Multiple sclerosis: cellular and humoral immune responses to several viruses.

One hundred and eight multiple sclerosis (MS) patients and 108 matched controls were studied for antibody levels and cellular immune responses to several viruses. There were significant increases in the mean titers of complement fixation (CF) or hemagglutination inhibition (HI), and complement-mediated cytotoxicity (CMC) tests for measles antibodies in MS patients; there was no increase in antibody titers to herpesviruses 1 and 2, or cytomegalovirus (CMV). The direct migration inhibition (DMI) tests showed no difference between MS patients and controls for measles, CMV, herpesviruses 1 and 2, or vaccinia virus antigens. Lymphocyte-mediated cytotoxicity (LMC) tests showed no difference between patients and controls, using cultures infected with measles and CMV viruses. In a study of stimulation or blocking of the LMC response by serum or cerebrospinal fluid (CSF), no effect was found. Therefore, increased levels of measles antibody in serum were again demonstrated in MS patients, but there was no difference in these patients' cellular immunity to measles virus versus that of the controls, and there was no abnormality of cellular immunity against the other viruses tested.

JC virus T protein during productive infection in human fetal brain and kidney cells.

We have examined the synthesis of the T protein of the human polyomavirus, JCV, during productive infection in primary cultures of human fetal glial and kidney cells. Immunoprecipitation of protein extracts from virus infected cells revealed that the JCV large T protein from both the prototype Mad and HEK adapted strains migrated as a 94-kDa protein in denaturing polyacrylamide gels. Resolution of the JCV T protein in brain cells could best be achieved following alkylation of the immunoprecipitated proteins prior to gel electrophoresis. The small t protein of either strain of JCV, however, could not be detected. In comparative experiments, the large T protein of the simian polyomavirus, SV40, was also identified as a 94-kDa protein in immortalized human fetal glial and kidney cultures. There were also protein complexes between p53 and SV40 T protein in the human glial and kidney cell lines. No evidence for a similar protein complex could be detected in JC virus infected human fetal brain or kidney cells.

Micro indirect hemagglutination test for Cytomegalovirus.

In an effort to obtain the flexibility and ease of performance of a rapid, serological test for detection of cytomegalovirus antibody, the indirect hemagglutination (IHA) technique was investigated by using a microserological system. Antigens were prepared from tissue cultures of infected human fibroblasts. The specificity of the cytomegalovirus antibody response detected by the IHA test correlated well with the standard neutralization test. The IHA method was more sensitive than the complement fixation test in detecting antibody in congenitally infected newborns. There appeared to be some heterologous antibody response with Herpesvirus hominis or varicella virus infections. The IHA test pattern was found to be very stable with excellent persistence of agglutination.

Owl monkey astrocytoma cells in culture spontaneously produce infectious JC virus which demonstrates altered biological properties.

A tumor cell suspension of an explanted JC virus (JCV)-induced owl monkey glioblastoma was inoculated intracranially into four recipient juvenile owl monkeys. Twenty-eight months following inoculation one owl monkey developed a glioblastoma, which was explanted into tissue culture. DNA from both the tumor tissue and tumor cells in culture hybridized to a JCV DNA probe by Southern analysis, indicating that free, as well as integrated, viral DNA may be present. At the time of the second culture passage, viral JCV DNA was extracted from these cells and cloned into a plasmid vector. Nucleotide sequencing of the regulatory region of the cloned DNA demonstrated homology with the prototype Mad-1 strain of JCV and revealed a 19-base-pair deletion in the second 98-base-pair tandem repeat that eliminated a second TATA box. This deletion is characteristic of the Mad-4 strain of JCV, which is highly neurooncogenic. By the third culture passage, 100% of the cells were T-antigen positive. Approximately one-third of the cells in culture hybridized to a biotinylated JCV DNA probe when in situ hybridization was used, a technique that only detects high-copy-number of replicating viral sequences. By the culture passage 5 and continuing through culture passage 14, viable JC virions could be recovered. The T protein synthesized by this virus, now termed JCV-586, differed from both the Mad-1 and Mad-4 strains in that it formed a stable complex with the cellular p53 protein in the tumor cells. Also, the JCV-586 T protein reacted to several monoclonal antibodies made to the simian virus 40 T protein that were not recognized by either the Mad-1 or Mad-4 strains.

Establishment of a line of human fetal glial cells that supports JC virus multiplication.

Primary cultures of human fetal brain cells were transfected with plasmid DNA pMK16, containing an origin-defective mutant of simian virus 40 (SV40). Several weeks after DNA treatment, proliferation of glial cells was evident in the culture, allowing passage of the cells at low split ratios. Initially, only 10% of the cells demonstrated nuclear fluorescence staining using a hamster tumor antibody to the SV40 T protein. By the sixth passage, however, 100% of the cells reacted positively to the same antibody. During these early passages, the cells designated SVG began growing very rapidly and acquired a homogeneous morphology. Cell division required only low serum concentrations, was not contact-inhibited, and remained anchorage dependent. These characteristics of the SVG cells have been stable through 25 passages or approximately equal to 80 cell generations. The SV40 T protein is continuously produced in the cells and can direct the replication of DNA inserts in the pSV2 vector, determined by in situ hybridization using biotin-labeled DNA probes, which contains the SV40 replication origin. More importantly, SVG cells support the multiplication of the human papovavirus JCV at levels comparable to primary cultures of human fetal glial cells, producing infectious virus as early as 1 week after viral adsorption. Their brain-cell derivation has been established as astroglial, based on their reactivity with a monoclonal antibody to glial fibrillary acid protein and lack of activity with an anti-galactocerebroside antibody, which identifies oligodendroglial cells. The SVG cells represent a unique line of continuous rapidly growing human fetal astroglial cells that synthesizes a replication-proficient SV40 T protein. Their susceptibility to JC virus (JCV) infection obviates a host restriction barrier that limited JCV studies to primary cultures of human fetal brain and thus should allow for more detailed molecular studies of human brain cells and JCV that infects them.

Antibody responses to JC virus-associated antigens by tumor-bearing owl monkeys.

Antibody responses to JCV viral and T antigens were determined in owl monkeys following infection with JCV. Antibody to JCV virion antigen was present in all inoculated monkeys, arising within one months. These antibodies gradually diminished in all nontumor-bearing monkeys and in 10/13 tumor-bearing monkeys over the ensuing 12 months. Antibody to T antigen became evident later in most inoculated monkeys but had a marked variable course and did not correlate well with tumor production. The antibody patterns suggest that JCV is basically nonpermissive in owl monkeys and that the viral genome is retained in a prolonged persistent stage before progressing rapidly into a tumor.

The etiology of non-specific urethritis in active duty Marines.

We studied patients with non-specific urethritis and control subjects at our dispensary. These patients and controls were matched for age, rank and sexual activity, and studied for the presence of bacteria, virus, Trichomonas and Mycoplasma. No significant bacteria were found in either group. No Trichomonas was identified, only 1 herpes II was recovered and no cytomegalovirus was found. Mycoplasma were cultured from patients and controls. The rate of colonization varied, depending upon several factors, but the significant factors seemed to be associated with the number of sexual partners. Those men with more than 1 sexual partner had a significantly increased colonization with Mycoplasma.

Evaluation of the role of cytokine activation in the multiplication of JC virus (JCV) in human fetal glial cells.

The human polyomavirus, JCV, is the etiologic agent of the fatal central nervous system demyelinating disease, progressive multifocal leukoencephalopathy. Progressive multifocal leukoencephalopathy occurs most frequently in patients with underlying immunosuppressive disorders and is the direct result of virus multiplication in oligodendrocytes, the myelin producing cell in the central nervous system. In this report we test the ability of cellular activation signals to modulate expression of the JCV genome in either transfected or infected human fetal glial cells. In addition, we analyze the binding of nuclear proteins isolated from untreated and cytokine treated human fetal glial cells to transcription factor binding sites in the JCV regulatory region. In contrast to the effects of cellular activation on the expression of the HIV-1 promoter in these cells, none of the cellular activators tested increased expression of JCV. The cytokine, TNF-alpha, increased binding of NF kappa B (p50/p65) to a JC NF kappa B site but did not modulate the binding of nuclear proteins to the overlapping NF-1/AP1 region of the JCV enhancer. When taken together these results suggest that the response of JCV to cellular activation signals may be fundamentally different from the response of HIV-1 to these signals in human fetal glial cells and that the JC NF kappa B site may not be required for JCV gene expression or multiplication in vivo.

Experimental congenital disease with simian cytomegalovirus in rhesus monkeys.

Cytomegalovirus (CMV) infections occur worldwide and are responsible for severe damage to the child in from one to five newborns per 20,000 births. Animal models of congenital CMV infection resulting in disease have been developed in mice and guinea pigs. We report here the development of ventricular dilatation and leptomeningitis in rhesus monkeys, Macaca mulatta, following intrauterine infection with rhesus cytomegalovirus (RCMV). Central nervous system (CNS) lesions were associated with low cytomegalovirus fluorescent antibody titers in affected fetuses. In several infected animals, RCMV was isolated at necropsy from neural and nonneural tissues taken shortly after birth. This model allows investigators to study the pathogenesis and prevention of CNS changes following RCMV infection.