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1.
Cell Death Dis ; 4: e579, 2013 Apr 04.
Article in English | MEDLINE | ID: mdl-23559013

ABSTRACT

The p75 neurotrophin receptor (p75(NTR)) is a known mediator of ß-amyloid (Aß)-induced neurotoxicity implicated in Alzheimer's disease (AD). Here, we demonstrate that death receptor 6 (DR6) binds to p75(NTR) and is a component of the p75(NTR) signaling complex responsible for Aß-induced cortical neuron death. Cortical neurons isolated from either DR6 or p75(NTR) null mice are resistant to Aß-induced neurotoxicity. Blocking DR6 function in cortical neurons by anti-DR6 antibodies that block the binding of DR6 to p75(NTR) receptor complex or by a dominant negative DR6 construct lacking the cytoplasmic signaling death domain attenuates Aß-induced caspase 3 activation and cell death. DR6 expression is upregulated in AD cortex and correlates with elevated neuronal death. Targeting the disruption of the DR6/p75(NTR) complex to prevent Aß cytotoxicity represents a new approach for the treatment of neurodegenerative disorders such as AD.


Subject(s)
Cerebral Cortex/drug effects , Neurons/drug effects , Receptors, Nerve Growth Factor/genetics , Receptors, Tumor Necrosis Factor/genetics , Amyloid beta-Peptides/pharmacology , Animals , Antibodies/pharmacology , Caspase 3/genetics , Caspase 3/metabolism , Cell Death/drug effects , Cerebral Cortex/metabolism , Cerebral Cortex/pathology , Gene Expression Regulation/drug effects , Mice , Mice, Knockout , Neurons/metabolism , Neurons/pathology , Primary Cell Culture , Protein Binding , Receptors, Nerve Growth Factor/deficiency , Receptors, Tumor Necrosis Factor/deficiency , Signal Transduction/drug effects
2.
Biochim Biophys Acta ; 1434(2): 296-303, 1999 Oct 12.
Article in English | MEDLINE | ID: mdl-10525148

ABSTRACT

Chicken gizzard smooth muscle myosin light chain phosphatase is composed of a approximately 37 kDa catalytic subunit, a approximately 110 kDa myosin binding or targeting subunit and a approximately 20 kDa subunit (MPs) whose function is as yet undefined. It was reported previously that a cloned chicken gizzard MPs cDNA encodes a protein of 186 amino acids (aa) [Y.H. Chen, M.X. Chen, D.R. Alessi, D.G. Gampbell, C. Shanahan, P. Cohen, P.T.W. Cohen, FEBS Lett. 356 (1994) 51-55]. More recently, we obtained by PCR amplification another MPs cDNA that encodes a protein of only 161 aa [Y. Zhang, K. Mabuchi, T. Tao, Biochim. Biophys. Acta 1343 (1997) 51-58]. In this work we obtained cDNAs corresponding to both sequences using a different set of PCR primers, indicating that the two sequences correspond to isoforms that most likely arose from alternative splicing of the same gene. Using two polyclonal antibodies, one raised against the recombinant 161 aa isoform of chicken gizzard MPs and the other against a C-terminal polypeptide that is present only in the 186 aa isoform, we found that while the 161 aa isoform is the predominant one in chicken gizzard, in chicken aorta it is the 186 aa one; in chicken stomach both isoforms are present, and in mammalian tissues such as ferret and rat only the 186 aa isoform is detected. Furthermore, we purified the MPs associated with the chicken gizzard myosin light chain phosphatase holoenzyme and determined its molecular weight, amino acid composition and six residues of its C-terminal sequence. The results from these analyses showed conclusively that the predominant isoform in chicken gizzard is the 161 aa one.


Subject(s)
Muscle, Smooth/enzymology , Phosphoprotein Phosphatases/chemistry , Amino Acid Sequence , Amino Acids/analysis , Animals , Chickens , DNA, Complementary/chemistry , Ferrets , Gizzard, Avian/enzymology , Immunoblotting , Isoenzymes/chemistry , Isoenzymes/isolation & purification , Molecular Sequence Data , Molecular Weight , Myosin-Light-Chain Phosphatase , Phosphoprotein Phosphatases/isolation & purification , Polymerase Chain Reaction , Rats , Stomach/enzymology
3.
Biochim Biophys Acta ; 1450(3): 423-33, 1999 Jul 08.
Article in English | MEDLINE | ID: mdl-10395953

ABSTRACT

Troponin I (TnI) is the inhibitory component of the striated muscle Ca2+ regulatory protein troponin (Tn). The other two components of Tn are troponin C (TnC), the Ca2+-binding component, and troponin T (TnT), the tropomyosin-binding component. We have used limited chymotryptic digestion to probe the local conformation of TnI in the free state, the binary TnC*TnI complex, the ternary TnC*. TnI*TnT (Tn) complex, and in the reconstituted Tn*tropomyosin*F-actin filament. The digestion of TnI alone or in the TnC*TnI complex produced initially two major fragments via a cleavage of the peptide bond between Phe100 and Asp101 in the so-called inhibitory region. In the ternary Tn complex cleavage occurred at a new site between Leu140 and Lys141. In the absence of Ca2+ this was followed by digestion of the 1-140 fragment at Leu122 and Met116. In the reconstituted thin filament the same fragments as in the case of the ternary complex were produced, but the rate of digestion was slower in the absence than in the presence of Ca2+. These results indicate firstly that in both free TnI and TnI complexed with TnC there is an exposed and flexible site in the inhibitory region. Secondly, TnT affects the conformation of TnI in the inhibitory region and also in the region that contains the 140-141 bond. Thirdly, the 140-141 region of TnI is likely to interact with actin in the reconstituted thin filament when Ca2+ is absent. These findings are discussed in terms of the role of TnI in the mechanism of thin filament regulation, and in light of our previous results [Y. Luo, J.-L. Wu, J. Gergely, T. Tao, Biochemistry 36 (1997) 13449-13454] on the global conformation of TnI.


Subject(s)
Muscle Proteins/chemistry , Troponin I/chemistry , Troponin T/chemistry , Binding Sites , Calcium/chemistry , Chromatography, High Pressure Liquid , Chymotrypsin , Peptide Fragments/chemistry , Protein Conformation , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization/methods
4.
Biophys J ; 66(6): 2062-5, 1994 Jun.
Article in English | MEDLINE | ID: mdl-8075339

ABSTRACT

Various thio-reactive bifunctional crosslinkers as well as 5,5'-dithiobis(2-nitrobenzoate)-mediated disulfide bond formation were used to crosslink troponin-C and troponin-I, the Ca(2+)-binding and inhibitory subunits of troponin, respectively. In all cases, substantial crosslinking was obtained when the reactions were carried out in the absence of Ca2+. No disulfide crosslinking occurred if either Cys98 of TnC, or Cys133 of TnI were blocked, indicating that these thiols are involved in the crosslinking. Troponin containing the disulfide crosslink is no longer capable of regulating actomyosin ATPase activity in a Ca(2+)-dependent manner. Our results suggest that the relative movement between the Cys98 region of TnC and the Cys133 region of TnI is required for the Ca(2+)-regulatory process in skeletal muscle.


Subject(s)
Cross-Linking Reagents/pharmacology , Cysteine , Dithionitrobenzoic Acid/pharmacology , Muscles/physiology , Troponin/metabolism , Actomyosin/metabolism , Amino Acid Sequence , Animals , Ca(2+) Mg(2+)-ATPase/metabolism , Calcium-Transporting ATPases/metabolism , Disulfides , Electrophoresis, Polyacrylamide Gel , Kinetics , Rabbits , Time Factors , Troponin/drug effects , Troponin/isolation & purification , Troponin I
5.
J Biochem ; 114(4): 453-6, 1993 Oct.
Article in English | MEDLINE | ID: mdl-8276752

ABSTRACT

Calponin is a thin filament-associated protein that is implicated in the regulation and maintenance of smooth muscle contraction. Molecular cloning of chicken gizzard calponin indicated the presence of two isoforms, alpha and beta, the expression of the alpha-isoform being uniformly more abundant in various smooth muscle tissues [Takahashi, K. & Nadal-Ginard, B. (1991) J. Biol. Chem. 266, 13284-13288]. For the long-range goal of understanding of the structure and function of calponin, we have started bacterial expression and site-directed mutagenesis of alpha calponin. The amino acid composition and N-terminal sequence of the recombinant alpha calponin were found to be identical to those deduced from its nucleotide sequence. Recombinant alpha calponin is capable of binding to calmodulin, troponin C, tropomyosin, and actin, and of inhibiting skeletal muscle acto-subfragment-1 ATPase activity. A mutant alpha calponin with a replacement in the putative inhibitory region (residues 146-171) has impaired ability to inhibit the acto-subfragment-1 ATPase activity, suggesting that this region of calponin may be involved in the modulation of the actin-myosin interactions.


Subject(s)
Calcium-Binding Proteins/genetics , Escherichia coli/genetics , Gene Expression , Gizzard, Avian/chemistry , Actins/antagonists & inhibitors , Actins/metabolism , Adenosine Triphosphatases/antagonists & inhibitors , Amino Acid Sequence , Animals , Base Sequence , Calcium-Binding Proteins/chemistry , Calcium-Binding Proteins/metabolism , Calmodulin/metabolism , Chickens , Cloning, Molecular , Immunoblotting , Microfilament Proteins , Molecular Sequence Data , Mutagenesis, Site-Directed , Peptide Fragments/antagonists & inhibitors , Polymerase Chain Reaction , Recombinant Proteins/chemistry , Recombinant Proteins/metabolism , Recombinant Proteins/pharmacology , Tropomyosin/metabolism , Troponin/metabolism , Troponin C , Calponins
6.
Science ; 247(4948): 1339-41, 1990 Mar 16.
Article in English | MEDLINE | ID: mdl-2138356

ABSTRACT

The role of troponin-I (the inhibitory subunit of troponin) in the regulation by Ca2+ of skeletal muscle contraction was investigated with resonance energy transfer and photo cross-linking techniques. The effect of Ca2+ on the proximity of troponin-I to actin in reconstituted rabbit skeletal thin filaments was determined. The distance between the cysteine residue at position 133 (Cys133) of troponin-I and Cys374 of actin increases by approximately 15 angstroms on binding of Ca2+ to troponin-C. Also, troponin-I labeled at Cys133 with benzophenone-4-maleimide could be photo cross-linked to actin in the absence of Ca2+, but not in its presence. These results suggest that troponin-I is attached to actin in the Ca2(+)-free or relaxed state of muscle, and that it detaches from actin on Ca2+ activation of contraction. Thus, troponin-I may function as a Ca2(+)-dependent molecular switch in regulation of skeletal muscle contraction.


Subject(s)
Actins/physiology , Calcium/physiology , Muscle Contraction , Muscles/physiology , Troponin/physiology , Ca(2+) Mg(2+)-ATPase/metabolism , Cysteine , In Vitro Techniques , Myosins/metabolism , Spectrometry, Fluorescence , Troponin I
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