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)

Transthyretin is a human protein capable of amyloid formation that is believed to cause several types of amyloid disease, depending on the sequence deposited. Previous studies have demonstrated that wild-type transthyretin (TTR), although quite stable, forms amyloid upon dissociation from its native tetrameric form into monomers with an altered conformation. Many naturally occurring single-site variants of TTR display decreased stability in vitro, manifested by the early onset familial amyloid diseases in vivo. Only subtle structural changes were observed in X-ray crystallographic structures of these disease associated variants. In this study, the stability of the wild-type TTR tetramer was investigated at the residue-resolution level by monitoring (2)H-H exchange via NMR spectroscopy. The measured protection factors for slowly-exchanging amide hydrogen atoms reveal a stable core consisting of strands A, B, E, F, and interestingly, the loop between strands A and B. In addition, the faster exchange of amide groups from residues at the subunit interfaces suggests unexpected mobility in these regions. This information is crucial for future comparisons between disease-associated and wild-type tetramers. Such studies can directly address the regions of TTR that become destabilized as a consequence of single amino acid substitutions, providing clues to aspects of TTR amyloidogenesis.
J Mol Biol 2000 Nov 03
PMID:Deuterium-proton exchange on the native wild-type transthyretin tetramer identifies the stable core of the individual subunits and indicates mobility at the subunit interface. 1105 91

The [URE3] nonchromosomal genetic element is an infectious form (prion) of the Ure2 protein, apparently a self-propagating amyloidosis. We find that an insertion mutation or deletion of HSP104 results in inability to propagate the [URE3] prion. Our results indicate that Hsp104 is a common factor in the maintenance of two independent yeast prions. However, overproduction of Hsp104 does not affect the stability of [URE3], in contrast to what is found for the [PSI(+)] prion, which is known to be cured by either overproduction or deficiency of Hsp104. Like Hsp104, the Hsp40 class chaperone Ydj1p, with the Hsp70 class Ssa1p, can renature proteins. We find that overproduction of Ydj1p results in a gradual complete loss of [URE3]. The involvement of protein chaperones in the propagation of [URE3] indicates a role for protein conformation in inheritance.
Mol Cell Biol 2000 Dec
PMID:[URE3] prion propagation in Saccharomyces cerevisiae: requirement for chaperone Hsp104 and curing by overexpressed chaperone Ydj1p. 1107 91

Transthyretin is a tetrameric plasma protein associated with two forms of amyloid disease. The structure of the highly amyloidogenic transthyretin triple mutant TTRG53S/E54D/L55S determined at 2.3 A resolution reveals a novel conformation: the beta-slip. A three-residue shift in beta strand D places Leu-58 at the position normally occupied by Leu-55 now mutated to serine. The beta-slip is best defined in two of the four monomers, where it makes new protein-protein interactions to an area normally involved in complex formation with retinol-binding protein. This interaction creates unique packing arrangements, where two protein helices combine to form a double helix in agreement with fiber diffraction and electron microscopy data. Based on these findings, a novel model for transthyretin amyloid formation is presented.
Mol Cell 2000 Nov
PMID:The beta-slip: a novel concept in transthyretin amyloidosis. 1110 58

Transthyretin (TTR) amyloidosis is a conformational disturbance, which, like other amyloidoses, represents a life threat. Here, we report a TTR variant, TTR Thr119Met, that has been shown to have a protective role in the development of clinical symptoms in carriers of TTR Val30Met, one of the most frequent variants among TTR amyloidosis patients. In order to understand this effect, we have determined the structures of the TTR Val30Met/Thr119Met double mutant isolated from the serum of one patient and of both the native and thyroxine complex of TTR Thr119Met. Major conclusions are: (i) new H-bonds within each monomer and monomer-monomer inter-subunit contacts, e.g. Ser117-Ser117 and Met119-Tyr114, increase protein stability, possibly leading to the protective effect of the TTR Val30Met/Thr119Met variant when compared to the single variant TTR Val30Met. (ii) The mutated residue (Met119) extends across the thyroxine binding channel inducing conformational changes that lead to closer contacts between different dimers within the tetramer. The data, at atomic resolution, were essential to detect, for the first time, the subtle changes in the inter-subunit contacts of TTR, and explain the non-amyloidogenic potential of the TTR Thr119Met variant, improving considerably current research on the TTR amyloid fibril formation pathway.
J Mol Biol 2001 Mar 02
PMID:Transthyretin stability as a key factor in amyloidogenesis: X-ray analysis at atomic resolution. 1124 84

The pathology of type II diabetes includes deposition of amyloid in the extra cellular space surrounding the beta-cells of the endocrine pancreas. The principle component of these deposits is an insoluble fibrillar form of a normally soluble 37 residue peptide hormone, islet amyloid polypeptide. Multiple sequence analysis and peptide synthesis have identified a core set of residues (20 to 29) as intrinsically amyloidogenic. As the fibrillogenesis of the 20-29 peptide often requires conditions that deviate considerably from physiological, residues 20 to 29 may be necessary, but not sufficient, for amyloidosis. We aim to determine the structural role of residues outside this core in the context of in vitro fibrillogenesis of the wild-type peptide at physiological pH and ionic strength. Specifically, we make use of an intrinsic fluorescent probe, tyrosine 37 (Y37), to explore the role of the C terminus in fibrillogenesis. Our protocol permits steady state measurement of the lag phase and fiber conformational states of the protein under identical conditions. These are compared to a non-amyloidogenic variant of islet amyloid polypeptide from rat and N-acetyl-tyrosinamide as models of the unfolded state under matched conditions. Spectral, quenching and anisotropic properties of Y37 in the fiber state indicate that the C terminus is packed in a well-defined environment with near frozen rigidity. The presence of a fluorescence resonance energy transfer pathway shows Y37 is near F15 and F23. The lag-phase conformation, while considerably less ordered than the fiber, is more ordered than unfolded models. Differences in anisotropy between the lag and fiber state were used to monitor fibrillogenesis in real time. Parallel assessment of fiber formation using the histological dye, ThT, indicate that ordering at the C terminus of islet amyloid polypeptide is coincident with, and thus indicative of, fiber formation.
J Mol Biol 2001 May 11
PMID:Islet amyloid polypeptide: identification of long-range contacts and local order on the fibrillogenesis pathway. 1135 Jan 74

In the US alone, more than 250,000 people have impaired renal function that necessitates treatment by dialysis. A debilitating complication of long-term treatment is the deposition of beta2-microglobulin (beta2m) as amyloid fibers within the joint space. However, the intrinsic propensity of isolated beta2m protein to initiate in vitro fiber formation is negligible under conditions matched to the neutral pH and ionic conditions of serum. Here, we present evidence for a novel interaction between beta2m and Cu(2+) at a concentration within institutionally recommended limits for this metal ion in dialysate solution. Mass spectrometry, using electrospray ionization from native conditions, demonstrates that the binding of Cu(2+) is specific over Ca(2+) or Zn(2+). Despite maintaining a native-like conformation upon Cu(2+) binding, the folded protein is unusually destabilized against thermal and urea denaturation. We further demonstrate that destabilization by Cu(2+) uniquely promotes de novo fiber formation at 37 degrees C and neutral pH. Since the incidence of amyloidosis is dramatically reduced upon elimination of copper from dialysis membranes, our results provide a molecular understanding for dialysis-associated amyloid formation by beta2m.
J Mol Biol 2001 Jun 01
PMID:Kidney dialysis-associated amyloidosis: a molecular role for copper in fiber formation. 1137 Nov 57

Cryo-electron microscopy studies are presented on amyloid fibrils isolated from amyloidotic organs of two patients with different forms of hereditary non-neuropathic systemic amyloidosis, caused, respectively, by Leu60Arg apolipoprotein AI and Asp67His lysozyme. Although ex vivo amyloid fibrils were thought to be more uniform in structure than those assembled in vitro, our findings show that these fibrils are also quite variable in structure. Structural disorder and variability of the fibrils have precluded three-dimensional reconstruction, but averaged cryo-electron microscopy images suggest models for protofilament packing in the lysozyme fibrils. We conclude that ex vivo amyloid fibrils, although variable, assemble as characteristic structures according to the identity of the precursor protein.
J Mol Biol 2001 Aug 10
PMID:Structural diversity of ex vivo amyloid fibrils studied by cryo-electron microscopy. 1147 57

Multicentric Castleman's disease (MCD) is a lymphoproliferative disorder characterized by systemic lymphadenopathy and hypergammaglobulinemia. Recently, a French group reported that human herpesvirus 8 (HHV8) DNA was detected in tissue samples of MCD patients. The detection rate was especially high in human immunodeficiency virus (HIV)-positive MCD patients. Thus, HHV8 infection seems to be closely related to HIV infection. In Japan, the HIV infection rate in the general population is very low. To examine whether HHV8 is actually related to MCD in Japan, we performed nested polymerase chain reaction for the HHV8 genome using DNA samples from 7 patients with MCD and 23 patients with related diseases such as POEMS syndrome, amyloidosis, myeloma and lymphoma. They were all HIV-negative Japanese. Three of 7 MCD patients were positive for HHV8. There were no clear differences in clinical characteristics between HHV8-positive patients and negative ones. All other patients were negative for HHV8. Thus, we have shown that some MCD patients in Japan are also infected with HHV8.
Int J Mol Med 2001 Nov
PMID:Human herpesvirus 8 DNA in HIV-negative Japanese patients with multicentric Castleman's disease and related diseases. 1160 26

Amyloid fibrils formed by incubation of recombinant wild-type human beta(2)-microglobulin (beta(2)M) ab initio in vitro at low pH and high ionic strength are short and highly curved. By contrast, fibrils extracted from patients suffering from haemodialysis-related amyloidosis and those formed by seeding growth of the wild-type protein in vitro with fibrils ex vivo are longer and straighter than those previously produced ab initio in vitro. Here we explore the effect of growth conditions on morphology of beta(2)M fibrils formed ab initio in vitro from the wild-type protein, as well as a variant form of beta(2)M in which Asn17 is deamidated to Asp (N17D). We show that deamidation results in significant destabilisation of beta(2)M at neutral pH. Despite this, acidification is still necessary to form amyloid from the mutant protein in vitro. Interestingly, at low pH and low ionic strength long, straight fibrils of recombinant beta(2)M are formed in vitro. The fibrils comprise three distinct morphological types when examined using electron microscopy (EM) and atomic force microscopy (AFM) that vary in periodicity and the number of constituent protofibrils. Using kinetic experiments we suggest that the immature fibrils observed previously do not represent intermediates in the assembly of fully mature amyloid, at least under the conditions studied here.
J Mol Biol 2001 Oct 26
PMID:Beta(2)-microglobulin and its deamidated variant, N17D form amyloid fibrils with a range of morphologies in vitro. 1167 39

Deposition of monoclonal immunoglobulin light chain (LC) aggregates in tissues is the hallmark of a class of fatal diseases with no effective treatment. In the most prevalent diseases two different types of LC aggregates are observed: fibrillar deposits in LC amyloidosis (AL) and granular aggregates in LC deposition disease (LCDD). The mechanisms by which a given LC forms either type of aggregate are not understood. Although some LCs are more aggregation-prone than others, this does not appear to be due to specific sequence determinants, but more likely from global properties that can be introduced by multiple somatic mutations. Moreover, a single LC isotype can sometimes form both fibrillar and granular aggregates within the same patient. To better understand how the different aggregation pathways arise, we developed a series of in vitro assays to analyze the formation of distinct aggregate types. The recombinant kappa IV LC (SMA) assembles into fibrils when agitated. We now show that SMA can also form granular aggregates upon exposure to copper, and that this aggregation can occur not only in vitro, but also in cells. A constellation of somatic mutations, consisting of His89/His94/Gln96, is sufficient to confer sensitivity to copper on wild-type kappa IV proteins. The formation of both types of aggregates is inhibited by synthetic peptides derived from the LC variable domain. However, the peptide that inhibits fibrillar aggregation is different from the peptide that inhibits copper-induced aggregation. Thus, distinct molecular surfaces of the LC underly each type of aggregate. We conclude that both the intrinsic properties of the sequence and extrinsic conditions govern the aggregation pathway of a LC.
J Mol Biol 2001 Nov 09
PMID:Both the environment and somatic mutations govern the aggregation pathway of pathogenic immunoglobulin light chain. 1170 59


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