HERV-K: the biologically most active human endogenous retrovirus family.

The human genome contains a wide variety of endogenous retrovirus-like sequences. The human endogenous retrovirus type K (HERV-K) family comprises 30-50 members per haploid genome in humans and is highly conserved in Old World monkeys and apes. Some proviruses are displaying open reading frames (ORF) with coding capacity for viral particles. HERV-K sequences most likely code for the previously described human teratocarcinoma-derived virus (HTDV) and correlated expression of HERV-K Gag has been demonstrated by immunoelectron microscopy studies. Protease, but not yet reverse transcriptase (RT), enzymatic activity was demonstrated for recombinant HERV-K proteins. However, an ultrasensitive RT assay revealed specific polymerase activity associated with the HTDV particles. HERV-K transcription is specifically regulated by viral long terminal repeats and RNA is expressed at low steady-state levels in a variety of human tissues and tumours. In teratocarcinoma cell lines, HERV-K is highly expressed in a complex pattern showing full-length as well as subgenomic envelope (env) and two alternatively spliced small transcripts. The doubly spliced 1.8-kb mRNA codes for cORF protein which resembles Rev of HIV-1 and is located in the nucleolus. In addition, the cORF sequence acts as a leader and is essential for effective expression of glycosylated HERV-K Env protein. Although HERV-K sequences code for all necessary retroviral proteins, infectious particles could not yet be demonstrated. The putative implication of HERV sequences in pathophysiological processes, for example, testicular malignancies, remains to be elucidated.

Distribution of K-papovavirus in infected newborn mice.

Newborn mice were inoculated orally with 100 LD50 of K-papovavirus and the distribution of virus in fatally infected animals was studied by in-situ nuclei acid hybridization methods and immunoperoxidase staining for K virus capsid (V) antigen. Histopathologically, K virus produced extensive involvement of pulmonary endothelial cells, resulting in interstitial pneumonia, and widespread involvement of other endothelial cell populations throughout the systemic circulation. Endothelial cells in lungs, kidneys and other organs exhibited both specific hybridization for K virus nucleic acids and positive staining for K virus V antigen, indicative of productive infection. Scattered, apparently extravascular cells within brain parenchyma also exhibited both specific hybridization and immunohistological staining for K virus V antigen. In contrast, specific hybridization for K virus nuclei acids, in the absence of immunohistochemical labelling of K virus V antigen, suggesting transcription of viral DNA without expression of viral proteins, was detected in renal tubular epithelial cells and nonvascular, apparently lymphoid cells within the spleen and lymph nodes. The present study confirms the predominantly endotheliotropic nature of K virus infection in newborn mice and also demonstrates that the virus invades renal epithelial, lymphoid and possibly glial cells during primary infection.

Uptake of cadmium is diminished in transfected mouse NIH/3T3 cells enriched for metallothionein.

To determine the relationship between cellular uptake of cadmium and content of metallothionein, we measured uptake of 109Cd in cells that differed in content of metallothionein (MT). MT cells were derived from NIH/3T3 cells by transfection with a plasmid containing the genome of bovine papilloma virus and the mouse metallothionein-I gene, driven by the promotor for the glucose-regulated protein of 78 kDa. Control cells were similarly transfected with bovine papilloma virus-based plasmids with the gene for metallothionein inverted and thus separated from the promoter (TM), or deleted, along with the promoter (BPA). The number of copies of bovine papilloma virus-based plasmids was similar in MT, TM, and BPA cells, approximately 100 per cell. MT cells were more than 10 times more resistant to the lethal effect of cadmium than were the control cells. Synthesis of metallothionein was 15-fold greater in the MT cells than in the TM or BPA cells. The uptake of 109Cd by the cells enriched in metallothionein was 4-fold less than by the control cells. These data suggest that an increased content of metallothionein may protect some cells from the toxic effects of cadmium, in part, by diminishing uptake of the metal.

The major site of murine K papovavirus persistence and reactivation is the renal tubular epithelium.

K virus, a murine papovavirus, produces a lethal pneumonia in newborn mice. Animals surviving acute illness develop a persistent infection which reactivates under conditions of immunosuppression. The present study was conducted to identify the cell populations which support persistent K virus infection and to determine the cell populations in which this persistent infection is reactivated during immunosuppression. Mice inoculated by the oral route with 100 50% newborn mouse lethal doses (LD50) of K virus at 14 days of age were followed over a period of 7 months. The distribution of infection was studied by virus assay, immunohistochemistry, and in situ nucleic acid hybridization methods. Viral replication during the acute phase of infection was confined to pulmonary and systemic vascular endothelial cells, as well as to scattered, apparently lymphoid cells within spleens. Beginning 2 months after inoculation, however, specific hybridization for K virus nucleic acids was detected in rare renal tubular epithelial cells, and by 6 months after inoculation renal tubular epithelial cells represented the major site of viral persistence. Positive cells were frequently present in groups of two or more, and a minority of positive cells also expressed viral capsid (V) antigen. Immunosuppression with cyclophosphamide resulted in reactivation of infection, with highest titers of virus being detected in kidneys and with increased numbers of renal tubular epithelial cells expressing viral capsid antigen. Capsid antigen was also detected in rare endothelial cells in kidneys, livers and lungs of these immunosuppressed mice. Although K virus behaves as an endotheliotrope during acute infection, the major site of K virus persistence and reactivation, the renal tubular epithelial cell, is similar to that involved during persistent infection by polyoma virus in mice, SV40 virus in monkeys, and BK and JC viruses in man. The observation that persistently infected renal tubular epithelial cells occur in groups of two or more and occasionally express capsid antigen suggests that virus may persist as a productive infection which is confined by antiviral antibody but maintains itself by cell-to-cell-spread. The present study represents the first instance in which the cell populations which support infection by a member of the polyomavirus subgroup in its natural host have been defined during acute, persistent, and reactivated infection.