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Characterization of proteinase inhibitor II from Solanum AmericanumSin, Suk-fong., 冼淑芳. January 2004 (has links)
published_or_final_version / Botany / Doctoral / Doctor of Philosophy
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Post-transcriptional regulation of plasminogen activator inhibitor type 2Tierney, Marcus John, 1973- January 2002 (has links)
Abstract not available
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Genetic analysis of human serine proteases and serpins by expression in the Drosophila eyeDabirshahsahebi, Shabnam 01 October 2000 (has links)
No description available.
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Synthesis and kinetics of cysteine proteinase inhibitorsTehrani, Kamin A. 08 1900 (has links)
No description available.
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The serine proteinase inhibitor, maspin does not interact with prostasin in controlling the invasive phenotype of breast and prostate cancer cellsMurphy, James Anthony 01 April 2000 (has links)
No description available.
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The mechanisms of serpin misfolding and its inhibitionDevlin, Glyn L. January 2003 (has links)
Abstract not available
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A serine oligopeptidase from African Trypanosomes.Morty, Rory Edward. 21 October 2013 (has links)
Protozoan parasites of the genus Trypanosoma are responsible for chronic and widespread
disease in livestock and humans in Africa. This study describes the purification and
characterisation of a serine oligopeptidase from Trypanosoma brucei brucei and from
T. congolense. Serine peptidase activity has previously been described for T. b. brucei
although the responsible enzyme was not purified to electrophoretic homogeneity. In the
present study this enzyme was purified from bloodstream-form T. b. brucei by a combination
of three-phase partitioning, ion-exchange, affinity and molecular exclusion chromatography.
Characterisation of the enzyme revealed that it closely resembled a bacterial serine
oligopeptidase, Escherichia coli oligopeptidase B, in terms of cleavage-site specificity,
inhibition characteristics and molecular mass. Its overall properties indicate that it is probably
a serine oligopeptidase and we have called it OP-Tb (oligopeptidase from Trypanosoma
brucei). Antibodies to OP-Tb were prepared in chickens. These antibodies were used in the
purification of a similar enzyme, designated OP-Tc, from T. congolense. OP-Tc closely
resembled OP-Tb in its enzymatic properties.
OP-Tb appears to be monomeric, with an apparent molecular mass of 80 kDa. Activity is
optimal between pH 8.0 and 10.0, and is enhanced in the presence of reducing agents.
Inhibition by 4-(2-aminoethyl)benzenesulfonylfluoride, 3,4-dichloroisocoumarin and diisopropylfluorophosphate indicates that the enzyme may be classified as a serine protease. While various natural and synthetic fluorogenic peptide substrates were hydrolysed by OP-Tb,
larger potential substrates (proteins) were not. Studies of the digestion of naturally occurring bioactive peptides suggested that substrates were restricted to peptides smaller than approximately 4 or 5 kDa. These peptides were cleaved at the carboxy side of basic amino acid residues such as arginine and lysine. This is characteristic of a trypsin-like specificity.
Because the enzyme is known to be readily released from the parasites, and because it was possible to detect OP-Tb-like activity in the blood of T. b. brucei-infected mammalian hosts, it appears that the enzyme is released into the host bloodstream where it remains uninhibited by endogenous protease inhibitors. Indeed, OP-Tb was not inhibited by mammalian plasma
serpins or 012-macroglobulin in vitro. This, and the degradation of host peptide regulatory hormones in vitro, suggests that OP-Tb may have secondary, but important, extracellular roles in the pathogenesis of African trypanosomiasis. A variety of serine protease inhibitors, including inhibitors of OP-Tb were tested for their potential as trypanocidal agents. The results from both in vitro and in vivo studies, suggest that inhibitors of trypanosome oligopeptidases are promising new lead targets for drug
development. Furthermore, data presented here also shows that OP-Tb is efficiently inhibited by several of the currently employed trypanocidal drugs. Thus, OP-Tb may already be a cellular target for trypanocidal drugs. If correct, this may represent an important step towards understanding the biochemical mechanisms of the trypanocidal activity of these drugs, as well
as providing valuable clues as to how to improve their efficacy. / Thesis (Ph.D.)-University of Natal, Pietermaritzburg, 1998.
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Molecular modeling and computer-aided design of potential protease inhibitorsCalvino, Toni T. 01 January 1999 (has links)
No description available.
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CaMKII regulation of astrocytic glutamate uptakeChawla, Aarti R. 19 May 2016 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Glutamate clearance by astrocytes is an essential part of physiological excitatory
neurotransmission. Failure to adapt or maintain low levels of glutamate in the central
nervous system is associated with multiple acute and chronic neurodegenerative diseases.
The primary excitatory amino acid transporters (EAATs) in human astrocytes are EAAT1
and EAAT2 (GLAST and GLT-1 respectively in rodents). While the inhibition of a
ubiquitously-expressed serine/threonine protein kinase, the calcium/calmodulindependent
kinase (CaMKII) results in diminished glutamate uptake in cultured primary
rodent astrocytes, the molecular mechanism underlying this regulation is unknown. In
order to delineate this mechanism, we use a heterologous expression model to explore
CaMKII regulation of EAAT1 and EAAT2. In transiently transfected HEK293T cells,
pharmacological inhibition of CaMKII and overexpression of a dominant-negative
version of CaMKII (Asp136Asn) reduces [3H]-glutamate uptake by EAAT1, without
altering EAAT2 mediated glutamate uptake. Surprisingly, overexpression of a
constitutively active autophosphorylation mutant (Thr287Asp) to increase autonomous
CaMKII activity and a mutant incapable of autophosphorylation (Thr287Val) had no
effect on either EAAT1 or EAAT2 mediated glutamate uptake. Pulldown of FLAGtagged
glutamate transporters suggests CaMKII does not interact with EAAT1 or
EAAT2. SPOTS peptide arrays and recombinant GST-fusion proteins of the intracellular
N- and C-termini of EAAT1 identified two potential phosphorylation sites at residues
Thr26 and Thr37 in the N-terminus. Introducing an Ala (a non-phospho mimetic) but not an Asp (phosphomimetic) at Thr37 diminished EAAT1-mediated glutamate uptake,
suggesting that the phosphorylation state of this residue is important for constitutive
EAAT1 function. In sum, this is the first report of a glutamate transporter being identified
as a direct CaMKII substrate. These findings indicate that CaMKII signaling is a critical
driver of homeostatic glutamate uptake by EAAT1. Aberrations in basal CaMKII activity
disrupt glutamate uptake, which can perpetuate glutamate-mediated excitotoxicity and
result in cellular death.
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mTOR regulates Aurora A via enhancing protein stabilityFan, Li 11 July 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Mammalian target of rapamycin (mTOR) is a key regulator of protein synthesis. Dysregulation of mTOR signaling occurs in many human cancers and its inhibition causes arrest at the G1 cell cycle stage. However, mTOR’s impact on mitosis (M-phase) is less clear. Here, suppressing mTOR activity impacted the G2-M transition and reduced levels of M-phase kinase, Aurora A. mTOR inhibitors did not affect Aurora A mRNA levels. However, translational reporter constructs showed that mRNA containing a short, simple 5’-untranslated region (UTR), rather than a complex structure, is more responsive to mTOR inhibition. mTOR inhibitors decreased Aurora A protein amount whereas blocking proteasomal degradation rescues this phenomenon, revealing that mTOR affects Aurora A protein stability. Inhibition of protein phosphatase, PP2A, a known mTOR substrate and Aurora A partner, restored mTOR-mediated Aurora A abundance. Finally, a non-phosphorylatable Aurora A mutant was more sensitive to destruction in the presence of mTOR inhibitor. These data strongly support the notion that mTOR controls Aurora A destruction by inactivating PP2A and elevating the phosphorylation level of Ser51 in the “activation-box” of Aurora A, which dictates its sensitivity to proteasomal degradation. In summary, this study
is the first to demonstrate that mTOR signaling regulates Aurora-A protein expression and stability and provides a better understanding of how mTOR regulates mitotic kinase expression and coordinates cell cycle progression. The involvement of mTOR signaling in the regulation of cell migration by its upstream activator, Rheb, was also examined. Knockdown of Rheb was found to promote F-actin reorganization and was associated with Rac1 activation and increased migration of glioma cells. Suppression of Rheb promoted platelet-derived growth factor receptor (PDGFR) expression. Pharmacological inhibition of PDGFR blocked these events. Therefore, Rheb appears to suppress tumor cell migration by inhibiting expression of growth factor receptors that in turn drive Rac1-mediate actin polymerization.
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