Post mortem findings and their relation to AA amyloidosis in free-ranging Herring gulls (Larus argentatus).

Since the late 1990s, high mortality and declining populations have been reported among sea birds including Herring gulls (Larus argentatus) from the Baltic Sea area in Northern Europe. Repeated BoNT type C/D botulism outbreaks have occurred, but it remains unclear whether this is the sole and primary cause of mortality. Thiamine deficiency has also been suggested as a causal or contributing factor.

Leukocyte chemotactic factor 2 (LECT2)-associated renal amyloidosis: a case series.

Background: Renal amyloidosis is characterized by the pathologic deposition within glomeruli and/or interstitium of congophilic fibrils, most often composed of either immunoglobulin light chains or serum amyloid A-related protein and, less commonly, mutated forms of apolipoproteins AI or AII, lysozyme, fibrinogen, gelsolin, or transthyretin.

Study Design: Case series.

Setting & Participants: 10 patients with renal amyloidosis who had an amyloidogenic protein that was not identified using routine immunohistochemistry.

AA amyloidosis associated with a mutated serum amyloid A4 protein.

AA amyloidosis invariably has been associated with fibrillar deposits of the acute phase high-density lipoprotein serum amyloid A isotypes SAA1 and SAA2. We now report the first case in a patient with no antecedent history of a chronic inflammatory or neoplastic process whose pathologic renal deposits were comprised of a mutated form of the constitutively expressed serum amyloid A4 (SAA4) protein. Analyses by tandem mass spectrometry of amyloid extracted from kidney biopsies revealed a component identical in sequence to the N-terminal portion of SAA4, except for the substitution of glycine for tryptophan at position 22 (W22G).

Odontogenic ameloblast-associated protein nature of the amyloid found in calcifying epithelial odontogenic tumors and unerupted tooth follicles.

We have previously reported that the amyloid found in three patients with calcifying epithelial odontogenic tumors (CEOT) was composed of N-terminal fragments of a putative 153-residue protein specified by a gene designated FLJ20513 now known to represent exons 5 through 10 of the odontogenic ameloblast-associated protein (ODAM) locus that encodes a 279-residue polypeptide. Confirmation of the amyloidogenic potential of ODAM has resulted from analyses of four other cases where we found, in addition, a 74-residue segment specified by exon 4. Through preparation of ODAM-related synthetic peptides, it was possible to localize the fibril-forming region of this molecule, as well as generate a monoclonal antibody that reacted specifically with the amyloid associated with CEOT.

Expression of odontogenic ameloblast-associated protein (ODAM) in dental and other epithelial neoplasms.

We previously have communicated our discovery that the amyloid associated with calcifying epithelial odontogenic tumors is composed of N-terminal fragments of the structurally novel odontogenic ameloblast-associated protein designated ODAM. Subsequently, it was shown by other investigators that ODAM is expressed in rodent enamel organ and is likely involved in dental development. We now report that this molecule also is found in certain human tissues, principally the salivary gland and trachea, as evidenced by RNA array analysis and immunohistochemistry-utilizing antibodies prepared against synthetic ODAM-related peptides and recombinant protein.

Influence of the germline sequence on the thermodynamic stability and fibrillogenicity of human lambda 6 light chains.

Light chain-associated amyloidosis is a fatal disease characterized by the aggregation and pathologic deposition of monoclonal light chain-related fragments as amyloid fibrils in organs or tissues throughout the body. Notably, it has been observed that proteins encoded by the lambda variable light chain (V(L)) gene segment 6a are invariably associated with amyloid deposition; however, the contribution of the gene to this phenomenon has not been established. In this regard, we have determined the thermodynamic stability and kinetics of in vitro fibrillogenesis of a recombinant (r) V(L) protein, designated 6aJL2, which contains the predicted sequences encoded by the 6a and JL2 germline genes.

Amyloidogenic potential of foie gras.

The human cerebral and systemic amyloidoses and prion-associated spongiform encephalopathies are acquired or inherited protein folding disorders in which normally soluble proteins or peptides are converted into fibrillar aggregates. This is a nucleation-dependent process that can be initiated or accelerated by fibril seeds formed from homologous or heterologous amyloidogenic precursors that serve as an amyloid enhancing factor (AEF) and has pathogenic significance in that disease may be transmitted by oral ingestion or parenteral administration of these conformationally altered components. Except for infected brain tissue, specific dietary sources of AEF have not been identified.

Amyloid contained in the knee joint meniscus is formed from apolipoprotein A-I.

Objective: To determine the chemical nature of amyloid deposits found in knee joint menisci.

Methods: Amyloid was extracted from the menisci of 3 adults who underwent knee joint replacement surgery. The primary structural features of the purified proteins were determined by sequential Edman degradation and tandem mass spectrometry (MS/MS).

Characterization of systemic amyloid deposits by mass spectrometry.

The human systemic (noncerebral) amyloidoses represent a heterogeneous group of disorders characterized by the widespread deposition of proteins as fibrils in organs or tissues throughout the body. The unequivocal identification of the type of amyloid deposited is critical to the correct diagnosis and treatment of patients with these illnesses. Heretofore, this information was inferred from clinical data, ancillary laboratory tests, and results of immunohistochemical, as well as genetic, analyses.

Chemical typing of porcine systemic amyloid as AA-amyloid.

Systemic AA amyloidosis is frequently reported in a wide variety of domestic and wild animal species. Porcine amyloidosis is rare and the amyloid has not been typed chemically thus far. In the present study, we have extracted porcine amyloid from formalin-fixed tissue sections.

Senile seminal vesicle amyloid is derived from semenogelin I.

Senile seminal vesicle amyloid (SSVA), one of the most common forms of localized amyloidosis, is associated with the male aging process. Although it had been posited that the amyloidogenic component originated from exocrine cells and that, on the basis of immunohistochemistry, that the amyloid was composed of lactoferrin, the nature of SSVA was never established definitively. To address this issue, we have used our microanalytic techniques to characterize the structure of the congophilic green birefringent protein extracted from 5 such amyloid-containing specimens.

Amyloid deposits in transthyretin-derived amyloidosis: cleaved transthyretin is associated with distinct amyloid morphology.

The pathological fibrillar deposits found in the heart and other organs of patients with senile systemic amyloidosis (SSA) and Swedish familial amyloidotic polyneuropathy (FAP) contain wild-type (wt) and a mutant form of transthyretin (TTR), respectively. Previously, it was reported that these two forms of amyloid have different molecular features and it was thus postulated that the mechanism responsible for TTR fibrillogenesis in SSA and FAP may differ. To document further the nature of the amyloid in these entities, detailed morphological, histochemical, immunological, and structural analyses of specimens obtained from 14 individuals with SSA and 11 Swedish FAP patients have been performed.

Renal apolipoprotein A-I amyloidosis associated with a novel mutant Leu64Pro.

Apolipoprotein A-I amyloidosis (Apo A-I) is an inherited systemic disease that results from the pathologic deposition in tissues throughout the body of fibrils composed of Apo A-I-related molecules. This disorder has been linked to mutations occurring within the coding region of the Apo A-I gene and, to date, 11 such substitutions have been documented. In 4 of these cases, the kidney was the target organ of the disease process.

Two different types of amyloid deposits--apolipoprotein A-IV and transthyretin--in a patient with systemic amyloidosis.

Certain forms of systemic amyloidosis have been associated with the pathologic deposition as fibrils of three different apolipoprotein-related proteins--apolipoprotein A-I, apolipoprotein A-II, and serum amyloid A. We have previously reported (Bergström et al, Biochem Biophys Res Commun 2001;285:903-908) that amyloid fibrils extracted from the heart of an elderly male with senile systemic amyloidosis contained, in addition to wild-type transthyretin-related molecules, an N-terminal fragment of yet a fourth apolipoprotein--apolipoprotein A-IV (apoA-IV). We now provide the results of our studies that have established the complete amino-acid sequence of this approximately 70-residue component and, additionally, have shown this protein to be the product of an unmutated apoA-IV gene.

A molecular basis for nonsecretory myeloma.

The biosynthesis of aberrant immunoglobulin polypeptides by monoclonal plasma cells has been implicated in the pathogenesis of nonsecretory myeloma. Our studies of a patient with this disorder indeed have demonstrated the presence of abnormal kappa light chains that resulted from a frameshift mutation in nucleotides encoding the constant region of the molecule. As a consequence of a 2-base deletion in codon 187 and loss of the normal stop codon, this portion of the kappa chain was composed of 128 amino acids (rather than the expected 106), with a completely anomalous sequence after position 187 that included absence of the cysteines required for intrachain and interchain disulfide bonds.

Hepatic amyloidosis resulting from deposition of the apolipoprotein A-I variant Leu75Pro.

Apolipoprotein A-I amyloidosis (AApo A-I) is an inherited systemic disease that results from pathologic deposition in tissues of fibrils composed of Apo A-I-related molecules. This disorder has been linked to mutations occurring within the coding region of the Apo A-I gene and heretofore, nine such variants had been described. Recently, a tenth alteration was found in an Italian population where the substitution of proline for leucine at position 75 (Leu75Pro) was associated with amyloid deposits in the liver.

Calcifying epithelial odontogenic (Pindborg) tumor-associated amyloid consists of a novel human protein.

Calcifying epithelial odontogenic tumors (CEOTs), also known as Pindborg tumors, are characterized by the presence of squamous-cell proliferation, calcification, and, notably, amyloid deposits. On the basis of immunohistochemical analyses, the amyloidogenic component had heretofore been deemed to consist of cytokeratin-related or other molecules; however, its chemical composition had never been elucidated. We have used our microanalytic techniques to characterize the protein nature of CEOT-associated amyloid isolated from specimens obtained from 3 patients.

Transmissibility of systemic amyloidosis by a prion-like mechanism.

The generation of amyloid fibrils from an amyloidogenic polypeptide occurs by a nucleation-dependent process initiated in vitro by seeding the protein solution with preformed fibrils. This phenomenon is evidenced in vivo by the fact that amyloid protein A (AA) amyloidosis in mice is markedly accelerated when the animals are given, in addition to an inflammatory stimulus, an i.v.