NR AAEK
AU Akowitz,A.; Manuelidis,E.E.; Manuelidis,L.
TI Protected endogenous retroviral sequences copurify with infectivity in experimental Creutzfeldt-Jakob disease
QU Archives of Virology 1993; 130(3-4): 301-16
PT journal article
AB Scrapie and Creutzfeldt-Jakob disease (CJD) are caused by infectious agents that are defined phenomenologically. No agent-specific molecules or particles have been identified. Biological properties, such as exponential agent replication and strain variation, as well as physical characteristics of infectivity indicate a protected viral structure. A host membrane glycoprotein of 34 kDa ("prion" protein) that aggregates at end stages of disease is clearly important in pathology and susceptibility to infection, but has no demonstrable infectivity in any purified or recombinant form. Thus a characterization of more viral-like molecules is important. In order to identify viral-like nucleic acids we previously developed methods to substantially purify the human CJD agent from experimentally infected hamster brains, and demonstrated selected retroviral-like LTR bands at pg levels that were insufficient for sequencing. To further define these and other viral-like sequences we cloned nucleic acids from highly infectious CJD fractions, and tested the efficacy of our methods using a selected retroviral probe. RNA extracted from an infectious 120 S Gaussian peak, which is reproducibly purified approximately 100,000 fold with respect to starting nucleic acids, and contains approximately 20% of the initial brain infectivity, was used to generate a cDNA library in a sequence independent amplification strategy for low levels of RNA (< 6 ng). Reconstituted strong stop experiments using several retroviral tRNA primers had indicated that Syrian hamster IAP (SHIAP) sequences should be present in both CJD and uninfected control fractions. Because SHIAP particles are extremely resistant to denaturation, their representation in a cDNA library would imply adequate extraction of other protected RNAs of viral origin. At least 900 bases of the Syrian hamster retroviral IAP genome were unambiguously identified in the cDNA library, and in independent PCR walks with selected primers, all of which were based on our cloned sequences. Sequencing confirmed the presence of protected LTR and adjacent retroviral motifs. Because these sequences were also present in control preparations they may represent normal endogenous viral contaminants that cosediment with infectivity in size and density gradients. On the other hand, LTRs can drive the expression of many diverse sequences, and it remains to be seen if CJD specific sequences are either transduced, or copackaged with, protected IAP complexes. The effective extraction and amplification of highly protected SHIAP nucleic acids of significant length sets the stage for identifying additional protected viral elements that may specify the CJD agent.
IN Die Autoren behaupten, dass noch keine für die infektiösen Agentien von Scrapie und der Creutzfeldt-Jakob -Krankheit spezifischen Moleküle identifiziert worden seien. Sie halten eine angeblich exponentielle Vermehrung, die Stammbildung und die physischen Eigenschaften des infektiösen Agens für virustypisch. Gereinigtes oder rekombinantes Prionprotein (normales oder mutiertes?) soll nicht infektiös sein. Sie scheinen RNA aus hochinfektiösem Agens kloniert und 900 Basen sequenziert zu haben. Da diese Sequenzen auch in Kontrollpräparationen gefunden wurden, könnte es sich auch um eine Kontamination gehandelt haben.
MH Animal; Base Sequence; Brain/microbiology; Cloning, Molecular; Creutzfeldt-Jakob Syndrome/*microbiology; Genes, Intracisternal A-Particle; Hamsters; Mesocricetus; Molecular Sequence Data; Polymerase Chain Reaction; Prions/*isolation & purification; RNA, Viral/genetics/isolation & purification; Repetitive Sequences, Nucleic Acid; Retroviridae/*isolation & purification; Sequence Homology, Nucleic Acid; Support, U.S. Gov't, Non-P.H.S.; Support, U.S. Gov't, P.H.S.
AD Yale Medical School, New Haven, Connecticut.
SP englisch
PO Österreich