Physicochemical analysis of the deoxyribonucleic acid product of murine intracisternal A particle RNA-directed DNA polymerase

Genetic relatedness between intracisternal A particles and other major oncovirus genera

Intracisternal A particles represent a major oncovirus genus. By reciprocal hybridization between molecularly cloned A particles and representatives of other oncovirus genera, we established pol gene homology with type B, type D and avian type C viruses. The most extensive homology was with mammalian type D viruses. The transcriptional orientation of the IAP genome was determined, as well as evidence indicating that its pol gene, which is apparently defective, contains coding regions for both reverse transcriptase and endonuclease proteins.

Type-A retrovirus particles in heterohybridomas: precaution for human monoclonal antibody purification

Fine structural features of the murine myeloma MHFP-1 and two heterohybridomas secreting human IgM monoclonal antibody were examined. Intracisternal type-A retrovirus particles were found in both MHFP-1 and the heterohydribomas constructed by fusing MHFP-1 and human peripheral blood lymphocytes. The implications of this finding for the purification of human monoclonal antibody for therapeutic applications is discussed.

Cloning of the rat endogenous helper leukemia virus DNA sequence and expression of the helper activity encoded by the cloned DNA sequence in normal rat kidney cells by microinjection

By the use of recombinant DNA technology and microinjection in cultured cells, the molecular genetic elements involved in the evolution of a retrovirus with the multipotential to infect, transform and replicate in host cell, have been critically examined in this investigation. Recently we have identified and purified the integrated and proviral DNA sequences specific for two rat endogenous helper leukemia viruses, WR- RaLV , originated from a chemically induced wild rat fibrosarcoma, and RHHV , isolated from a chemically induced rat hepatoma, HTC-H1 (1). By using a multidisciplinary approach combining restriction endonuclease analysis, reverse phase V-column chromatography, agarose gel electrophoresis, Southern blot transfer and filter nucleic acid hybridization, we were able to demonstrate that the rat helper leukemia viral DNA sequence was approximately 8.4-8.8 kb. The 8.8 kb RHHV DNA was molecularly cloned via the EK-1 certified vector pBR 322 plasmid into E. coli RRI cells. A successful recombinant clone, 8/32, that carried one entire RHHV 8.8 kb DNA sequence was mapped by restriction endonuclease analyses. Restricted DNA fragments of various sizes throughout the complete RHHV genome were isolated and purified for intranuclear microinjection into normal rat kidney cells. Release of type C infectious helper virus in these microinjected cells was investigated by superinfection on K-NRK, Kirsten sarcoma transformed non-producer cells. Recombination of the helper viral DNA sequence, en toto or of subgenomic sizes, carried in microinjected cells, with the sarcomagenic DNA sequence, carried in K-NRK cells, was also studied by genome-rescue and cell-transformation experiments. Our observations led to the conclusion that all critical genetic elements including the 5' LTR helper DNA sequence, gag, pol, and env genes, encoded for the biological activity of the type C helper virus resided within the 6.0 kb proximal to the 5' terminus of the endogenous rat type C helper virus DNA. They proved vitally essential for the recombination with the Src sequence during the evolution of an infectious, transforming and replication-competent retrovirus.

Intracisternal A-particle genes as movable elements in the mouse genome

We analyzed two functionally defective mouse kappa light chain gene variants previously shown to contain novel insertions of repetitive DNA in their intervening sequences [Hawley, R. G., Shulman, M. J., Murialdo, H., Gibson, D. M. & Hozumi, N. (1982) Proc. Natl. Acad. Sci. USA 79, 7425-7429]. Heteroduplex analysis of the cloned genes shows that the insertions consist of intracisternal A-particle (IAP) genetic elements. Each insertion includes an IAP 5' long terminal repeat (LTR) sequence and extends to a characteristic IAP internal BamHI site where the IAP sequence is interrupted because the mutant genes were cloned from complete BamHI digests of the cellular DNAs. Restriction enzyme mapping indicates that the 5' LTR boundaries of the inserted IAP elements correspond closely to the previously determined rearrangement sites in the mutant genes. The IAP insertions in the two mutants can be distinguished by restriction-site differences and by the fact that one of them contains a deletion that is absent in the other. Nucleotide sequence data are presented for the LTRs of one full-length IAP gene copy randomly selected from a mouse genomic DNA library. These LTRs show many features typical of known integrated retroviral terminal repeat units, and the entire gene is bracketed by short direct repeats within the adjacent cellular DNA. Thus, the findings show that IAP genetic elements can appear in new locations in mouse cellular DNA and suggest that this may occur through a process of proviral insertion.

Intracisternal A-particle genes: identification in the genome of Mus musculus and comparison of multiple isolates from a mouse gene library

The genome of Mus musculus contains multiple copies (500 -1000) of DNA sequences related to the 35S RNA of intracisternal type A particles (IAPs). Using labeled IAP RNA as a probe in blot-hybridization experiments, we have identified a characteristic electrophoretic pattern of reactive fragments generated by restriction endonuclease cleavage of mouse DNA. From the genomic blots, we deduced a composite restriction map for a 6.5- to 7-kilobase (kb) DNA region containing sequences homologous to the IAP RNA. Units of this type appeared to be interspersed without obvious regularity in nonhomologous flanking regions. A 5.2-kb segment of this unit was inserted directly into plasmid pBR322 from HindIII/EcoRI digest of mouse DNA. The fragment was cloned and then labeled by nick-translation and used to scan a mouse embryo gene library (average 16-kb inserts in lambda Charon 4A); 1% of the library samples hybridized, confirming the extensive reiteration of IAP genetic units. Among six different library isolates containing 6.5- to 7-kb IAP units, some restriction sites were highly conserved whereas others varied in both occurrence and position. Despite this variation, heteroduplexes between the individual isolates showed continuous IAP homology regions of 7 kb. No flanking region homologies were seen in this limited sample. Some evidence suggests that mouse DNA may contain other dispersed sequence elements related to but smaller than the genetic unit defined above.

Immunological relationship between the structural proteins of intracisternal A-particles of Mus musculus and the M432 retrovirus of Mus cervicolor

A specific immunological relationship has been demonstrated between the main structural protein (p73) of intracisternal A-particles and a major internal protein (p24) of the M432 retrovirus.

RNA associated with murine intracisternal type A particles codes for the main particle protein

Intracisternal type A particles were isolated from MOPC-104E myeloma grown subcutaneously and from N 4 neuroblastoma cells in culture. Polyadenylated RNA was prepared from the particles and tested in a cell-free translation system derived from rabbit reticulocytes. RNA from the two sources directed the synthesis of multiple polypeptides with similar distributions of electrophoretic mobilities in sodium dodecyl sulfate-containing polyacrylamide gels, including one conponent of the same size as the major A-particle structural protein (73,000 daltons). Analysis of the RNAs by electrophoresis in methyl mercury-containing agarose gels revealed a 35S component common to A-particles from both cell types. This was a major component of the N4 preparations, whereas a 28S species predominated in the case of MOPC-104E. These two RNAs (35S from N4 cells and 28S from MOPC-104E), when isolated on isokinetic sucrose gradients, each directed the synthesis of a 73,000-molecular-weight polypeptide that comigrated on gels with authentic A-particle structural protein. Idnetity of the cell-free product was confirmed by two-dimensional analysis of the [35S]methionine-labeled tryptic peptides. The N4 RNA preparations also contained a major32S component which did not code effectively for the A-particle structural protein.