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Disease
Symptom
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Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Enzyme
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Query: EC:3.2.1.17 (
lysozyme
)
21,489
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cross beta-sheet structure formation and abnormal aggregation of proteins are thought to be pathological characteristics of some neurodegenerative disorders. To investigate the novel structural transformation and aggregation, the solid-state secondary structures of some proteins and peptides associated in thin films were determined by circular dichroism spectroscopy. Insulin,
lysozyme
, DsbA protein, luciferase, and ovalbumin peptide fall into one group; they show no or slight structural rearrangement from solution to the solid state. Another group, including bovine serum albumin, ovalbumin,
alpha-synuclein
, and plasminogen activator inhibitor-1 (PAIRC) peptide, undergo structural transformation with an increase of beta-sheet structure in the solid state. The beta-sheet formation of PAIRC peptide may reflect the structural transformation of the serpin reactive center that is relevant to the inhibitor activity. The beta-sheet structure of
alpha-synuclein
in the solid state may correspond to the amyloid-like aggregates, which are implicated in the pathogenesis of some neurodegenerative diseases.
...
PMID:beta-sheet structure formation of proteins in solid state as revealed by circular dichroism spectroscopy. 1113 88
Aggregation of
alpha-synuclein
is thought to play a major role in the pathogenesis of Parkinson's disease (PD), which is characterized by the presence of intracytoplasmic Lewy bodies (LB) in the brain. alpha-Synuclein and its deletion mutants are largely unfolded proteins with random coil structures as revealed by CD spectra, fluorescence spectra, gel filtration chromatography, and ultracentrifugation. On the basis of its highly unfolded and flexible conformation, we have investigated the chaperone-like activity of
alpha-synuclein
in vitro. In our experiments,
alpha-synuclein
inhibited the aggregation of model substrates and protected the catalytic activity of alcohol dehydrogenase and rhodanese during heat stress. In addition,
alpha-synuclein
inhibited the initial aggregation of reduced/denatured
lysozyme
on the refolding pathway. Interestingly, deletion of the C-terminal regions led to the abolishment of chaperone activity, although largely unstructured conformations are maintained. Moreover,
alpha-synuclein
could inhibit the aggregation of various Escherichia coli cellular proteins during heat stress, and C-terminal deletion mutants could not provide any protection to these cellular proteins. Results with synthetic C-terminal peptides and C-terminal deletion mutants suggest that the second acidic repeat, (125)YEMPSEEGYQDYEPEA(140), is important for the chaperone activity of
alpha-synuclein
, and C-terminal deletion leads to the facilitated aggregation with the elimination of chaperone activity.
...
PMID:Structural and functional implications of C-terminal regions of alpha-synuclein. 1242 41
The calcium-binding equine
lysozyme
has been found to undergo conversion into amyloid fibrils during incubation in solution at acidic pH. At pH 4.5 and 57 degrees C, where equine
lysozyme
forms a partially unfolded molten globule state, the protein forms protofilaments with a width of ca. 2 nm. In the absence of Ca(2+) the protofilaments are present as annular structures with a diameter of 40-50 nm. In the presence of 10 mM CaCl(2) the protofilaments of equine
lysozyme
are straight or curved; they can assemble into thicker threads, but they do not appear to undergo circularisation. At pH 2.0, where the protein is more destabilised compared to pH 4.5, fibril formation occurs at 37 degrees C and 57 degrees C. At pH 2.0, both ring-shaped and linear protofilaments are formed, in which periodic repeats of ca 35 nm can be distinguished clearly. The rings constitute about 10% of all fibrillar species under these conditions and they are characterised by a larger diameter of 70-80 nm. All the structures bind Congo red and thioflavine T in a manner similar to fibrils associated with a variety of amyloid diseases. At pH 2.0, fibril formation is accompanied by some acidic hydrolysis, producing specific fragmentation of the protein, leading to the accumulation of two peptides in particular, consisting of residues 1-80 and 54-125. At the initial stages of incubation, however, full-length equine
lysozyme
represents the dominant species within the fibrils. We propose that the ring-shaped structures observed here, and in the case of disease-associated proteins such as
alpha-synuclein
, could be a second generic type of amyloid structure in addition to the more common linear fibrils.
...
PMID:Amyloid protofilaments from the calcium-binding protein equine lysozyme: formation of ring and linear structures depends on pH and metal ion concentration. 1285 Jan 54
Alpha-synuclein
is one of the causative proteins of familial Parkinson disease, which is characterized by neuronal inclusions named Lewy bodies. Lewy bodies include not only
alpha-synuclein
but also aggregates of other proteins. This fact raises a question as to whether the formation of
alpha-synuclein
amyloid fibrils in Lewy bodies may occur via interaction with fibrils derived from different proteins. To probe this hypothesis, we investigated in vitro fibril formation of human
alpha-synuclein
in the presence of preformed fibril seeds of various different proteins. We used three proteins, Escherichia coli chaperonin GroES, hen
lysozyme
, and bovine insulin, all of which have been shown to form amyloid fibrils. Very surprisingly, the formation of
alpha-synuclein
amyloid fibril was accelerated markedly in the presence of preformed seeds of GroES,
lysozyme
, and insulin fibrils. The structural characteristics of the natively unfolded state of
alpha-synuclein
may allow binding to various protein particles, which in turn triggers the formation (extension) of
alpha-synuclein
amyloid fibrils. This finding is very important for understanding the molecular mechanism of Parkinson disease and also provides interesting implications into the mechanism of transmissible conformational diseases.
...
PMID:Amyloid fibril formation of alpha-synuclein is accelerated by preformed amyloid seeds of other proteins: implications for the mechanism of transmissible conformational diseases. 1616 99
Protein misfolding is conformational transition dramatically facilitating the assembly of protein molecules into aggregates of various morphologies. Spontaneous formation of specific aggregates, mostly amyloid fibrils, was initially believed to be limited to proteins involved in the development of amyloidoses. However, recent studies show that, depending on conditions, the majority of proteins undergo structural transitions leading to the appearance of amyloidogenic intermediates followed by aggregate formation. Various techniques have been used to characterize the protein misfolding facilitating the aggregation process, but no direct evidence as to how such a conformational transition increases the intermolecular interactions has been obtained as of yet. We have applied atomic force microscopy (AFM) to follow the interaction between protein molecules as a function of pH. These studies were performed for three unrelated and structurally distinctive proteins,
alpha-synuclein
, amyloid beta-peptide (Abeta) and
lysozyme
. It was shown that the attractive force between homologous protein molecules is minimal at physiological pH and increases dramatically at acidic pH. Moreover, the dependence of the pulling forces is sharp, suggesting a pH-dependent conformational transition within the protein. Parallel circular dichroism (CD) measurements performed for
alpha-synuclein
and Abeta revealed that the decrease in pH is accompanied by a sharp conformational transition from a random coil at neutral pH to the more ordered, predominantly beta-sheet, structure at low pH. Importantly, the pH ranges for these conformational transitions coincide with those of pulling forces changes detected by AFM. In addition, protein self-assembly into filamentous aggregates studied by AFM imaging was shown to be facilitated at pH values corresponding to the maximum of pulling forces. Overall, these results indicate that proteins at acidic pH undergo structural transition into conformations responsible for the dramatic increase in interprotein interaction and promoting the formation of protein aggregates.
...
PMID:Protein interactions and misfolding analyzed by AFM force spectroscopy. 1629 Sep 1
Alzheimer's disease (AD) and Parkinson's disease (PD) are the two most prevalent neurodegenerative diseases of the central nervous system. These two diseases share a common feature in that a normally soluble peptide (amyloid-beta) or protein (
alpha-synuclein
) aggregates into an ordered fibrillar structure. As well as structural similarities observed between fibrillar aggregates related to these diseases, common pathological processes of increased oxidative injury, excitotoxicity and altered cell cycle are also evident. It was the aim of this study to identify novel interacting proteins to the amyloid-like motif and therefore identify common potential pathways between neurodegenerative diseases that share biophysical properties common to classical amyloid fibrils. Optimal ageing of recombinant proteins to form amyloid-like fibrils was determined by electron microscopy, Congo red birefringement and photo-induced cross-linking. Using pull-down assays the strongest detected interacting protein to the amyloid-like motifs of amyloid-beta,
alpha-synuclein
and
lysozyme
was identified as histone H1. The interaction with the amyloid-like motif was confirmed by techniques including surface plasmon resonance and immunohistochemistry. Histone H1 is known to be an integral part of chromatin within the nucleus, with a primary role of binding DNA that enters and exits from the nucleosome, and facilitating the shift in equilibrium of chromatin towards a more condensed form. However, phosphorylated histone H1 is predominantly present in the cytoplasm and as yet the functional significance of this translocation is unknown. This study also found that histone H1 is localised within the cytoplasm of neurons and astrocytes from areas affected by disease as well as amyloid plaques, supporting the hypothesis that histone H1 favoured binding to an ordered fibrillar motif. We conclude that the binding of histone H1 to a general amyloid-like motif indicates that histone H1 may play an important common role in diseases associated with amyloid-like fibrils.
...
PMID:Linker histone H1 binds to disease associated amyloid-like fibrils. 1685 30
Amyloid fibrils formed from different proteins, each associated with a particular disease, contain a common cross-beta spine. The atomic architecture of a spine, from the fibril-forming segment GNNQQNY of the yeast prion protein Sup35, was recently revealed by X-ray microcrystallography. It is a pair of beta-sheets, with the facing side chains of the two sheets interdigitated in a dry 'steric zipper'. Here we report some 30 other segments from fibril-forming proteins that form amyloid-like fibrils, microcrystals, or usually both. These include segments from the Alzheimer's amyloid-beta and tau proteins, the PrP prion protein, insulin, islet amyloid polypeptide (IAPP),
lysozyme
, myoglobin,
alpha-synuclein
and beta(2)-microglobulin, suggesting that common structural features are shared by amyloid diseases at the molecular level. Structures of 13 of these microcrystals all reveal steric zippers, but with variations that expand the range of atomic architectures for amyloid-like fibrils and offer an atomic-level hypothesis for the basis of prion strains.
...
PMID:Atomic structures of amyloid cross-beta spines reveal varied steric zippers. 1746 47
Circular dichroism using synchrotron radiation (SRCD) can extend the spectral range down to approximately 130 nm for dry proteins, potentially providing new structural information. Using a selection of dried model proteins, including alpha-helical, beta-sheet, and mixed-structure proteins, we observe a low-wavelength band in the range 130-160 nm, whose intensity and peak position is sensitive to the secondary structure of the protein and may also reflect changes in super-secondary structure. This band has previously been observed for peptides but not for globular proteins, and is compatible with previously published theoretical calculations related to pi-orbital transitions. We also show that drying does not lead to large changes in the secondary structure and does not induce orientational artifacts. In combination with principal component analysis, our SRCD data allow us to distinguish between two different types of protein fibrils, highlighting that bona fide fibrils formed by
lysozyme
are structurally more similar to the nonclassical fibrillar aggregates formed by the SerADan peptide than with the amyloid formed by
alpha-synuclein
. Thus, despite the lack of direct structural conclusions, a comprehensive SRCD-based database of dried protein spectra may provide a useful method to differentiate between various types of supersecondary structure and aggregated protein species.
...
PMID:Characterization of dry globular proteins and protein fibrils by synchrotron radiation vacuum UV circular dichroism. 1845 70
A complex of osmium tetroxide with 2,2'-bipyridine (Os,bipy) has been applied as a chemical probe of DNA structure as well as an electroactive DNA label. The Os,bipy has been known to form covalent adducts with pyrimidine DNA bases. Besides the pyrimidines, electrochemically active covalent adducts with Os,bipy are formed also by tryptophan (W) residues in peptides and proteins. In this paper we show that Os,bipy-treated proteins possessing W residues (such as avidin, streptavidin, or
lysozyme
) yield at the pyrolytic graphite electrode (PGE) a specific signal (peak alphaW) the potential of which differs from the potentials of signals produced by free Os,bipy or by Os,bipy-modified DNA. No such signal is observed with proteins lacking W (such as ribonuclease A or
alpha-synuclein
). Subpicomole amounts of W-containing proteins modified with Os,bipy can easily be detected using adsorptive transfer stripping voltammetry with the PGE. Binding of biotin to avidin interferes with Os,bipy modification of the protein, in agreement with the location of W residues within the biotin-binding site of avidin. These Ws are accessible for modification in the absence of biotin but hidden (protected from modification) in the avidin-biotin complex. The Os,bipy-modified avidin is unable to bind biotin, and its quarternary structure is disrupted. Analogous effects were observed with another biotin-binding protein, streptavidin. Our results demonstrate that modification of proteins with Os,bipy under conditions close to physiological, followed by a simple electrochemical analysis, can be applied in the microanalysis of protein structure and interactions.
...
PMID:Osmium tetroxide, 2,2'-bipyridine: electroactive marker for probing accessibility of tryptophan residues in proteins. 1847 84
Nanobodies are single chain antibodies that are uniquely produced in Camelidae, e.g. camels and llamas. They have the desirable features of small sizes (Mw < 14 kDa) and high affinities against antigens (Kd approximately nM), making them ideal as structural probes for biomedically relevant motifs both in vitro and in vivo. We have previously shown that nanobody binding to amyloidogenic human
lysozyme
variants can effectively inhibit their aggregation, the process that is at the origin of systemic amyloid disease. Here we report the NMR assignments of a new nanobody, termed NbSyn2, which recognises the C-terminus of the intrinsically disordered protein, human
alpha-synuclein
(aS), whose aberrant self-association is implicated in Parkinson's disease.
...
PMID:(1)H, (13)C and (15)N assignments of a camelid nanobody directed against human alpha-synuclein. 1976 86
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