytes was seen at high (100-220 nmol) but not low (50 nmol) QA doses. Seven and 21 days after 3-NP lesions,
p75(NTR)
expression was present in astrocytes at all doses tested (100-1,000 nmol). However, in contrast to QA, these cells were located primarily around the periphery of the lesion and not within the lesion core. At the light microscopic level
p75(NTR)
immunoreactive elements resembled vasculature: but did not colocalize with the pan endothelium cell marker RecA-1. In contrast,
p75(NTR)
-containing astrocytes colocalized with nestin, vimentin, and 5-bromo-2-deoxyuridine, indicating that these cells are newly born astrocytes. Additionally, striatal cholinergic neurons were distributed around the lesion core expressed
p75(NTR)
3-5 days after lesion in both QA and 3-NP lesions. These cells did not coexpress the pro-apoptotic degradation enzyme
caspase-3
. Taken together, these data indicate that striatal lesions created by means of excitotoxic or metabolic mechanisms trigger the expression of
p75(NTR)
in structures related to progenitor cells. The expression of the
p75(NTR)
receptor after these chemical lesions support the concept that this receptor plays a role in the initiation of endogenous cellular events associated with CNS injury.
...
PMID:Excitotoxic and metabolic damage to the rodent striatum: role of the P75 neurotrophin receptor and glial progenitors. 1189 44
The importance of postmenopausal estrogen replacement therapy in affording protection against the selective and delayed neuronal death associated with cardiac arrest or cardiac surgery in women remains controversial. Here we report that exogenous estrogen at levels that are physiological for hormone replacement in postmenopausal women affords protection against global ischemia-induced neuronal death and prevents activation of apoptotic signaling cascades in the hippocampal CA1 of male gerbils. Global ischemia induced a marked increase in activated
caspase-3
in CA1, evident at 6 hr after ischemia. Global ischemia induced a marked upregulation of the proapoptotic neurotrophin receptor
p75(NTR)
in CA1, evident at 48 hr.
p75(NTR)
expression was induced primarily in terminal deoxynucleotidyl transferase-mediated UTP nick-end labeling-positive cells, indicating expression in neurons undergoing apoptosis. Global ischemia also induced a marked downregulation of mRNA encoding the AMPA receptor GluR2 subunit in CA1.
Caspase-3
,
p75(NTR)
, and GluR2 were not significantly changed in CA3 and dentate gyrus, indicating that the ischemia-induced changes in gene expression were cell specific. Exogenous estrogen attenuated the ischemia-induced increases in activated
caspase-3
and blocked the increase in
p75(NTR)
in post-ischemic CA1 neurons but did not prevent ischemia-induced downregulation of GluR2. These findings demonstrate that long-term estrogen at physiological levels ameliorates ischemia-induced hippocampal injury and indicate that estrogen intervenes at the level of apoptotic signaling cascades to prevent onset of death in neurons otherwise "destined to die."
...
PMID:Estrogen protects against global ischemia-induced neuronal death and prevents activation of apoptotic signaling cascades in the hippocampal CA1. 1189 51
Zinc induces in cultured cortical neurons both
p75(NTR)
and
p75(NTR)
-associated death executor (NADE), which together contribute to caspase-dependent neuronal apoptosis. Since zinc neurotoxicity may contribute to neuronal death following seizures, we examined whether
p75(NTR)
and NADE are co-induced also in rat hippocampal neurons degenerating after seizures. Staining of brain sections with a zinc-specific fluorescent dye (N-(6-methoxy-8-quinolyl)-p-carboxybenzoylsulphonamide) and acid fuchsin revealed zinc accumulation in degenerating neuronal cell bodies in CA1 and CA3 of hippocampus 24 h after kainate injection. Both anti-
p75(NTR)
and anti-NADE immunoreactivities appeared in zinc-accumulating/degenerating neurons in both areas. Intraventricular injection of CaEDTA, without altering the severity or time course of kainate-induced seizures, markedly attenuated the induction of
p75(NTR)
/NADE in hippocampus, which correlated with the decrease of
caspase-3
activation and zinc accumulation/cell death. The present study has demonstrated that
p75(NTR)
and NADE are co-induced in neurons degenerating after kainate-induced seizures in rats, likely in a zinc-dependent manner.
...
PMID:Co-induction of p75(NTR) and the associated death executor NADE in degenerating hippocampal neurons after kainate-induced seizures in the rat. 1287 43
We have hypothesized that p75 neurotrophin receptor (
p75(NTR)
)-mediated activation of the pro-apoptotic proteins c-jun, p38 and
caspase-3
underlies the neuronal cell loss in dorsal root ganglia (DRG) neurons after axotomy in normal mice, and that this activation is exaggerated in experimental diabetes. To test this hypothesized relationship, we compared the expression of pro-apoptotic proteins in fifth lumbar DRG (L5DRG) neurons of wildtype Balb/c (p75+/+) mice and
p75(NTR)
knockout (p75-/-) mice, assigned to either non-diabetic control groups or to diabetic (1 month) groups, all with a unilateral sciatic nerve crush produced 10 days before tissue preparation. The absolute number of L5DRG neurons expressing immunoreactivities (IR) for phosphorylated c-jun (P-c-jun-IR), phosphorylated p-38 (P-p38-IR) and cleaved
caspase-3
(
caspase-3
-IR) were estimated in semi-thick sections using the optical fractionator. Nerve crush increased the numbers of P-c-jun-IR and
caspase-3
-IR neurons in all four groups. On the crush side, diabetes did not exaggerate the increase of P-c-jun-IR or
caspase-3
-IR neurons in p75+/+ mice, whereas in p75-/- mice diabetes reduced the increase of P-c-jun-IR neurons. Also, in p75-/- mice there was fewer
caspase-3
-IR cells on the intact and crushed side in comparison with p75+/+ mice independent of the presence of diabetes. This study demonstrates that (1) diabetes of 1 month's duration does not potentiate the expression of three pro-apoptotic markers p38,
caspase-3
and P-c-jun neither in intact neurons nor after nerve crush, and that (2)
p75(NTR)
is required for activation of the pro-apoptosis signal
caspase-3
after nerve crush in both diabetic and non-diabetic mice.
...
PMID:Differential effect of p75 neurotrophin receptor on expression of pro-apoptotic proteins c-jun, p38 and caspase-3 in dorsal root ganglion cells after axotomy in experimental diabetes. 1585 12
We studied the expression of pro-apoptotic neurotrophin receptor p75 (
p75(NTR)
) in human and murine retinoblastoma, compared to normal retina, and examined changes in
p75(NTR)
expression with the onset of apoptosis in the course of murine retinoblastoma progression, using immunohistochemistry and quantitative real-time RT-PCR. The murine retinoblastoma is induced by retinal specific expression of SV40 T-antigen (TAg), which blocks the function of the retinoblastoma protein (pRB) and related proteins, and is a well-studied model that closely simulates human retinoblastoma. The majority of human retinoblastoma either lacked or expressed decreased levels of
p75(NTR)
mRNA, compared to human retina. Moreover,
p75(NTR)
protein was not detected in any tumor studied, unlike normal retina. Like human retinoblastoma, advanced murine retinoblastoma did not express
p75(NTR)
. However, before tumors emerged, small clusters of TAg-positive cells coexpressed
p75(NTR)
and activated
caspase-3
, a marker of apoptosis. Furthermore, in three rare human eyes containing retinoblastoma adjacent to regions resembling the benign retinal tumor retinoma, both normal retina and retinoma-like tissue expressed
p75(NTR)
protein, while the retinoblastoma did not. We suggest that
p75(NTR)
loss accompanies progression from retinoma to retinoblastoma.
...
PMID:Loss of p75 neurotrophin receptor expression accompanies malignant progression to human and murine retinoblastoma. 1655 52
Reportedly, beta-amyloid peptides (Abeta40 and Abeta42) induce the neurodegenerative changes of Alzheimer's disease (AD) both directly by interacting with components of the cell surface to trigger apoptogenic signaling and indirectly by activating astrocytes and microglia to produce excess amounts of inflammatory cytokines. A possible cell surface target for Abetas is the p75 neurotrophin receptor (
p75(NTR)
). By using SK-N-BE neuroblastoma cells without neurotrophin receptors or engineered to express the full-length
p75(NTR)
or various parts of it, we have proven that
p75(NTR)
does mediate the Abeta-induced cell killing via its intracellular death domain (DD). This signaling via the DD activates caspase-8, which then activates
caspase-3
and apoptogenesis. We also found a strong cytocidal interaction of direct
p75(NTR)
-mediated and indirect pro-inflammatory cytokine-mediated neuronal damage induced by Abeta. In fact, pro-inflammatory cytokines such as TNF-alpha and IL-1beta from Abeta-activated microglia potentiated the neurotoxic action of Aalpha mediated by
p75(NTR)
signaling. The pro-inflammatory cytokines probably amplify neuronal damage and killing by causing astrocytes to flood their associated neurons with NO and its lethal oxidizing ONOO- derivative. Indeed, we have found that a combination of three major pro-inflammatory cytokines, IL-1beta+IFN-gamma+TNF-alpha, causes normal adult human astrocytes (NAHA) to express nitric oxide synthase-2 (NOS-2) and make dangerously large amounts of NO via mitogen-activated protein kinases (MAPKs). Soluble Abeta40, the major amyloid precursor protein cleavage product, by itself stimulates astrocytes to express NOS-2 and make NO, possibly by activating
p75(NTR)
receptors, which they share with neurons, and can considerably amplify NOS-2 expression by the pro-inflammatory cytokine trio. These observations have uncovered a deadly synergistic interaction of Abeta peptides with pro-inflammatory cytokines in the neuron-astrocyte functional units of the AD brain. Finally, we have found that
p75(NTR)
and its DD also mediate the killing of SK-N-BE human neuroblastoma cells by the prion protein fragment PrP106-126. Thus, neurons expressing
p75(NTR)
as well as pro-inflammatory cytokine receptors are likely the preferential targets of Abetas and prions and the neurodegenerative diseases they cause.
...
PMID:The killing of neurons by beta-amyloid peptides, prions, and pro-inflammatory cytokines. 1738 78
The mechanisms initiating post-spinal cord injury (SCI) apoptotic cell death remain incompletely understood. The p75 neurotrophin receptor (
p75(NTR)
) has been shown to exert both pro-survival and pro-apoptotic effects on neural cells in vitro. While a previous study had shown that there is decreased oligodendrocyte apoptosis distal to a clean partial transection injury of the cord in mice with nonfunctional
p75(NTR)
, most human spinal cord injuries do not involve partial transections but are rather due to compression/contusion injuries with significant perilesional ischemia. Therefore, we sought to examine the role of the
p75(NTR)
in a clinically relevant clip compression model of SCI in p75 null mice with an exon III mutation. Mice with a functional
p75(NTR)
had increased caspase-9 activation at 3 days after SCI in comparison to the functionally deficient
p75(NTR)
mice. However, at 7 days following SCI there was no difference in the activation of the effector caspases (
caspase-3
and caspase-6) at the spinal cord lesion. Moreover, at 7 days after injury, there was increased terminal deoxynucleotidyl transferase-mediated dUTP nick-end (TUNEL) positive cell death at the injury site in the functionally deficient
p75(NTR)
mice. Using double labeling with TUNEL and cell specific markers we showed that the absence of
p75(NTR)
function increased the extent of neuronal but not oligodendroglial cell death at the injury site. This selective loss of neuronal cells after SCI was confirmed with a decrease in levels of microtubule-associated protein 2 in the p75 null mice. Furthermore, the wild-type animals had dramatically improved survival and enhanced locomotor recovery at 8 weeks after SCI when compared with the
p75(NTR)
null mice. Also at 8 weeks, there were significantly more neurons present at the injury site of wild-type mice when compared with p75 null mice. We conclude that the
p75(NTR)
receptor is integral to neuronal cell survival and endogenous reparative mechanisms after compressive/contusive SCI.
...
PMID:The p75 neurotrophin receptor is essential for neuronal cell survival and improvement of functional recovery after spinal cord injury. 1770 65
Nerve growth factor (NGF) promotes cell survival via binding to the tyrosine kinase receptor A (TrkA). Its precursor, proNGF, binds to
p75(NTR)
and sortilin receptors to initiate apoptosis. Current disagreement exists over whether proNGF acts neurotrophically following binding to TrkA. As in Alzheimer's disease the levels of proNGF increase and TrkA decrease, it is important to clarify the properties of proNGF. Here, wild-type and cleavage-resistant mutated forms (M) of proNGF were engineered and their binding characteristics determined. M-proNGF and NGF bound to
p75(NTR)
with similar affinities, whilst M-proNGF had a lower affinity than NGF for TrkA. M-proNGF behaved neurotrophically, albeit less effectively than NGF. M-proNGF addition resulted in phosphorylation of TrkA and ERK1/2, and in PC12 cells elicited neurite outgrowth and supported cell survival. Conversely, M-proNGF addition to cultured cortical neurons initiated
caspase 3
cleavage. Importantly, these biological effects were shown to be mediated by unprocessed M-proNGF. Surprisingly, binding of the pro region alone to TrkA, at a site other than that of NGF, caused TrkA and ERK1/2 phosphorylation. Our data show that M-proNGF stimulates TrkA to a lesser degree than NGF, suggesting that in Alzheimer brain the increased proNGF : NGF and
p75(NTR)
: TrkA ratios may permit apoptotic effects to predominate over neurotrophic effects.
...
PMID:Human ProNGF: biological effects and binding profiles at TrkA, P75NTR and sortilin. 1880 49
Ischemic preconditioning (PC) of the brain is a phenomenon by which mild ischemic insults render neurons resistant to subsequent strong insults. Key steps in ischemic PC of the brain include
caspase-3
activation and poly(ADP-ribose) polymerase-1 (PARP-1) cleavage, but upstream events have not been clearly elucidated. We have tested whether endogenous zinc is required for ischemic PC of the brain in rats. Mild, transient zinc accumulation was observed in certain neurons after ischemic PC. Moreover, intraventricular administration of CaEDTA during ischemic PC abrogated both zinc accumulation and the protective effect against subsequent full ischemia. To elucidate the mechanism of the zinc-triggered PC (Zn PC) effect, cortical cultures were exposed to sublethal levels of zinc, and 18 h later to lethal levels of zinc or NMDA. Zn PC exhibited the characteristic features of ischemic PC, including
caspase-3
activation, PARP-1 cleavage, and HSP70 induction, all of which are crucial for subsequent neuroprotection against NMDA or zinc toxicity. HSP70 induction was necessary for protection, as it halted
caspase-3
activation before apoptosis. Interestingly, in both Zn PC in vitro and ischemic PC in vivo,
p75(NTR)
was necessary for neuroprotection. These results suggest that
caspase-3
activation during ischemic PC, a necessary event for subsequent neuroprotection, may result from mild zinc accumulation and the consequent
p75(NTR)
activation in neurons.
...
PMID:Essential role for zinc-triggered p75NTR activation in preconditioning neuroprotection. 1894 99
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