Colonization with Helicobacter is concomitant with modified gut microbiota and drastic failure of the immune control of Mycobacterium tuberculosis.

Epidemiological and experimental observations suggest that chronic microbial colonization can impact the immune control of other unrelated pathogens contracted in a concomitant or sequential manner. Possible interactions between Mycobacterium tuberculosis infection and persistence of other bacteria have scarcely been investigated. Here we demonstrated that natural colonization of the digestive tract with Helicobacter hepaticus in mice is concomitant with modification of the gut microbiota, subclinical inflammation, and drastic impairment of immune control of the growth of subsequently administered M. tuberculosis, which results in severe lung tissue injury. Our results provided insights upon the fact that this prior H. hepaticus colonization leads to failures in the mechanisms that could prevent the otherwise balanced cross-talk between M. tuberculosis and the immune system. Such disequilibrium ultimately leads to the inhibition of control of mycobacterial growth, outbreak of inflammation, and lung pathology. Among the dysregulated immune signatures, we noticed a correlation between the detrimental lung injury and the accumulation of activated T-lymphocytes. Our findings suggest that the impact of prior Helicobacter spp. colonization and subsequent M. tuberculosis parasitism might be greater than previously thought, which is a key point given that both species are among the most frequent invasive bacteria in human populations.

Adaptive evolution of interferon-gamma in Glire lineage and evidence for a recent selective sweep in Mus. m. domesticus.

Interferon-gamma plays a key role in the immune response against intracellular pathogens. Its gene is located inside a cluster of cytokines from the interleukin-10 family. A comparison of the coding sequences in the mammalian Glire lineage indicates a possible action of positive Darwinian selection promoting rapid amino-acid changes in the branch leading to murine rodents represented by Mus and Rattus. Looking at genomic diversity of this gene inside the genus Mus, we could propose that a recent selective sweep has affected M. m. domesticus, this subspecies harbouring predominantly a single Ifng haplotype that differs from that of the other subspecies by a unique amino-acid difference in a key position of the molecule. The sweep seems to have affected a region of at most 50 kb as recombinants could be found at flanking conserved non-coding sequences. Functional differences were clearly apparent in cis-regulation of Ifng transcription between the domesticus and the musculus-type haplotypes. As the presence of the musculus haplotype in a predominantly domesticus background seems to promote susceptibility to chronic infection by Theiler's virus, these findings open interesting avenues for documenting immune system gene co-evolution.

Interleukin 22 is a candidate gene for Tmevp3, a locus controlling Theiler's virus-induced neurological diseases.

After intracerebral inoculation, Theiler's virus induces in its natural host, the mouse, an acute encephalomyelitis followed, in susceptible animals, by chronic inflammation and primary demyelination. Susceptibility to demyelination among strains of laboratory mice is explained by the capacity of the immune system to control viral load during persistence. Also, differences of susceptibility to viral load between the susceptible SJL strain and the resistant B10.S strain are mainly due to two loci, Tmevp2 and Tmevp3, located close to the Ifng locus on chromosome 10. In this article, we show that the Tmevp3 locus controls both mortality during the acute encephalomyelitis and viral load during persistence. Most probably, two genes located in the Tmevp3 interval control these two different phenotypes with efficiencies that depend on the age of the mouse at inoculation. Il22, a member of the IL-10 cytokine family, is a candidate gene for the control of mortality during the acute encephalomyelitis.

Homology between a 173-kb region from mouse chromosome 10, telomeric to the Ifng locus, and human chromosome 12q15.

We sequenced a 173-kb region of mouse chromosome 10, telomeric to the Ifng locus, and compared it with the human homologous sequence located on chromosome 12q15 using various sequence analysis programs. This region has a low density of genes: one gene was detected in the mouse and the human sequences and a second gene was detected only in the human sequence. The mouse gene and its human orthologue, which are expressed in the immune system at a low level, produce a noncoding mRNA. Nonexpressed sequences show a higher degree of conservation than exons in this genomic region. At least three of these conserved sequences are also conserved in a third mammalian species (sheep or cow).

Viral load increases in SJL/J mice persistently infected by Theiler's virus after inactivation of the beta(2)m gene.

We show that inactivating the beta(2)m gene increases the viral load of SJL/J mice persistently infected by Theiler's virus. Together with previous results, this shows that the characteristics of Tmevp1, a locus which controls the amount of viral RNA that persists in the central nervous system, are those of an H-2 class I gene.

Disruption of differentiated functions during viral infection in vivo. V. Mapping of a locus involved in susceptibility of mice to growth hormone deficiency due to persistent lymphocytic choriomeningitis virus infection.

Lymphocytic choriomeningitis virus (LCMV) Armstrong strain selectively and persistently infects the majority of growth hormone (GH) producing cells in the anterior lobe of pituitary glands of C3H/St mice but negligibly infects GH producing cells of BALB/WEHI mice (Oldstone et al., Virology 142, 175--182, 1985; Oldstone et al., Science 218, 1125--1127, 1982). Although infected GH cells remain free of structural damage, disrupted initiation of GH transcription (Klavinskis and Oldstone, J. Gen. Virol. 68, 1867--1873, 1989; Valsamakis et al., Virology 156, 214--220, 1987) occurs with a resultant decrease in the synthesis of GH, leading to a failure of growth and development (Oldstone et al., Science 218, 1125--1127, 1982). Microsatellite mapping of DNA obtained from 101 individual C3H/St x BALB/WEHI F1 x F1 mice shows that the growth failure correlates with host genes linked (P value 0.0008) on chromosome 17 just outside of the H-2D MHC site between D17 Mit24 and D17 Mit51, a distance of 2.5 cM. The genetic mapping done here excludes alpha-dystroglycan (alpha-DG), a known receptor for LCMV (Cao et al., Science 282, 2079--2081, 1998) in pathogenesis of GH disease, as alpha-DG is encoded in the mouse by a gene residing on chromosome 9 (Yotsumoto et al., Hum. Mol. Genet. 5, 1259--1267, 1996).

H-2D(b-/-) mice are susceptible to persistent infection by Theiler's virus.

H-2(b) mice are resistant to persistent infection of the central nervous system by Theiler's virus. They clear the infection 7 to 10 days after intracranial inoculation. Resistance maps to the H-2D gene and not to the H-2K gene and is associated with a potent antiviral cytotoxic T-lymphocyte (CTL) response. We used H-2(b) mice in which the H-2D or the H-2K gene had been inactivated to dissect the respective roles of these genes in resistance. We report that H-2D(-/-) but not H-2K(-/-) mice were susceptible to persistent infection. Furthermore, whereas H-2K(-/-) mice mounted a vigorous virus-specific CTL response, similar to that of control C57BL/6 mice, the CTL response of H-2D(-/-) mice was nil or minimal. Using target cells transfected with the H-2D(b) or the H-2K(b) gene, we showed that the H-2K-restricted CTL response against the virus was minimal in H-2D(-/-) mice. These results demonstrate that the H-2D(b) and H-2K(b) genes play nonredundant roles in the resistance to this persistent infection.

Cytokines in genetic susceptibility to multiple sclerosis: a candidate gene approach. French Multiple Sclerosis Genetics Group.

The immune system is involved in the pathophysiology of multiple sclerosis (MS) but the initiating antigen(s) is not yet identified. Since cytokines control both the intensity and the quality of the immune response they may be relevant candidates for the genetic susceptibility to MS. To analyze the contribution of type 1 and type 2 cytokine and cytokine receptor genes in the genetic susceptibility to MS, we have examined, in 116 French MS sibpairs, whether there is significant linkage between MS and 15 cytokine or cytokine receptor genes using 31 highly polymorphic genetic markers. The data were analyzed using the maximum likelihood score and the transmission disequilibrium approaches. None of the candidate genes tested was significantly linked to MS on the whole population. However, after stratification of the analysis on the basis of sharing (or not) of the HLA-DRB1*1501 allele, indication of linkage was found for the IL2-RB gene. These findings suggest that the IL2-RB locus contributes to the genetic susceptibility in a subgroup of MS patients.

Viral load and a locus on chromosome 11 affect the late clinical disease caused by Theiler's virus.

Theiler's virus causes a persistent infection and a demyelinating disease of mice which is a model for multiple sclerosis. Susceptibility to viral persistence maps to several loci, including the interferon gamma locus. Inactivating the gene coding for the interferon gamma receptor makes 129/Sv mice susceptible to persistent infection and clinical disease, whereas inactivating the interferon gamma gene makes C57BL/6 mice susceptible to persistent infection but not to clinical disease. This difference in phenotype is due to the difference in genetic background. Clinical disease depends on high viral load and Tmevd5, a locus on chromosome 11. These results have consequences for the identification of viruses which might be implicated in multiple sclerosis.

The Th1/Th2 balance does not account for the difference of susceptibility of mouse strains to Theiler's virus persistent infection.

Theiler's virus causes a persistent infection with demyelination that is studied as a model for multiple sclerosis. Inbred strains of mice differ in their susceptibility to viral persistence due to both H-2 and non-H-2 genes. A locus with a major effect on persistence has been mapped on chromosome 10, close to the Ifng locus, using a cross between susceptible SJL/J and resistant B10.S mice. We now confirm the existence of this locus using two lines of congenic mice bearing the B10.S Ifng locus on an SJL/J background, and we describe a deletion in the promoter of the Ifng gene of the SJL/J mouse. We studied the expression of IFN-gamma, IL-2, IL-10, and IL-12 in the brains of SJL/J mice, B10.S mice, and the two lines of congenic mice during the first 2 wk following inoculation. We found a greater expression of IFN-gamma and IL-2 mRNA in the brains of B10.S mice compared with those of SJL/J mice. Also, the ratio of IL-12 to IL-10 mRNA levels was higher in B10.S mice. However, the cytokine profiles were the same for the two lines of resistant congenic mice and for susceptible SJL/J mice. Therefore, the difference of Th1/Th2 balance between the B10.S and SJL/J mice is not due to the Ifng locus and does not account for the difference of susceptibility of these mice to persistent infection.

Two loci, Tmevp2 and Tmevp3, located on the telomeric region of chromosome 10, control the persistence of Theiler's virus in the central nervous system of mice.

Theiler's virus persistently infects the white matter of the spinal cord in susceptible strains of mice. This infection is associated with inflammation and primary demyelination and is studied as a model of multiple sclerosis. The H-2D gene is the major gene controlling viral persistence. However, the SJL/J strain is more susceptible than predicted by its H-2(s) haplotype. An (SJL/J x B10. S)F1 x B10.S backcross was analyzed, and one quantitative trait locus (QTL) was located in the telomeric region of chromosome 10 close to the Ifng locus. Another one was tentatively mapped to the telomeric region of chromosome 18, close to the Mbp locus. We now report the study of 14 congenic lines that carry different segments of these two chromosomes. Although the presence of a QTL on chromosome 18 was not confirmed, two loci controlling viral persistence were identified on chromosome 10 and named Tmevp2 and Tmevp3. Furthermore, the Ifng gene was excluded from the regions containing Tmevp2 and Tmevp3. Analysis of the mode of inheritance of Tmevp2 and Tmevp3 identified an effect of sex, with males being more infected than females.

Genetics of susceptibility to Theiler's virus infection.

Theiler's virus is a picornavirus of mouse which causes an acute encephalomyelitis followed by a persistent infection of the white matter resulting in chronic inflammation and demyelination. This disease has been studied as a model for multiple sclerosis. Inbred strains of mice are either resistant--they clear the infection after the acute encephalomyelitis--or susceptible to persistent infection and demyelination. Susceptibility is a polygenic trait which has been analyzed using methods of association with "candidate" genes, and linkage analysis after a complete genome scan. The H-2Db gene is responsible for an efficient CTL response which makes some strains resistant. Non H-2 genes responsible for the susceptibility of other strains have been mapped by linkage analysis to the lfng and, possibly, the Mbp loci. The analysis of a set of congenic mice ruled out the possibility that the relevant gene codes for interferon gamma, and showed that the region around lfng probably contains two susceptibility genes. The analysis of mutant mice showed further that the Mbp gene, which codes for the myelin basic protein, has a major effect on viral persistence.

Viruses and multiple sclerosis.

Animal models illustrate how viruses and host genetic factors may interact to cause immune-mediated demyelination. Similar mechanisms may take place in at least some forms of multiple sclerosis, a disease that is histopathologically heterogeneous. No 'multiple sclerosis virus' has been found yet, although recent data on human herpesvirus-6 antigens in multiple sclerosis brain warrant further investigation. Multiple sclerosis associated retrovirus, a recently described retroviral sequence isolated from multiple sclerosis material, is a member of the endogenous retrovirus-9 family. The association between the expression of this virus associated retrovirus and multiple sclerosis is only tentative.

Chromosome 14 contains determinants that regulate susceptibility to Theiler's virus-induced demyelination in the mouse.

Theiler's murine encephalomyelitis virus causes a chronic demyelinating disease in susceptible strains of mice that is similar to human multiple sclerosis. Several nonmajor histocompatibility complex-linked genes have been implicated as determinants of susceptibility or resistance to either demyelination or virus persistence. In this study, we used linkage analysis of major histocompatibility complex identical H-2d (DBA/2J x B10.D2) F2 intercross mice to identify loci associated with susceptibility to virus-induced demyelinating disease. In a 20-cM region on chromosome 14, we identified four markers, D14Mit54, D14Mit60, D14Mit61, and D14Mit90 that are significantly associated with demyelination. Because two peaks were identified, one near D14Mit54 and one near D14Mit90, it is possible that two loci in this region are involved in controlling demyelination.

The shiverer mutation affects the persistence of Theiler's virus in the central nervous system.

Theiler's virus persists in the white matter of the spinal cord of genetically susceptible mice and causes primary demyelination. The virus persists in macrophages/microglial cells, but also in oligodendrocytes, the myelin-forming cells. Susceptibility/resistance to this chronic infection has been mapped to several loci including one tentatively located in the telomeric region of chromosome 18, close to the myelin basic protein locus (Mbp locus). To determine if the MBP gene influences viral persistence, we inoculated C3H mice bearing the shiverer mutation, a 20-kb deletion in the gene. Whereas control C3H mice were of intermediate susceptibility, C3H mice heterozygous for the mutation were very susceptible, and those homozygous for the mutation were completely resistant. This resistance was not immune mediated. Furthermore, C3H/101H mice homozygous for a point mutation in the gene coding for the proteolipid protein of myelin, the rumpshaker mutation, were resistant. These results strongly support the view that oligodendrocytes are a necessary viral target for the establishment of a persistent infection by Theiler's virus.