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Query: UMLS:C0002736 (
amyotrophic lateral sclerosis
)
19,048
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The timing of lethality caused by homozygosity for a null allele of the
epidermal growth factor receptor
(Egfrtm1Mag) in mice is strongly dependent on genetic background. Initial attempts to genetically map background modifiers using Swiss-derived, outbred CD-1 mice were unsuccessful. To investigate the genetic architecture contributing to survival of Egfrtm1Mag homozygous embryos, the genetic variability segregating within the outbred population was partitioned by surveying viability of Egfrtm1Mag mutants using intercrosses between 129S6/SvEvTAC-Egfrtm1Mag and nine Swiss-derived, inbred strains: ALR/LtJ,
ALS
/LtJ, APN, APS, ICR/HaRos, NOD/LtJ, NON/LtJ, SJL/J, and SWR/J. The observations showed that these strains support varying levels of survival of Egfrtm1Mag homozygous embryos, suggesting that genetic heterogeneity within the CD-1 stock contributed to the original lack of Egfrtm1Mag modifier detection. Similar to the Swiss-derived intercrosses, nine congenic strains, derived from 129S6/SvEvTAC, AKR/J, APN, BALB/cJ, BTBR-T+ tf/tf, C3H/HeJ, C57BL/6J, DBA/2J, and FVB/NJ inbred backgrounds, also supported varying levels of survival of Egfrtm1Mag mutants. By intercrossing the congenic lines to create hybrid F1 embryos, different genetic backgrounds were found to have complementary modifiers. Analysis of the congenic lines argues against heterosis of outbred backgrounds contributing to Egfrtm1Mag phenotypic variability. A detailed analysis of the crosses suggests that modifiers function at three distinct stages of development. One class of modifiers supports survival of Egfrtm1Mag homozygous embryos to mid-gestation, another class supports development through the mid-gestation transition from yolk-sac to placental-derived nutrient sources, and a third class supports survival through later stages of gestation. Data from microarray analysis using RNA from wild-type and Egfrtm1Mag mutant placentas support the existence of extensive genetic heterogeneity and suggest that it can be molecularly partitioned. This method should be generally useful to partition heterogeneity contributing to other complex traits.
...
PMID:Phenotypic variation resulting from a deficiency of epidermal growth factor receptor in mice is caused by extensive genetic heterogeneity that can be genetically and molecularly partitioned. 1534 20
Amyotrophic lateral sclerosis
(
ALS
) is a progressive neurodegenerative disease characterized by loss of motor neurons in the cerebral cortex, brain stem, and spinal cord. Most cases (90%) are classified as sporadic
ALS
(sALS). The remainder 10% are inherited and referred to as familial
ALS
, and 2% of instances are due to mutations in Cu/Zn superoxide dismutase (SOD1). Using cDNA microarray on postmortem spinal cord specimens of four sALS patients compared to four age-matched nonneurological controls, we found major changes in the expression of mRNA in 60 genes including increase of cathepsin B and cathepsin D (by the factors 2 and 2.3, respectively), apolipoprotein E (Apo E; factor 4.2),
epidermal growth factor receptor
(factor 10), ferritin (factor 2), and lysosomal trafficking regulator (factor 10). The increase in the expression of these genes was verified by quantitative reverse transcriptase polymerase chain reaction. Further analysis of these genes in hSOD1-G93A transgenic mice revealed increase in the expression in parallel with the deterioration of motor functions quantified by means of rotorod performance. The comparability of the findings in sALS patients and in the hSOD1-G93A transgenic mouse model suggests that the examined genes may play a specific role in the pathogenesis of
ALS
.
...
PMID:Spinal cord mRNA profile in patients with ALS: comparison with transgenic mice expressing the human SOD-1 mutant. 1865 Dec 50
Bioenergetic deficits are considered a common cause of neurodegenerative diseases. Although creatine supplementation has been shown to be effective in certain neurodegenerative disorders, it is less effective in
amyotrophic lateral sclerosis
, a disease that primarily affects motor neurons. These neurons are particularly vulnerable to a cellular energy deficit. Using the ATP-depleting drug glucosamine, we evaluated whether the incretin hormone glucagon-like peptide (GLP)-1 protects motor neurons against glucosamine-induced cytotoxicity. Undifferentiated NSC-34 cells were differentiated into glutamate-sensitive motor neurons by a modified serum deprivation technique. Glucosamine inhibited the viability of differentiated NSC-34 cells in a time- and dose-dependent manner. Glucosamine also acutely reduced cellular glucose uptake, glucokinase activity and intracellular ATP levels. As a result, the activity of AMP-activated protein kinase as well as endoplasmic reticulum stress increased. Pretreatment with GLP-1 significantly alleviated glucosamine-mediated neurotoxicity by restoring cellular glucose uptake, glucokinase activity and intracellular ATP levels. The protective effect of GLP-1 was replicated by Exendin-4 but not Exendin-9, and not blocked by inhibitors of phosphoinositide-3 kinase, protein kinase A, cSrc, or
epidermal growth factor receptor
, but it was blocked by an adenylate cyclase inhibitor. A selective activator for exchange proteins directly activated by cAMP (Epac), but not a selective activator for protein kinase A, mimicked the GLP-1 effect. Therefore GLP-1 may exert its effect mainly through cAMP-dependent, Epac-mediated restoration of glucose uptake that is typically impaired by glucosamine. These findings indicate that GLP-1 could be employed therapeutically to protect motor neurons that are susceptible to bioenergetic deficits.
...
PMID:Glucagon-like peptide-1 protects NSC-34 motor neurons against glucosamine through Epac-mediated glucose uptake enhancement. 2047 53
Amyotrophic lateral sclerosis
(
ALS
) is a fatal neurodegenerative disease that causes progressive paralysis due to motor neuron death. Several lines of published evidence suggested that inhibition of
epidermal growth factor receptor
(
EGFR
) signaling might protect neurons from degeneration. To test this hypothesis in vivo, we treated the SOD1 transgenic mouse model of
ALS
with erlotinib, an
EGFR
inhibitor clinically approved for oncology indications. Although erlotinib failed to extend
ALS
mouse survival it did provide a modest but significant delay in the onset of multiple behavioral measures of disease progression. However, given the lack of protection of motor neuron synapses and the lack of survival extension, the small benefits observed after erlotinib treatment appear purely symptomatic, with no modification of disease course.
...
PMID:EGFR inhibitor erlotinib delays disease progression but does not extend survival in the SOD1 mouse model of ALS. 2363 43
Amyotrophic lateral sclerosis
(
ALS
) is a fatal neurodegenerative disease characterized by the loss of upper and lower motor neurons. Based on transcriptional profiles of motor cortex samples, in a previous work, we were able to classify two subgroups of sporadic
ALS
(SALS) patients, named SALS1 and SALS2. A further meta-analysis study has revealed sixteen drug targets commonly deregulated in SALS2 and superoxide dismutase 1 (SOD1) G93A mice. The identified candidate drug targets included pituitary adenylate cyclase-activating polypeptide (PACAP),
epidermal growth factor receptor
(
EGFR
) and matrix metallopeptidase-2 (MMP-2). By using a motor neuron-like hybrid cell line (NSC-34) expressing human SOD1 G93A as an in vitro model of
ALS
, here we investigated the functional correlation among these three genes. Our results have shown that PACAP increases cell viability following serum deprivation. This effect is induced through
EGFR
transactivation mediated by protein kinase A stimulation. Furthermore,
EGFR
phosphorylation activates mitogen-activated protein kinases/extracellular signal-regulated kinases 1 and 2 survival signaling pathway and increases MMP-2 expression, significantly reduced by serum starvation. These results suggest that a deeper characterization of mechanisms involved in PACAP/
EGFR
/MMP-2 axis activation in G93A SOD1 mutated neurons may allow identifying new targets for
ALS
therapy.
...
PMID:Molecular mechanisms involved in the protective effect of pituitary adenylate cyclase-activating polypeptide in an in vitro model of amyotrophic lateral sclerosis. 3023 89
BACKGROUND The network pharmacological approach was used to identity the anti-colorectal cancer (CRC) targets of formononetin (FN) and the molecular mechanisms of FN against CRC. MATERIAL AND METHODS A tool of the DisGeNET database was used for collection of CRC-based targets. Other tools of SuperPred, herbal ingredients target (HIT), and SwissTargetPrediction databases were applied in prediction of pharmacological targets of FN against cancer. A protein-protein interaction (PPI) network of FN against CRC was obtained by using a STRING database. All top biological functional processes and signaling pathways of FN against CRC were identified by using Database for Annotation, Visualization and Integrated Discovery (DAVID) software and Omicshare cloud platform. RESULTS The most key anti-CRC targets of FN were identified as tumor protein p53 (TP53), cytochrome P450 3A4 (CYP3A4), ATP binding cassette subfamily G member 2 (ABCG2), tumor necrosis factor (TNF),
epidermal growth factor receptor
(
EGFR
), Erb-B2 receptor tyrosine kinase 2 (ERBB2), and cytochrome P450 1A1 (CYP1A1). In further assays, the treatment of CRC by FN was mainly involved in biological functional processes of reactive oxygen species metabolic process, positive regulation of transcription, DNA-templated, positive regulation of nucleic acid-templated transcription, and positive regulation of RNA metabolic process. anti-CRC by FN of signaling pathways were associated with
amyotrophic lateral sclerosis
(
ALS
), allograft rejection, cytokine-cytokine receptor interaction, asthma, mitogen-activated protein kinase (MAPK) signaling pathways, and others. CONCLUSIONS The anti-CRC molecular mechanisms of FN are implicated in suppression of cellular proliferation and regulation of cancer-related metabolic pathways. Interestingly, 8 optimal biological targets may be used as potential molecular markers for predicting and treating CRC.
...
PMID:Anti-Colorectal Cancer Mechanisms of Formononetin Identified by Network Pharmacological Approach. 3160 99
Several reports have been published recently demonstrating a beneficial effect of
epidermal growth factor receptor
(
EGFR
) inhibitors in improving pathologic and behavioral conditions in neurodegenerative diseases (NDDs) such as Alzheimer's disease and
Amyotrophic Lateral Sclerosis
(
ALS
) as well as the brain and spinal cord injuries (SCI). Despite successful therapeutic effects of
EGFR
inhibition in these pathologic conditions, there is still no report of proof-of-concept studies in well-characterized animal models using recently developed blood-brain barrier (BBB)-penetrating
EGFR
inhibitors, which is due to previous conflicting reports concerning the level of
EGFR
or activated
EGFR
in normal and pathologic conditions that caused target engagement to be a concern in any future
EGFR
inhibition therapy. In this review, the level of
EGFR
expression and activation in the developing central nervous system (CNS) compared with the adult CNS will be explained as well as how neuronal injury or pathologic conditions, especially inflammation and amyloid fibrils, induce reactive astrocytes leading to an increase in the expression and activation of
EGFR
and, finally, neurodegeneration. Furthermore, in this review, we will discuss two main molecular mechanisms that can be proposed as the neuroprotective effects of
EGFR
inhibition in these pathologic conditions. We will also review the recent advances in the development of BBB-penetrating
EGFR
inhibitors in cancer therapy, which may eventually be repositioned for NDDs and SCI therapy in the future. SIGNIFICANCE STATEMENT: Based on the lessons from the applications of
EGFR
inhibitors in oncology, it is concluded that
EGFR
inhibitors can be beneficial in treatment of neurodegenerative diseases and spinal cord injuries. They carry their therapeutic potentials through induction of autophagy and attenuation of reactive astrocytes.
...
PMID:Inhibition of Brain Epidermal Growth Factor Receptor Activation: A Novel Target in Neurodegenerative Diseases and Brain Injuries. 3235 Jan 20
