Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cardiotrophin-1 (CT-1) is a potent neurotrophic factor for motoneurons but its clinical use in motor neuron diseases is precluded by side effects on the heart and liver. We explored the possibility of targeting CT-1 to neurons by coupling with the tetanus toxin fragment TTC. Genetic fusion proteins between CT-1 or GFP and TTC were produced in Escherichia coli and assayed in vitro. In contrast to uncoupled CT-1 or GFP, TTC-coupled proteins bound with high affinity to cerebral neurons and spinal cord motoneurons and were rapidly internalized. Glia, hepatocytes, or cardiomyocytes did not show detectable binding or uptake of TTC-coupled proteins. Similar to CT-1, TTC-coupled CT-1 induced IL-6 secretion by KB cells, activated Reg-2 gene expression, and promoted motoneuron survival in a dose-dependent manner. In vivo studies will test whether TTC-coupled CT-1 might be targeted to degenerating spinal cord or brain-stem motoneurons and migrate trans-synaptically to cortical motoneurons, which are also affected in amyotrophic lateral sclerosis.
Mol Cell Neurosci 2001 May
PMID:Neuronal targeting of cardiotrophin-1 by coupling with tetanus toxin C fragment. 1135 82

The spatial nuclear organization of regulatory proteins often reflects their functional state. PSF, a factor essential for pre-mRNA splicing, is visualized by the B92 mAb as discrete nuclear foci, which disappeared during apoptosis. Because this mode of cell death entails protein degradation, it was considered that PSF, which like other splicing factors is sensitive to proteolysis, might be degraded. Nonetheless, during the apoptotic process, PSF remained intact and was N-terminally hyperphosphorylated on serine and threonine residues. Retarded gel migration profiles suggested differential phosphorylation of the molecule in mitosis vs. apoptosis and under-phosphorylation during blockage of cells at G1/S. Experiments with the use of recombinant GFP-tagged PSF provided evidence that in the course of apoptosis the antigenic epitopes of PSF are masked and that PSF reorganizes into globular nuclear structures. In apoptotic cells, PSF dissociated from PTB and bound new partners, including the U1--70K and SR proteins and therefore may acquire new functions.
Mol Biol Cell 2001 Aug
PMID:Nuclear relocalization of the pre-mRNA splicing factor PSF during apoptosis involves hyperphosphorylation, masking of antigenic epitopes, and changes in protein interactions. 1151 19

Medullary thyroid carcinoma (MTC) occurs as a sporadic tumor or in connection with inherited cancer syndromes of multiple endocrine neoplasia type 2 and familial MTC. Missense RET proto-oncogene mutations and small in-frame deletions are found in most of the cases. In a significant amount of sporadic MTC cases somatic mutation at codon 918 (exon 16), or at codons 609, 611, 618, 620 (exon 10), or codons 630, 634 (exon 11) appear. We report here on three new somatic cell missense mutations of the RET proto-oncogene associated with sporadic MTC. In one tumor mutation at codon 922 TCC(Ser)-->TTC(Phe) in exon 16 was found. In another tumor two mutations at codons 639 GCA(Ala)-->GGA(Gly) and 641 GCT(Ala)-->CGT(Arg) in the exon 11 were observed. Allele-specific PCR followed by sequencing demonstrated the presence of both mutations at the same allele.
J Mol Med (Berl) 2001 Oct
PMID:Three novel mutations in the RET proto-oncogene. 1169 59

The type IC DNA methyltransferase M.EcoR124I is a trimeric enzyme of 162 kDa consisting of two modification subunits, HsdM, and a single specificity subunit, HsdS. Studies have been largely restricted to the HsdM subunit or to the intact methyltransferase since the HsdS subunit is insoluble when over-expressed independently of HsdM. Two soluble fragments of the HsdS subunit have been cloned, expressed and purified; a 25 kDa N-terminal fragment (S3) comprising the N-terminal target recognition domain together with the central conserved domain, and a 8.6 kDa fragment (S11) comprising the central conserved domain alone. Analytical ultracentrifugation shows that the S3 subunit exists principally as a dimer of 50 kDa. Gel retardation and competition assays show that both S3 and S11 are able to bind to HsdM, each with a subunit stoichiometry of 1:1. The tetrameric complex (S3/HsdM)(2) is required for effective DNA binding. Cooperative binding is observed and at low enzyme concentration, the multisubunit complex dissociates, leading to a loss of DNA binding activity. The (S3/HsdM)(2) complex is able to bind to both the EcoR124I DNA recognition sequence GAAN(6)RTCG and a symmetrical DNA sequence GAAN(7)TTC, but has a 30-fold higher affinity binding for the latter DNA sequence. Exonuclease III footprinting of the (S3/HsdM)(2) -DNA complex indicates that 29 nucleotides are protected on each strand, corresponding to a region 8 bp on both the 3' and 5' sides of the recognition sequence bound by the (S3/HsdM)(2) complex.
J Mol Biol 2001 Nov 16
PMID:Domain structure and subunit interactions in the type I DNA methyltransferase M.EcoR124I. 1172 30

Polypyrimidine tract binding protein, PTB/hnRNP I, is involved in pre-mRNA processing in the nucleus and RNA localization and translation in the cytoplasm. In this report, we demonstrate that PTB shuttles between the nucleus and cytoplasm in an energy-dependent manner. Deletion mutagenesis demonstrated that a minimum of the N terminus and RNA recognition motifs (RRMs) 1 and 2 are necessary for nucleocytoplasmic shuttling. Deletion of RRM3 and 4, domains that are primarily responsible for RNA binding, accelerated the nucleocytoplasmic shuttling of PTB. Inhibition of transcription directed by either RNA polymerase II alone or all RNA polymerases yielded similar results. In contrast, selective inhibition of RNA polymerase I did not influence the shuttling kinetics of PTB. Furthermore, the intranuclear mobility of GFP-PTB, as measured by fluorescence recovery after photobleaching analyses, increased significantly in transcriptionally inactive cells compared with transcriptionally active cells. These observations demonstrate that nuclear RNA transcription and export are not necessary for the shuttling of PTB. In addition, binding to nascent RNAs transcribed by RNA polymerase II and/or III retards both the nuclear export and nucleoplasmic movement of PTB. The uncoupling of PTB shuttling and RNA export suggests that the nucleocytoplasmic shuttling of PTB may also play a regulatory role for its functions in the nucleus and cytoplasm.
Mol Biol Cell 2001 Dec
PMID:Nucleocytoplasmic shuttling of polypyrimidine tract-binding protein is uncoupled from RNA export. 1173 82

Insulin receptor substrate 1 (IRS-1) plays an important role in the insulin signaling cascade. In vitro and in vivo studies from many investigators have suggested that lowering of IRS-1 cellular levels may be a mechanism of disordered insulin action (so-called insulin resistance). We previously reported that the protein levels of IRS-1 were selectively regulated by a proteasome degradation pathway in CHO/IR/IRS-1 cells and 3T3-L1 adipocytes during prolonged insulin exposure, whereas IRS-2 was unaffected. We have now studied the signaling events that are involved in activation of the IRS-1 proteasome degradation pathway. Additionally, we have addressed structural elements in IRS-1 versus IRS-2 that are required for its specific proteasome degradation. Using ts20 cells, which express a temperature-sensitive mutant of ubiquitin-activating enzyme E1, ubiquitination of IRS-1 was shown to be a prerequisite for insulin-induced IRS-1 proteasome degradation. Using IRS-1/IRS-2 chimeric proteins, the N-terminal region of IRS-1 including the PH and PTB domains was identified as essential for targeting IRS-1 to the ubiquitin-proteasome degradation pathway. Activation of phosphatidylinositol 3-kinase is necessary but not sufficient for activating and sustaining the IRS-1 ubiquitin-proteasome degradation pathway. In contrast, activation of mTOR is not required for IRS-1 degradation in CHO/IR cells. Thus, our data provide insight into the molecular mechanism of insulin-induced activation of the IRS-1 ubiquitin-proteasome degradation pathway.
Mol Cell Biol 2002 Feb
PMID:Molecular mechanism of insulin-induced degradation of insulin receptor substrate 1. 1180 94

Coronary microembolization is a frequent complication of atherosclerotic plaque rupture in acute coronary syndromes and during coronary interventions. Experimental coronary microembolization results in progressive contractile dysfunction associated with a local inflammation. We studied the causal role of tumor necrosis factor-alpha (TNF-alpha) in the progressive contractile dysfunction resulting from coronary microembolization. Anesthetized dogs were subjected to either coronary microembolization with infusion of 3.000 microspheres (42 microm diameter) per ml coronary inflow into the left circumflex coronary artery (n=9), or to intracoronary infusion of recombinant human TNF-alpha without microembolization (n=4), or to treatment with anti-murine TNF-alpha sheep antibodies prior to microembolization (n=4). Posterior systolic wall thickening (PWT; sonomicrometry) decreased from 21.1+/-5.3% (s.d.) at baseline to 5.5+/-2.2% (P<0.05) at 8 h after microembolization. Infarct size (1.8+/-1.9%; TTC and histology) and the amount of apoptosis (<0.1%; TUNEL and DNA-laddering) were small. TNF-alpha at the protein level (WEHI cytolytic assay) was increased and localized to leukocytes (immunostaining), which were increased in number (quantitative histology). In situ hybridization for TNF-alpha mRNA identified viable cardiomyocytes surrounding the microinfarcts as the major source of TNF-alpha. Supporting the role of TNF-alpha, infusion of TNF-alpha without microembolization decreased PWT from 27.3+/-6.9% at baseline to 10.1+/-4.9% after 8 h (P<0.05); in contrast, in the presence of TNF-alpha antibodies, microembolization no longer reduced PWT (19.3+/-7.0% at baseline v 16.9+/-5.0% at 8 h). In conclusion, TNF-alpha is the mediator responsible for the profound contractile dysfunction following coronary microembolization.
J Mol Cell Cardiol 2002 Jan
PMID:Coronary microembolization: the role of TNF-alpha in contractile dysfunction. 1181 64

Protein phosphatase 2A (PP2A) is a multimeric serine/threonine phosphatase that carries out multiple functions. Although numerous observations suggest that PP2A plays a major role in downregulation of the mitogen-activated protein (MAP) kinase pathway, the precise mechanisms are unknown. To clarify the role of PP2A in growth factor (insulin, epidermal growth factor [EGF], and insulin-like growth factor 1 [IGF-1]) stimulation of the Ras/MAP kinase pathway, simian virus 40 small t antigen was expressed in Rat-1 fibroblasts which overexpress insulin receptors. Small t antigen is known to specifically inhibit PP2A by binding to the A PP2A regulatory subunit, interfering with the ability of PP2A to bind to its cellular substrates. Overexpressed small t protein was coimmunoprecipitated with PP2A and inhibited cellular PP2A activity but did not inhibit protein phosphatase 1 (PP1) activity. Insulin, IGF-1, and EGF stimulation also inhibited PP2A activity. Growth factor-stimulated Ras, Raf-1, MAP kinase, and mitogen-activated extracellular-signal-regulated kinase kinase (MEK) activities were elevated in small-t-antigen-expressing cells. Furthermore, Shc tyrosine phosphorylation and its association with Grb2 were also elevated in small-t-antigen-expressing cells. Expression levels of Shc, Ras, MEK, or MAP kinase and phosphorylation of insulin, EGF, and IGF-1 receptors were not altered. Interestingly, we found that PP2A associated with Shc in the basal state and dissociated in response to insulin and EGF and that this dissociation was inhibited by 65% in small-t-antigen-expressing cells. In addition, we found that PP2A associates with the phosphotyrosine-binding domain (PTB domain) of Shc and that phosphorylation of tyrosine 317 of Shc was required for PP2A-Shc dissociation. We conclude (i) that PP2A negatively regulates the Ras/MAP kinase pathway by binding to Shc, inhibiting tyrosine phosphorylation; (ii) that the Shc-PP2A association is mediated by the Shc PTB domain but the interaction is independent of phosphotyrosine binding, indicating a new molecular function for the PTB domain; (iii) that growth factor stimulation, or small-t-antigen expression, causes dissociation of the PP2A-Shc complex, facilitating Shc phosphorylation and downstream activations of the Ras/MAP kinase pathway; and (iv) that this defines a new mechanism of small-t-antigen action to promote mitogenesis.
Mol Cell Biol 2002 Apr
PMID:Protein phosphatase 2A forms a molecular complex with Shc and regulates Shc tyrosine phosphorylation and downstream mitogenic signaling. 1188 20

Effects of ischemia time and treatment interventions upon troponin I (TnI) proteolysis and function of reperfused myocardium were examined in isolated, perfused rabbit hearts. Hearts were randomized to 90 min aerobic perfusion, 15 min low-flow (1 ml/min) ischemia (I) and 60 min reperfusion (R) or 60 min low-flow I and 60 min R. Hearts subject to 60 min I and 60 min R received either no treatment, l -arginine treatment, or treatment with oxygen free radical (OFR) scavengers (mercapto-proponyl-glycine, catalase and superoxide dismutase). Hearts from cholesterol-fed rabbits were also studied after 60 min I and R. Isovolumic LV pressure and heart rate were recorded throughout and Western analysis of ventricular myocardium, using 3 specific antibodies, detected intact TnI (29 kDa) and TnI fragment (25 kDa). Hearts subject to 15 min I had minimal irreversible injury (TTC negative region=0.6+/-0.4% LV) but hearts subject to 60 min I had more extensive injury (TTC negative=40.7+/-5.8% LV). Recovery of rate-pressure product after 15 min I and 60 min R (56+/-9% of baseline) was better than after 60 min I and 60 min R (23+/-9%, P<0.01). Both l -arginine and OFR scavengers were associated with better recovery of function after 60 min I, (66+/-7% and 72+/-3% of baseline respectively, P<0.01 v no treatment) but cholesterol hearts had poor recovery after 60 min I (37+/-8%). The 25 kDa TnI (% total TnI immunoreactivity) was 8.7+/-0.9% in controls, 10.0+/-1.6% after 15 min I and 60 min R, and 17.4+/-2.4% after 60 min I and 60 min R (P<0.01 v controls and 15 min I). The proportion of 25 kDa TnI was increased in all hearts after 60 min I and did not change with treatment (l -arginine 16.8+/-1.8%, OFR scavengers 16.0+/-3.2%, cholesterol 14.0+/-1.9%). There was no relation between proportion of 25 kDa TnI and recovery of function. Samples from freshly excised rabbit hearts and human right atria also had 25 kDa TnI (relative intensities 8.5+/-2.3% and 5.1+/-2.6% respectively). Although TnI fragmentation increases after prolonged ischemia and reperfusion, the functional recovery of stunned myocardium is independent of degree of TnI fragmentation.
J Mol Cell Cardiol 2002 Apr
PMID:Effect of treatment on ventricular function and troponin I proteolysis in reperfused myocardium. 1199 27

Rai is a recently identified member of the family of Shc-like proteins, which are cytoplasmic signal transducers characterized by the unique PTB-CH1-SH2 modular organization. Rai expression is restricted to neuronal cells and regulates in vivo the number of postmitotic sympathetic neurons. We report here that Rai is not a common substrate of receptor tyrosine kinases under physiological conditions and that among the analyzed receptors (Ret, epidermal growth factor receptor, and TrkA) it is activated specifically by Ret. Overexpression of Rai in neuronal cell lines promoted survival by reducing apoptosis both under conditions of limited availability of the Ret ligand glial cell line-derived neurotrophic factor (GDNF) and in the absence of Ret activation. Overexpressed Rai resulted in the potentiation of the Ret-dependent activation of phosphatidylinositol 3-kinase (PI3K) and Akt. Notably, increased Akt phosphorylation and PI3K activity were also found under basal conditions, e.g., in serum-starved neuronal cells. Phosphorylated and hypophosphorylated Rai proteins form a constitutive complex with the p85 subunit of PI3K: upon Ret triggering, the Rai-PI3K complex is recruited to the tyrosine-phosphorylated Ret receptor through the binding of the Rai PTB domain to tyrosine 1062 of Ret. In neurons treated with low concentrations of GDNF, the prosurvival effect of Rai depends on Rai phosphorylation and Ret activation. In the absence of Ret activation, the prosurvival effect of Rai is, instead, phosphorylation independent. Finally, we showed that overexpression of Rai, at variance with Shc, had no effects on the early peak of mitogen-activated protein kinase (MAPK) activation, whereas it increased its activation at later time points. Phosphorylated Rai, however, was not found in complexes with Grb2. We propose that Rai potentiates the MAPK and PI3K signaling pathways and regulates Ret-dependent and -independent survival signals.
Mol Cell Biol 2002 Oct
PMID:The neuron-specific Rai (ShcC) adaptor protein inhibits apoptosis by coupling Ret to the phosphatidylinositol 3-kinase/Akt signaling pathway. 1224 9


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