Philippe Gros

Publications (120)969.03 Total impact

• Article: Positional mapping and candidate gene analysis of the mouse ccs3 locus that regulates differential susceptibility to carcinogen-induced colorectal cancer.

  Charles Meunier, Lauren Van Der Kraak, Claire Turbide, Normand Groulx, Ingrid Labouba, Pablo Cingolani, Mathieu Blanchette, Garabet Yeretssian, Anne-Marie Mes-Masson, Maya Saleh, Nicole Beauchemin, Philippe Gros
  [show abstract] [hide abstract]
  ABSTRACT: The Ccs3 locus on mouse chromosome 3 regulates differential susceptibility of A/J (A, susceptible) and C57BL/6J (B6, resistant) mouse strains to chemically-induced colorectal cancer (CRC). Here, we report the high-resolution positional mapping of the gene underlying the Ccs3 effect. Using phenotype/genotype correlation in a series of 33 AcB/BcA recombinant congenic mouse strains, as well as in groups of backcross populations bearing unique recombinant chromosomes for the interval, and in subcongenic strains, we have delineated the maximum size of the Ccs3 physical interval to a ∼2.15 Mb segment. This interval contains 12 annotated transcripts. Sequencing of positional candidates in A and B6 identified many either low-priority coding changes or non-protein coding variants. We found a unique copy number variant (CNV) in intron 15 of the Nfkb1 gene. The CNV consists of two copies of a 54 bp sequence immediately adjacent to the exon 15 splice site, while only one copy is found in CRC-susceptible A. The Nfkb1 protein (p105/p50) expression is much reduced in A tumors compared to normal A colonic epithelium as analyzed by immunohistochemistry. Studies in primary macrophages from A and B6 mice demonstrate a marked differential activation of the NfκB pathway by lipopolysaccharide (kinetics of stimulation and maximum levels of phosphorylated IκBα), with a more robust activation being associated with resistance to CRC. NfκB has been previously implicated in regulating homeostasis and inflammatory response in the intestinal mucosa. The interval contains another positional candidate Slc39a8 that is differentially expressed in A vs B6 colons, and that has recently been associated in CRC tumor aggressiveness in humans.
  PLoS ONE 01/2013; 8(3):e58733. · 4.09 Impact Factor
• Article: Mycobacterial Disease and Impaired IFN-γ Immunity in Humans with Inherited ISG15 Deficiency

  Dusan Bogunovic, Minji Byun, Larissa A. Durfee, Avinash Abhyankar, Ozden Sanal, Davood Mansouri, Sandra Salem, Irena Radovanovic, Audrey V. Grant, Parisa Adimi, [......], Saleh Al-Muhsen, Marcel Behr, Guillaume Vogt, Anne Puel, Jacinta Bustamante, Philippe Gros, Jon M. Huibregtse, Laurent Abel, Stéphanie Boisson-Dupuis, Jean-Laurent Casanova
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  ABSTRACT: ISG15 is an interferon (IFN)-α/β–inducible, ubiquitin-like intracellular protein. Its conjugation to various proteins (ISGylation) contributes to antiviral immunity in mice. Here, we describe human patients with inherited ISG15 deficiency and mycobacterial, but not viral, diseases. The lack of intracellular ISG15 production and protein ISGylation was not associated with cellular susceptibility to any viruses that we tested, consistent with the lack of viral diseases in these patients. By contrast, the lack of mycobacterium-induced ISG15 secretion by leukocytes—granulocyte, in particular—reduced the production of IFN-γ by lymphocytes, including natural killer cells, probably accounting for the enhanced susceptibility to mycobacterial disease. This experiment of nature shows that human ISGylation is largely redundant for antiviral immunity, but that ISG15 plays an essential role as an IFN-γ–inducing secreted molecule for optimal antimycobacterial immunity.
  Science 09/2012; 337(6102):1684-1688. · 31.20 Impact Factor
• Article: An Expanding Role of Vangl Proteins in Embryonic Development.

  Elena Torban, Alexandra Iliescu, Philippe Gros
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  ABSTRACT: The mammalian Vangl1 and Vangl2 genes were discovered a decade ago through their association with neural tube defects, in particular the presence of Vangl2 mutations in independent alleles of the mouse mutant Loop-tail (Lp), a mouse model of the severe neural tube defect craniorachischisis. Vangl1 and Vangl2 variants have also been detected in familial and sporadic cases of spina bifida. Vangl proteins are highly conserved in evolution with relatives in flies, and distant invertebrates and vertebrates. In these organisms, they play a central role in planar cell polarity (PCP) and convergent extension (CE) movements. Over the past decade, these functional characteristics have also been established for mammalian Vangl genes. The careful analysis of mouse Vangl genes mutants has showed that these genes and the associated PCP pathway and CE movements are involved in many unexpected developmental processes, from morphogenesis of different tissues, left-right asymmetry, asymmetric cell division, and organization of many epithelial structures, as well as positioning and function of cellular appendages. Genetic studies in double mutants and biochemical studies of interacting proteins have started to elucidate the molecular pathways in which Vangl proteins participate and that regulate these complex events.
  Current Topics in Developmental Biology 01/2012; 101C:237-261. · 6.00 Impact Factor
• Source

  Available from: Robert Sladek

  Article: An N-ethyl-N-nitrosourea (ENU)-induced dominant negative mutation in the JAK3 kinase protects against cerebral malaria.

  Silayuv E Bongfen, Ian-Gael Rodrigue-Gervais, Joanne Berghout, Sabrina Torre, Pablo Cingolani, Sean A Wiltshire, Gabriel A Leiva-Torres, Louis Letourneau, Robert Sladek, Mathieu Blanchette, Mark Lathrop, Marcel A Behr, Samantha Gruenheid, Silvia M Vidal, Maya Saleh, Philippe Gros
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  ABSTRACT: Cerebral malaria (CM) is a lethal neurological complication of malaria. We implemented a genome-wide screen in mutagenized mice to identify host proteins involved in CM pathogenesis and whose inhibition may be of therapeutic value. One pedigree (P48) segregated a resistance trait whose CM-protective effect was fully penetrant, mapped to chromosome 8, and identified by genome sequencing as homozygosity for a mis-sense mutation (W81R) in the FERM domain of Janus-associated kinase 3 (Jak3). The causative effect of Jak3(W81R) was verified by complementation testing in Jak3(W81R/-) double heterozygotes that were fully protected against CM. Jak3(W81R) homozygotes showed defects in thymic development with depletion of CD8(+) T cell, B cell, and NK cell compartments, and defective T cell-dependent production of IFN-γ. Adoptive transfer of normal splenocytes abrogates CM resistance in Jak3(W81R) homozygotes, an effect attributed to the CD8(+) T cells. Jak3(W81R) behaves as a dominant negative variant, with significant CM resistance of Jak3(W81R/+) heterozygotes, compared to CM-susceptible Jak3(+/+) and Jak3(+/-) controls. CM resistance in Jak3(W81R/+) heterozygotes occurs in presence of normal T, B and NK cell numbers. These findings highlight the pathological role of CD8(+) T cells and Jak3-dependent IFN-γ-mediated Th1 responses in CM pathogenesis.
  PLoS ONE 01/2012; 7(2):e31012. · 4.09 Impact Factor
• Source

  Available from: Irena Radovanovic

  Article: Identification of loci controlling restriction of parasite growth in experimental Taenia crassiceps cysticercosis.

  Ruben Ramirez-Aquino, Irena Radovanovic, Anny Fortin, Edda Sciutto-Conde, Gladis Fragoso-González, Philippe Gros, Irma Aguilar-Delfin
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  ABSTRACT: Human neurocysticercosis (NC) caused by Taenia solium is a parasitic disease of the central nervous system that is endemic in many developing countries. In this study, a genetic approach using the murine intraperitoneal cysticercosis caused by the related cestode Taenia crassiceps was employed to identify host factors that regulate the establishment and proliferation of the parasite. A/J mice are permissive to T. crassiceps infection while C57BL/6J mice (B6) are comparatively restrictive, with a 10-fold difference in numbers of peritoneal cysticerci recovered 30 days after infection. The genetic basis of this inter-strain difference was explored using 34 AcB/BcA recombinant congenic strains derived from A/J and B6 progenitors, that were phenotyped for T. crassiceps replication. In agreement with their genetic background, most AcB strains (A/J-derived) were found to be permissive to infection while most BcA strains (B6-derived) were restrictive with the exception of a few discordant strains, together suggesting a possible simple genetic control. Initial haplotype association mapping using >1200 informative SNPs pointed to linkages on chromosomes 2 (proximal) and 6 as controlling parasite replication in the AcB/BcA panel. Additional linkage analysis by genome scan in informative [AcB55xDBA/2]F1 and F2 mice (derived from the discordant AcB55 strain), confirmed the effect of chromosome 2 on parasite replication, and further delineated a major locus (LOD = 4.76, p<0.01; peak marker D2Mit295, 29.7 Mb) that we designate Tccr1 (T. crassiceps cysticercosis restrictive locus 1). Resistance alleles at Tccr1 are derived from AcB55 and are inherited in a dominant fashion. Scrutiny of the minimal genetic interval reveals overlap of Tccr1 with other host resistance loci mapped to this region, most notably the defective Hc/C5 allele which segregates both in the AcB/BcA set and in the AcB55xDBA/2 cross. These results strongly suggest that the complement component 5 (C5) plays a critical role in early protective inflammatory response to infection with T. crassiceps.
  PLoS Neglected Tropical Diseases 12/2011; 5(12):e1435. · 4.69 Impact Factor
• Article: Mutations in the planar cell polarity gene, Fuzzy, are associated with neural tube defects in humans.

  Jung Hwa Seo, Yulia Zilber, Sima Babayeva, Jiajia Liu, Paulina Kyriakopoulos, Patrizia De Marco, Elisa Merello, Valeria Capra, Philippe Gros, Elena Torban
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  ABSTRACT: Neural tube defects (NTDs) are a heterogeneous group of common severe congenital anomalies which affect 1-2 infants per 1000 births. Most genetic and/or environmental factors that contribute to the pathogenesis of human NTDs are unknown. Recently, however, pathogenic mutations of VANGL1 and VANGL2 genes have been associated with some cases of human NTDs. Vangl genes encode proteins of the planar cell polarity (PCP) pathway that regulates cell behavior during early stages of neural tube formation. Homozygous disruption of PCP genes in mice results in a spectrum of NTDs, including defects that affect the entire neural axis (craniorachischisis), cranial NTDs (exencephaly) and spina bifida. In this paper, we report the dynamic expression of another PCP gene, Fuzzy, during neural tube formation in mice. We also identify non-synonymous Fuzzy amino acid substitutions in some patients with NTDs and demonstrate that several of these Fuzzy mutations affect formation of primary cilia and ciliary length or affect directional cell movement. Since Fuzzy knockout mice exhibit both NTDs and defective primary cilia and Fuzzy is expressed in the emerging neural tube, we propose that mutations in Fuzzy may account for a subset of NTDs in humans.
  Human Molecular Genetics 08/2011; 20(22):4324-33. · 7.64 Impact Factor
• Article: Global cellular changes induced by Legionella pneumophila infection of bone marrow-derived macrophages.

  Anne Fortier, Sebastien P Faucher, Kanny Diallo, Philippe Gros
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  ABSTRACT: The nucleotide-binding oligomerization domain (Nod)-like receptor (NLR) family member Naip5 plays an essential role in restricting Legionella pneumophila growth inside primary macrophages. Upon interaction with bacterial flagellin, the intracellular receptor Naip5 forms a multi-protein complex, the inflammasome, which activation has a protective role against infection. The A/J mouse strain carries a Naip5 allele (Naip5(A/J)), which renders its macrophages susceptible to Legionella infection. However, Naip5(A/J) is still competent for inflammasome activation suggesting that an as yet unidentified signaling pathway located downstream of Naip5 and defective in Naip5(A/J) macrophages regulates macrophage defenses against Legionella. Therefore, transcriptional profiling experiments with macrophages from C57BL/6J mice (B6), and from congenic mice (BcA75) carrying the partial loss-of-function A/J-derived allele (Naip5(A/J)) on a B6 background, infected or not with wild-type L. pneumophila or flagellin-deficient mutant were carried out to identify genes regulated by flagellin and by Naip5. Both the Legionella infection per se and the presence of flagellin had very strong effects on transcriptional responses of macrophages, 4h following infection, including modulation of cellular pathways associated with inflammatory response and cell survival. On the other hand, the presence of wild type or partial loss of function allele (Naip5(A/J)) at Naip5 did not cause large effects on transcriptional responses of macrophages to infection. We also examined in L. pneumophila infected macrophages, the effect of Naip5 alleles on expression and phosphorylation of 524 phosphoproteins, kinases and phosphatases involved in cell proliferation, immune response, stress and apoptosis. Naip5 alleles had an effect on the TLR-Il1R signaling pathway, the cell cycle and the caveolin-mediated response to pathogen. The results of transcriptome and proteome analyses were organized into cellular pathways in macrophages that are modulated in response to Legionella infection.
  Immunobiology 06/2011; 216(12):1274-85. · 3.20 Impact Factor
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  Available from: David Langlais

  Article: Interferon regulatory factor 8 regulates pathways for antigen presentation in myeloid cells and during tuberculosis.

  Jean-François Marquis, Oxana Kapoustina, David Langlais, Rebecca Ruddy, Catherine Rosa Dufour, Bae-Hoon Kim, John D MacMicking, Vincent Giguère, Philippe Gros
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  ABSTRACT: IRF8 (Interferon Regulatory Factor 8) plays an important role in defenses against intracellular pathogens, including several aspects of myeloid cells function. It is required for ontogeny and maturation of macrophages and dendritic cells, for activation of anti-microbial defenses, and for production of the Th1-polarizing cytokine interleukin-12 (IL-12) in response to interferon gamma (IFNγ) and protection against infection with Mycobacterium tuberculosis. The transcriptional programs and cellular pathways that are regulated by IRF8 in response to IFNγ and that are important for defenses against M. tuberculosis are poorly understood. These were investigated by transcript profiling and chromatin immunoprecipitation on microarrays (ChIP-chip). Studies in primary macrophages identified 368 genes that are regulated by IRF8 in response to IFNγ/CpG and that behave as stably segregating expression signatures (eQTLs) in F2 mice fixed for a wild-type or mutant allele at IRF8. A total of 319 IRF8 binding sites were identified on promoters genome-wide (ChIP-chip) in macrophages treated with IFNγ/CpG, defining a functional G/AGAAnTGAAA motif. An analysis of the genes bearing a functional IRF8 binding site, and showing regulation by IFNγ/CpG in macrophages and/or in M. tuberculosis-infected lungs, revealed a striking enrichment for the pathways of antigen processing and presentation, including multiple structural and enzymatic components of the Class I and Class II MHC (major histocompatibility complex) antigen presentation machinery. Also significantly enriched as IRF8 targets are the group of endomembrane- and phagosome-associated small GTPases of the IRG (immunity-related GTPases) and GBP (guanylate binding proteins) families. These results identify IRF8 as a key regulator of early response pathways in myeloid cells, including phagosome maturation, antigen processing, and antigen presentation by myeloid cells.
  PLoS Genetics 06/2011; 7(6):e1002097. · 8.69 Impact Factor
• Article: Genetic control of susceptibility to carcinogen-induced colorectal cancer in mice: the Ccs3 and Ccs5 loci regulate different aspects of tumorigenesis.

  Charles Meunier, Tony Kwan, Claire Turbide, Nicole Beauchemin, Philippe Gros
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  ABSTRACT: Colorectal cancer (CRC) is a multistep disease that involves a two-way interaction between a complex genetic pre-disposition component, and a set of poorly understood extrinsic environmental factors. In mice, CRC can be induced by treatment with azoxymethane (AOM). Using a set of AcB/BcA recombinant congenic strains derived from CRC-susceptible A/J and CRC-resistant C57Bl/6J (B6) progenitors, we previously detected the Ccs3 locus (colon cancer susceptibility locus 3) as a major regulator of CRC susceptibility. Phenotyping of additional AcB/BcA strains for susceptibility to AOM-induced CRC has refined the Ccs3 interval to a 6.7 Mb segment on chromosome 3. In addition, the presence of intermediate susceptibility phenotypes in individual AcB/BcA strains suggested additional gene effects regulating CRC susceptibility in A/J and B6 strains. Those were investigated by linkage analysis and whole genome scanning in a set of 208 informative (B6 x A/J)F2 progeny, using tumor multiplicity as a quantitative measure of susceptibility. This analysis validated the important role of Ccs3 in regulating this trait, and additionally detected contribution from a second locus on the distal portion of chromosome 9 (LOD = 3.76), that was given the temporary designation of Ccs5. Ccs5 modulates tumor multiplicity in F2 animals bearing at least one A/J-derived susceptibility allele at Ccs3, with A/J-derived Ccs5 susceptibility alleles being inherited in a recessive manner. There is a strong additive effect of Ccs3 and Ccs5 on tumor multiplicity in F2 mice: mice doubly homozygotes for A/J or B6 alleles at Ccs3 and Ccs5 show tumor numbers similar to those of parental A/J and B6, respectively. Interestingly, the Ccs5 region overlaps several quantitative trait loci previously reported to regulate intestinal homeostasis and susceptibility to intestinal colitis in mice and humans. Our findings identify a novel two-locus system regulating CRC susceptibility in mice, of which the relevance to human CRC can now be tested experimentally.
  Cell cycle (Georgetown, Tex.) 06/2011; 10(11):1739-49. · 5.36 Impact Factor
• Article: IRF8 mutations and human dendritic-cell immunodeficiency.

  Sophie Hambleton, Sandra Salem, Jacinta Bustamante, Venetia Bigley, Stéphanie Boisson-Dupuis, Joana Azevedo, Anny Fortin, Muzlifah Haniffa, Lourdes Ceron-Gutierrez, Chris M Bacon, [......], Anete Grumach, Alberto Duarte, Katia Abarca, Dewton Moraes-Vasconcelos, David Burk, Albert Berghuis, Frédéric Geissmann, Matthew Collin, Jean-Laurent Casanova, Philippe Gros
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  ABSTRACT: The genetic analysis of human primary immunodeficiencies has defined the contribution of specific cell populations and molecular pathways in the host defense against infection. Disseminated infection caused by bacille Calmette-Guérin (BCG) vaccines is an early manifestation of primary immunodeficiencies, such as severe combined immunodeficiency. In many affected persons, the cause of disseminated BCG disease is unexplained. We evaluated an infant presenting with features of severe immunodeficiency, including early-onset disseminated BCG disease, who required hematopoietic stem-cell transplantation. We also studied two otherwise healthy subjects with a history of disseminated but curable BCG disease in childhood. We characterized the monocyte and dendritic-cell compartments in these three subjects and sequenced candidate genes in which mutations could plausibly confer susceptibility to BCG disease. We detected two distinct disease-causing mutations affecting interferon regulatory factor 8 (IRF8). Both K108E and T80A mutations impair IRF8 transcriptional activity by disrupting the interaction between IRF8 and DNA. The K108E variant was associated with an autosomal recessive severe immunodeficiency with a complete lack of circulating monocytes and dendritic cells. The T80A variant was associated with an autosomal dominant, milder immunodeficiency and a selective depletion of CD11c+CD1c+ circulating dendritic cells. These findings define a class of human primary immunodeficiencies that affect the differentiation of mononuclear phagocytes. They also show that human IRF8 is critical for the development of monocytes and dendritic cells and for antimycobacterial immunity. (Funded by the Medical Research Council and others.).
  New England Journal of Medicine 04/2011; 365(2):127-38. · 53.30 Impact Factor
• Article: A novel hypomorphic Looptail allele at the planar cell polarity Vangl2 gene.

  Marie-Claude Guyot, Ciprian M Bosoi, Fares Kharfallah, Annie Reynolds, Pierre Drapeau, Monica Justice, Philippe Gros, Zoha Kibar
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  ABSTRACT: Vangl2 forms part of the planar cell polarity signalling pathway and is the gene defective in the Looptail (Lp) mouse mutant. Two previously described alleles, Lp and Lp(m1Jus) , segregate in a semi-dominant fashion, with heterozygotes displaying the looped-tail appearance, while homozygotes show the neural tube defect called craniorachischisis. Here, we report a novel experimentally induced allele, Lp(m2Jus) , that carries a missense mutation, R259L, in Vangl2. This mutation was specific to the Lp phenotype and absent from both parental strains and 28 other inbred strains. Notably, this mutation segregates in a recessive manner with all heterozygotes appearing normal and 47% of homozygotes showing a looped-tail. Homozygous Lp(m2Jus) embryos showed spina bifida in 12%. Lp(m2Jus) genetically interacts with Lp with 77% of compound heterozygotes displaying craniorachischisis. Vangl2(R259L) behaved like the wild-type allele in overexpression and morpholino knockdown/rescue assays in zebrafish embryos. These data suggest that Lp(m2Jus) represents a new hypomorphic allele of Lp.
  Developmental Dynamics 04/2011; 240(4):839-49. · 2.54 Impact Factor
• Article: Genetic analysis in mice identifies cysteamine as a novel partner for artemisinin in the treatment of malaria.

  Gundula Min-Oo, Philippe Gros
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  ABSTRACT: Malaria continues to be a serious threat to global health. The malaria problem is compounded by the absence of an efficacious vaccine and widespread drug resistance in the Plasmodium malarial parasite. The host factors and parasite virulence determinants that regulate early response to infection and subsequent onset of protective immunity are poorly understood. The molecular characterization of this early host:pathogen interface may identify novel targets for prophylactic or therapeutic intervention. Genetic analyses in mouse model of malaria show that inactivation of the enzyme pantetheinase (Char9 locus) causes susceptibility to blood-stage infection. The pantetheinase product cysteamine is an inexpensive and non-toxic aminothiol that is approved for lifelong clinical management of nephropathic cystinosis. In mouse models of infection, cysteamine not only displays anti-malarial activity of its own, but also dramatically potentiates the anti-malarial activity of artemisinin, at doses currently used for the clinical management of cystinosis. Therefore, the inclusion of cysteamine in current artemisinin combination therapies may significantly increase efficacy and may also prove effective against emerging artemisinin-resistant human Plasmodium parasite.
  Mammalian Genome 03/2011; 22(7-8):486-94. · 2.89 Impact Factor
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  Available from: Gaëtan Burgio

  Article: Host resistance to malaria: using mouse models to explore the host response.

  Rhea Longley, Clare Smith, Anny Fortin, Joanne Berghout, Brendan McMorran, Gaétan Burgio, Simon Foote, Philippe Gros
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  ABSTRACT: Malaria is a disease that infects over 500 million people, causing at least 1 million deaths every year, with the majority occurring in developing countries. The current antimalarial arsenal is becoming dulled due to the rapid rate of resistance of the parasite. However, in populations living in malaria-endemic regions there are many examples of genetic-based resistance to the severe effects of the parasite Plasmodium. Defining the genetic factors behind host resistance has been an area of great scientific interest over the last few decades; this review summarizes the current knowledge of the genetic loci involved. Perhaps the lessons learned from the natural variation in both the human populations and experimental mouse models of infection may pave the way for novel resistance-proof antimalarials.
  Mammalian Genome 02/2011; 22(1-2):32-42. · 2.89 Impact Factor
• Article: Loss of membrane targeting of Vangl proteins causes neural tube defects.

  Alexandra Iliescu, Michel Gravel, Cynthia Horth, Zoha Kibar, Philippe Gros
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  ABSTRACT: In the mouse, the loop-tail mutation (Lp) causes a very severe neural tube defect, which is caused by mutations in the Vangl2 gene. In mammals, Vangl1 and Vangl2 code for integral membrane proteins that assemble into asymmetrically distributed membrane complexes that establish planar cell polarity in epithelial cells and that regulate convergent extension movements during embryogenesis. To date, VANGL are the only genes in which mutations cause neural tube defects in humans. Three independently arising Lp alleles have been described for Vangl2: D255E, S464N, and R259L. Here we report a common mechanism for both the naturally occurring Lp (S464N) and a novel ENU-induced mutation Lp(m2Jus)(R259L). We show that the S464N and R259L variants stably expressed in polarized MDCK kidney cells fail to reach the plasma membrane, their site for biological function. The mutant variants are retained intracellularly in the endoplasmic reticulum, colocalizing with ER chaperone calreticulin. Furthermore, the mutants also show a dramatically reduced half-life of ∼3 h, compared to ∼22 h for the wild-type protein, and are rapidly degraded in a proteasome-dependent and MG132-sensitive fashion. Coexpressing individually the three known allelic Lp variants with the wild-type protein does not influence the localization of the WT at the plasma membrane, suggesting that the codominant nature of the Lp trait in vivo is due to haploid insufficiency caused by a partial loss of function in a gene dosage-dependent pathway, as opposed to a dominant negative phenotype. Our study provides a biochemical framework for the study of recently identified mutations in hVANGL1 and hVANGL2 in sporadic or familial cases of neural tube defects.
  Biochemistry 02/2011; 50(5):795-804. · 3.42 Impact Factor
• Article: Transmembrane topology of mammalian planar cell polarity protein Vangl1.

  Alexandra Iliescu, Michel Gravel, Cynthia Horth, Sergio Apuzzo, Philippe Gros
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  ABSTRACT: Vangl1 and Vangl2 are membrane proteins that play an important role in neurogenesis, and Vangl1/Vangl2 mutations cause neural tube defects in mice and humans. At the cellular level, Vangl proteins regulate the establishment of planar cell polarity (PCP), a process requiring membrane assembly of asymmetrically distributed multiprotein complexes that transmit polarity information to neighboring cells. The membrane topology of Vangl proteins and the protein segments required for structural and functional aspects of multiprotein membrane PCP complexes is unknown. We have used epitope tagging and immunofluorescence to establish the secondary structure of Vangl proteins, including the number, position, and polarity of transmembrane domains. Antigenic hemagglutinin A (HA) peptides (YYDVPDYS) were inserted in predicted intra- or extracellular loops of Vangl1 at positions 18, 64, 139, 178, 213, and 314, and individual mutant variants were stably expressed at the membrane of MDCK polarized cells. The membrane topology of the exofacial HA tag was determined by a combination of immunofluorescence in intact (extracellular epitopes) and permeabilized (intracellular epitopes) cells and by surface labeling. Results indicate that Vangl proteins have a four-transmembrane domain structure with the N-terminal portion (HA18 and HA64) and the large C-terminal portion (HA314) of the protein being intracellular. Topology mapping and hydropathy profiling show that the loop delineated by TMD1-2 (HA139) and TMD3-4 (HA213) is extracellular while the segment separating predicted TMD2-3 (HA178) is intracellular. This secondary structure reveals a compact membrane-associated portion with very short predicted extra- and intracellular loops, while the protein harbors a large intracellular domain.
  Biochemistry 02/2011; 50(12):2274-82. · 3.42 Impact Factor
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  Available from: PubMed Central

  Article: A novel role for the fifth component of complement (C5) in cardiac physiology.

  Alaka Mullick, Jessy Tremblay, Zully Leon, Philippe Gros
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  ABSTRACT: We have previously demonstrated that C5-deficient A/J and recombinant congenic BcA17 mice suffer from cardiac dysfunction when infected with C. albicans blastospores intravenously. During these studies we had observed that, even in the control un-infected state, BcA17 hearts displayed alterations in gene expression that have been associated with pathological cardiac hypertrophy in comparison to parental C5-sufficient C57Bl/6J (B6) mice. Of note was an increase in the expression of Nppb, a member of the fetal gene program and a decrease in the expression of Rgs2, an inhibitor of the hypertrophic response. We now report that C5-deletion has also affected the expression of other elements of the fetal gene program. Moreover deleting the C5a receptor, C5aR, has essentially the same effect as deleting C5, indicating a key role for C5a-C5aR signaling in the phenotype. Having noted a pathological phenotype in the un-infected state, we investigated the role of C5 in the response to cardiac stress. In previous studies, comparison of the expression profiles of C. albicans-infected BcA17 and similarly infected B6 hearts had revealed a paucity of cardioprotective genes in the C5-deficient heart. To determine whether this was also directly linked to C5-deficiency, we tested the expression of 5 such genes in the C. albicans-infected C5aR(-/-) mice. We found again that deletion of C5aR recapitulated the alterations in stress response of BcA17. To determine whether our observations were relevant to other forms of cardiac injury, we tested the effect of C5-deficiency on the response to isoproterenol-induced hypertrophic stimulation. Consistent with our hypothesis, A/J, BcA17 and C5aR(-/-) mice responded with higher levels of Nppa expression than B6 and BALB/c mice. In conclusion, our results suggest that an absence of functional C5a renders the heart in a state of distress, conferring a predisposition to cardiac dysfunction in the face of additional injury.
  PLoS ONE 01/2011; 6(8):e22919. · 4.09 Impact Factor
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  Available from: Irena Radovanovic

  Article: Genetic control of susceptibility to infection with Candida albicans in mice.

  Irena Radovanovic, Alaka Mullick, Philippe Gros
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  ABSTRACT: Candida albicans is an opportunistic pathogen that causes acute disseminated infections in immunocompromised hosts, representing an important cause of morbidity and mortality in these patients. To study the genetic control of susceptibility to disseminated C. albicans in mice, we phenotyped a group of 23 phylogenetically distant inbred strains for susceptibility to infection as measured by extent of fungal replication in the kidney 48 hours following infection. Susceptibility was strongly associated with the loss-of-function mutant complement component 5 (C5/Hc) allele, which is known to be inherited by approximately 40% of inbred strains. Our survey identified 2 discordant strains, AKR/J (C5-deficient, resistant) and SM/J (C5-sufficient, susceptible), suggesting that additional genetic effects may control response to systemic candidiasis in these strains. Haplotype association mapping in the 23 strains using high density SNP maps revealed several putative loci regulating the extent of C. albicans replication, amongst which the most significant were C5 (P value = 2.43×10(-11)) and a novel effect on distal chromosome 11 (P value = 7.63×10(-9)). Compared to other C5-deficient strains, infected AKR/J strain displays a reduced fungal burden in the brain, heart and kidney, and increased survival, concomitant with uniquely high levels of serum IFNγ. C5-independent genetic effects were further investigated by linkage analysis in an [A/JxAKR/J]F2 cross (n = 158) where the mutant Hc allele is fixed. These studies identified a chromosome 11 locus (Carg4, Candida albicans resistance gene 4; LOD = 4.59), and a chromosome 8 locus (Carg3; LOD = 3.95), both initially detected by haplotype association mapping. Alleles at both loci were inherited in a co-dominant manner. Our results verify the important effect of C5-deficiency in inbred mouse strains, and further identify two novel loci, Carg3 and Carg4, which regulate resistance to C. albicans infection in a C5-independent manner.
  PLoS ONE 01/2011; 6(4):e18957. · 4.09 Impact Factor
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  Available from: Dewton de Moraes Vasconcelos

  Article: IRF8 Mutations and Human Dendritic-Cell Immunodeficiency

  Sophie Hambleton, Sandra Salem, B Sc, Jacinta Bustamante, Venetia Bigley, Stéphanie Boisson-Dupuis, Joana Azevedo, Anny Fortin, Muzlifah Haniffa, Lourdes Ceron-Gutierrez, [......], Anete Grumach, Alberto Duarte, Katia Abarca, Dewton Moraes-Vasconcelos, David Burk, Albert Berghuis, Frédéric Geissmann, Matthew Collin, Jean-Laurent Casanova, Philippe Gros
  N Engl J Med Copyright © Massachusetts Medical Society. 01/2011;
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  Available from: Serge Jothy

  Article: A two-locus system controls susceptibility to colitis-associated colon cancer in mice.

  Lauren Van Der Kraak, Charles Meunier, Claire Turbide, Serge Jothy, Louis Gaboury, Victoria Marcus, Sing Yun Chang, Nicole Beauchemin, Philippe Gros
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  ABSTRACT: We have previously shown that the differential susceptibility of A/J (susceptible) and C57BL/6J (B6, resistant) mouse strains to azoxymethane (AOM)-induced colorectal cancer (CRC) is controlled by the chromosome 3 locus, Ccs3. We report that A/J and B6 mice also show differential susceptibility to colitis-associated colorectal cancer (CA-CRC) induced by combined administration of AOM and dextran sulfate. This differential susceptibility is not controlled by Ccs3, but is under distinct genetic control. Linkage analyses in (A/J x B6)F2 mice detected a major CA-CRC susceptibility locus on chromosome 9 (Ccs4) which controls tumor multiplicity and tumor surface area. Susceptibility alleles at Ccs4 are inherited in a recessive fashion, with A/J alleles being associated with susceptibility. We also detected a second locus on chromosome 14 that acts in an additive fashion with Ccs4. Strikingly, F2 mice homozygous for A/J alleles at both loci (Ccs4 and chromosome 14) are as susceptible to CA-CRC as the A/J controls while mice homozygous for B6 alleles are as resistant as the B6 controls, thus supporting the role of two interacting loci in this CA-CRC model. This indicates that susceptibility to chemically-induced CRC and susceptibility to CA-CRC are under distinct genetic control in mice, and probably involve distinct cellular pathways.
  Oncotarget 10/2010; 1(6):436-46. · 4.78 Impact Factor
• Article: The C3H/HeJ inbred mouse is a model of vesico-ureteric reflux with a susceptibility locus on chromosome 12.

  Inga J Murawski, Rita W Maina, Danielle Malo, Lisa M Guay-Woodford, Philippe Gros, Mary Fujiwara, Kenneth Morgan, Indra R Gupta
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  ABSTRACT: Vesico-ureteric reflux is the most common congenital anomaly of the urinary tract, characterized by a defective uretero-vesical junction with retrograde urine flow from the bladder toward the kidneys. Because there is strong evidence for a genetic basis for some cases of vesico-ureteric reflux, we screened 11 inbred mouse strains for reflux and kidney size and identified one strain, C3H/HeJ, that has a 100 percent incidence of vesico-ureteric reflux with otherwise normal kidneys at birth. These mice are predisposed to reflux as a result of a defective uretero-vesical junction characterized by a short intravesical ureter. This defect results from a delay in urinary tract development initially manifested by a ureteric bud arising from a more caudal location along the mesonephric duct. In contrast, C57BL/6J mice (resistant to reflux at birth) have long intravesical ureters, normally positioned ureteric buds, and no delay in urinary tract development. Genome-wide and additional fine mapping of backcross mice, derived from C3H/HeJ and C57BL/6J crosses, identified a significant reflux susceptibility locus, Vurm1, on chromosome 12 (peak logarithm of the odds=7.39). The C3H/HeJ mouse is a model of vesico-ureteric reflux without renal malformation, and further characterization of this model will allow for the identification of a pathway important for urinary tract development, a finding that will serve as a model for the human disorder.
  Kidney International 08/2010; 78(3):269-78. · 6.61 Impact Factor