Viroids, Satellite RNAs and Prions: Folding of Nucleic Acids and Misfolding of Proteins.

Theodor ("Ted") Otto Diener (* 28 February 1921 in Zürich, Switzerland; † 28 March 2023 in Beltsville, MD, USA) pioneered research on viroids while working at the Plant Virology Laboratory, Agricultural Research Service, USDA, in Beltsville. He coined the name viroid and defined viroids' important features like the infectivity of naked single-stranded RNA without protein-coding capacity. During scientific meetings in the 1970s and 1980s, viroids were often discussed at conferences together with other "subviral pathogens".

Development and Implementation of an Internal Quality Control Sample to Standardize Oligomer-Based Diagnostics of Alzheimer's Disease.

Protein misfolding and aggregation are pathological hallmarks of various neurodegenerative diseases. In Alzheimer's disease (AD), soluble and toxic amyloid-β (Aβ) oligomers are biomarker candidates for diagnostics and drug development. However, accurate quantification of Aβ oligomers in bodily fluids is challenging because extreme sensitivity and specificity are required.

Time-resolved structural analysis of an RNA-cleaving DNA catalyst.

The 10-23 DNAzyme is one of the most prominent catalytically active DNA sequences. Its ability to cleave a wide range of RNA targets with high selectivity entails a substantial therapeutic and biotechnological potential. However, the high expectations have not yet been met, a fact that coincides with the lack of high-resolution and time-resolved information about its mode of action.

Molecular Features and Metal Ions That Influence 10-23 DNAzyme Activity.

Deoxyribozymes (DNAzymes) with RNA hydrolysis activity have a tremendous potential as gene suppression agents for therapeutic applications. The most extensively studied representative is the 10-23 DNAzyme consisting of a catalytic loop and two substrate binding arms that can be designed to bind and cleave the RNA sequence of interest. The RNA substrate is cleaved between central purine and pyrimidine nucleotides.

Viroid research and its significance for RNA technology and basic biochemistry.

Viroids were described 47 years ago as the smallest RNA molecules capable of infecting plants and autonomously self-replicating without an encoded protein. Work on viroids initiated the development of a number of innovative methods. Novel chromatographic and gelelectrophoretic methods were developed for the purification and characterization of viroids; these methods were later used in molecular biology, gene technology and in prion research.

Inability of DNAzymes to cleave RNA in vivo is due to limited Mg[Formula: see text] concentration in cells.

Sequence specific cleavage of RNA can be achieved by hammerhead ribozymes as well as DNAzymes. They comprise a catalytic core sequence flanked by regions that form double strands with complementary RNA. While different types of ribozymes have been discovered in natural organisms, DNAzymes derive from in vitro selection.

Seeded fibrillation as molecular basis of the species barrier in human prion diseases.

Prion diseases are transmissible spongiform encephalopathies in humans and animals, including scrapie in sheep, bovine spongiform encephalopathy (BSE) in cattle, chronic wasting disease (CWD) in deer, and Creutzfeldt-Jakob disease (CJD) in humans. The hallmark of prion diseases is the conversion of the host-encoded prion protein (PrP(C)) to its pathological isoform PrP(Sc), which is accompanied by PrP fibrillation. Transmission is not restricted within one species, but can also occur between species.

Detection of prion protein particles in blood plasma of scrapie infected sheep.

Prion diseases are transmissible neurodegenerative diseases affecting humans and animals. The agent of the disease is the prion consisting mainly, if not solely, of a misfolded and aggregated isoform of the host-encoded prion protein (PrP). Transmission of prions can occur naturally but also accidentally, e.

In vitro conversion and seeded fibrillization of posttranslationally modified prion protein.

The conversion of the cellular isoform of the prion protein (PrP(C)) into the pathologic isoform (PrP(Sc)) is the key event in prion diseases. To study the conversion process, an in vitro system based on varying the concentration of low amounts of sodium dodecyl sulfate (SDS) has been employed. In the present study, the conversion of full-length PrP(C) isolated from Chinese hamster ovary cells (CHO-PrP(C)) was examined.

Sequence-independent control of peptide conformation in liposomal vaccines for targeting protein misfolding diseases.

Synthetic peptide immunogens that mimic the conformation of a target epitope of pathological relevance offer the possibility to precisely control the immune response specificity. Here, we performed conformational analyses using a panel of peptides in order to investigate the key parameters controlling their conformation upon integration into liposomal bilayers. These revealed that the peptide lipidation pattern, the lipid anchor chain length, and the liposome surface charge all significantly alter peptide conformation.

Molecular interactions between prions as seeds and recombinant prion proteins as substrates resemble the biological interspecies barrier in vitro.

Prion diseases like Creutzfeldt-Jakob disease in humans, Scrapie in sheep or bovine spongiform encephalopathy are fatal neurodegenerative diseases, which can be of sporadic, genetic, or infectious origin. Prion diseases are transmissible between different species, however, with a variable species barrier. The key event of prion amplification is the conversion of the cellular isoform of the prion protein (PrP(C)) into the pathogenic isoform (PrP(Sc)).

Characterization of plant miRNAs and small RNAs derived from potato spindle tuber viroid (PSTVd) in infected tomato.

To defend against invading pathogens, plants possess RNA silencing mechanisms involving small RNAs (miRNAs, siRNAs). Also viroids - plant infectious, non-coding, unencapsidated RNA - cause the production of viroid-specific small RNAs (vsRNA), but viroids do escape the cytoplasmic silencing mechanism. Viroids with minor sequence variations can produce different symptoms in infected plants, suggesting an involvement of vsRNAs in symptom production.

Prion infection: seeded fibrillization or more?

The prion infection is a conversion of host encoded prion protein (PrP) from its cellular isoform PrP(C) into the pathological and infectious isoform PrP(Sc); the conversion process was investigated by in vitro studies using recombinant and cellular PrP and natural PrP(Sc). We present a brief summary of the results determined with our in vitro conversion system and the derived mechanistic models. We describe well characterized intermediates and precursor states during the conversion process, kinetic studies of spontaneous and seeded fibrillogenesis and the impact of the membrane environment.

Complementarity determining regions of an anti-prion protein scFv fragment orchestrate conformation specificity and antiprion activity.

The prion protein, PrP, exists in several stable conformations, with the presence of one conformation, PrP(Sc), associated with transmissible neurodegenerative diseases. Targeting PrP by high-affinity ligands has been proven to be an effective way of preventing peripheral prion infections. Here, we have generated bacterially expressed single chain fragments of the variable domains (scFv) of a monoclonal antibody in Escherichia coli, originally raised against purified PrP(Sc) that recognizes both PrP(C) and PrP(Sc).

Structural changes of membrane-anchored native PrP(C).

Misfolding and subsequent aggregation of endogenous proteins constitute essential steps in many human disorders, including Alzheimer and prion diseases. In most prion protein-folding studies, the posttranslational modifications, the lipid anchor in particular, were lacking. Here, we studied a fully posttranslationally modified cellular prion protein, carrying two N-glycosylations and the natural GPI anchor.

Spontaneous and BSE-prion-seeded amyloid formation of full length recombinant bovine prion protein.

The conversion of the cellular isoform of the prion protein into the pathogenic isoform PrP(Sc) is the key event in prion diseases. The disease can occur spontaneously genetically or by infection. In earlier studies we presented an in vitro conversion system which simulates the structural transition in recPrP by varying low concentrations of SDS at constant NaCl.

A highly sensitive diagnostic assay for aggregate-related diseases, including prion diseases and Alzheimer's disease.

Prion diseases, Alzheimer's disease, and Parkinson's disease are age-related neurodegenerative diseases that are characterized by the formation of protein aggregates during the progress of the disease. Although it is still not known whether these aggregates are causative for, or symptoms of, the disease. Many studies show that aggregates or even oligomers of the according proteins are neurotoxic and thus may lead to neurodegeneration.

Aggregation and amyloid fibril formation of the prion protein is accelerated in the presence of glycogen.

Prion diseases like Creutzfeldt-Jakob disease in humans or scrapie in sheep and goats are infectious neurodegenerative diseases. Their infectious agent, called prion, is composed mainly of aggregated and misfolded prion protein and non-proteinaceous components. An example of such a common non-proteinaceous secondary component of natural prions is the polysaccharide scaffold.

An ultrasensitive assay for diagnosis of Alzheimer's disease.

Alzheimer's disease (AD) is a chronic neurodegenerative disorder and the most common cause of dementia. Aging is among the most significant risk factors. Today, AD can be diagnosed with certainty only post mortem, detecting insoluble beta-amyloid peptide (Abeta) aggregates in the patient's brain tissue.

Mechanisms of prion protein assembly into amyloid.

The conversion of the alpha-helical, cellular isoform of the prion protein (PrP(C)) to the insoluble, beta-sheet-rich, infectious, disease-causing isoform (PrP(Sc)) is the key event in prion diseases. In an earlier study, several forms of PrP were converted into a fibrillar state by using an in vitro conversion system consisting of low concentrations of SDS and 250 mM NaCl. Here, we characterize the structure of the fibril precursor state, that is, the soluble state under fibrillization conditions.

Prion detection by an amyloid seeding assay.

Polymerization of recombinant prion protein (recPrP), which was produced in bacteria, into amyloid fibers was accompanied by the acquisition of prion infectivity. We report here that partially purified preparations of prions seed the polymerization of recPrP into amyloid as detected by a fluorescence shift in the dye Thioflavin T. Our amyloid seeding assay (ASA) detected PrP(Sc), the sole component of the prion, in brain samples from humans with sporadic Creutzfeldt-Jakob disease, as well as in rodents with experimental prion disease.

Single particle detection of Abeta aggregates associated with Alzheimer's disease.

Alzheimer's disease (AD) is a progressive neurodegenerative disorder and the most common cause of dementia. Today, AD can be diagnosed with certainty only post-mortem, by histopathologic staining of Abeta plaques and neurofibrillary tangles in brain tissue sections. We have developed an ultra-sensitive assay potentially suitable for early and non-invasive diagnosis of AD.

Influence of water, fat, and glycerol on the mechanism of thermal prion inactivation.

Extending the recent analysis of the safety of industrial bovine fat-derived products for human consumption (Müller, H., Stitz, L., and Riesner, D.

Liposomal vaccines with conformation-specific amyloid peptide antigens define immune response and efficacy in APP transgenic mice.

We investigated the therapeutic effects of two different versions of Abeta(1-15 (16)) liposome-based vaccines. Inoculation of APP-V717IxPS-1 (APPxPS-1) double-transgenic mice with tetra-palmitoylated amyloid 1-15 peptide (palmAbeta(1-15)), or with amyloid 1-16 peptide (PEG-Abeta(1-16)) linked to a polyethyleneglycol spacer at each end, and embedded within a liposome membrane, elicited fast immune responses with identical binding epitopes. PalmAbeta(1-15) liposomal vaccine elicited an immune response that restored the memory defect of the mice, whereas that of PEG-Abeta(1-16) had no such effect.

Counting of single prion particles bound to a capture-antibody surface (surface-FIDA).

Hitherto accredited prion tests use the PK resistance of PrP(Sc), the pathogenic isoform of the prion protein, as a marker for the disease. Because of variations in the amount of disease-related aggregated PrP, which is not PK-resistant, these prion tests offer only limited sensitivity. Therefore, a prion detection method that does not rely on PK digestion would allow for the detection of both PK-resistant as well as PK-sensitive PrP(Sc).