GUILHERME LOPES YAMAMOTO
Projetos de Pesquisa
Unidades Organizacionais
Instituto da Criança, Hospital das Clínicas, Faculdade de Medicina - Médico
LIM/36 - Laboratório de Pediatria Clínica, Hospital das Clínicas, Faculdade de Medicina
LIM/36 - Laboratório de Pediatria Clínica, Hospital das Clínicas, Faculdade de Medicina
4 resultados
Resultados de Busca
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- Mutations in Fibronectin Cause a Subtype of Spondylometaphyseal Dysplasia with ""Corner Fractures''(2017) LEE, Chae Syng; FU, He; BARATANG, Nissan; ROUSSEAU, Justine; KUMRA, Heena; SUTTON, V. Reid; NICETA, Marcello; CIOLFI, Andrea; YAMAMOTO, Guilherme; BERTOLA, Debora; MARCELIS, Carlo L.; LUGTENBERG, Dorien; BARTULI, Andrea; KIM, Choel; HOOVER-FONG, Julie; SOBREIRA, Nara; PAULI, Richard; BACINO, Carlos; KRAKOW, Deborah; PARBOOSINGH, Jillian; YAP, Patrick; KARIMINEJAD, Ariana; MCDONALD, Marie T.; ARACENA, Mariana I.; LAUSCH, Ekkehart; UNGER, Sheila; SUPERTI-FURGA, Andrea; LU, James T.; COHN, Dan H.; TARTAGLIA, Marco; LEE, Brendan H.; REINHARDT, Dieter P.; CAMPEAU, Philippe M.Fibronectin is a master organizer of extracellular matrices (ECMs) and promotes the assembly of collagens, fibrillin-1, and other proteins. It is also known to play roles in skeletal tissues through its secretion by osteoblasts, chondrocytes, and mesenchymal cells. Spondylo-metaphyseal dysplasias (SMDs) comprise a diverse group of skeletal dysplasias and often manifest as short stature, growth-plate irregularities, and vertebral anomalies, such as scoliosis. By comparing the exomes of individuals with SMD with the radiographic appearance of ""corner fractures'' at metaphyses, we identified three individuals with fibronectin (FN1) variants affecting highly conserved residues. Furthermore, using matching tools and the SkelDys emailing list, we identified other individuals with de novo FN1 variants and a similar phenotype. The severe scoliosis in most individuals and rare developmental coxa vara distinguish individuals with FN1 mutations from those with classical Sutcliffe-type SMD. To study functional consequences of these FN1 mutations on the protein level, we introduced three disease-associated missense variants (p.Cys87Phe [c.260G>T], p.Tyr240Asp [c.718T>G], and p.Cys260Gly [c.778T>G]) into a recombinant secreted N-terminal 70 kDa fragment (rF70K) and the full-length fibronectin (rFN). The wild-type rF70K and rFN were secreted into the culture medium, whereas all mutant proteins were either not secreted or secreted at significantly lower amounts. Immunofluorescence analysis demonstrated increased intracellular retention of the mutant proteins. In summary, FN1 mutations that cause defective fibronectin secretion are found in SMD, and we thus provide additional evidence for a critical function of fibronectin in cartilage and bone.
- Paracoccidioidomycosis Associated With a Heterozygous STAT4 Mutation and Impaired IFN-gamma Immunity(2017) SCHIMKE, Lena F.; HIBBARD, James; MARTINEZ-BARRICARTE, Ruben; KHAN, Taj Ali; CAVALCANTE, Ricardo de Souza; OLIVEIRA JUNIOR, Edgar Borges de; FRANCA, Tabata Takahashi; IQBAL, Asif; YAMAMOTO, Guilherme; ARSLANIAN, Christina; FERIOTTI, Claudia; COSTA, Tania Alves; BUSTAMANTE, Jacinta; BOISSON-DUPUIS, Stephanie; CASANOVA, Jean-Laurent; BARBUTO, Jose Alexandre Marzagao; ZATZ, Mayana; MENDES, Rinaldo Poncio; CALICH, Vera Lucia Garcia; OCHS, Hans D.; TORGERSON, Troy R.; CABRAL-MARQUES, Otavio; CONDINO-NETO, AntonioBackground. Mutations in genes affecting interferon-gamma (IFN-gamma) immunity have contributed to understand the role of IFN-gamma in protection against intracellular pathogens. However, inborn errors in STAT4, which controls interleukin-12 (IL-12) responses, have not yet been reported. Our objective was to determine the genetic defect in a family with a history of paracoccidioidomycosis. Methods. Genetic analysis was performed by whole-exome sequencing and Sanger sequencing. STAT4 phosphorylation (pSTAT4) and translocation to the nucleus, IFN-gamma release by patient lymphocytes, and microbicidal activity of patient monocytes/macrophages were assessed. The effect on STAT4 function was evaluated by site-directed mutagenesis using a lymphoblastoid B cell line (B-LCL) and U3A cells. Results. A heterozygous missense mutation, c.1952 A > T (p.E651V) in STAT4 was identified in the index patient and her father. Patient's and father's lymphocytes showed reduced pSTAT4, nuclear translocation, and impaired IFN-gamma production. Mutant B-LCL and U3A cells also displayed reduced pSTAT4. Patient's and father's peripheral blood mononuclear cells and macrophages demonstrated impaired fungicidal activity compared with those from healthy controls that improved in the presence of recombinant human IFN-gamma, but not rhIL-12. Conclusion. Our data suggest autosomal dominant STAT4 deficiency as a novel inborn error of IL-12-dependent IFN-gamma immunity associated with susceptibility to paracoccidioidomycosis.
conferenceObject Severe Osteogenesis imperfecta with oligodontia: think of MESD(2020) MOOSA, S.; YAMAMOTO, G. L.; GARBES, L.; KEUPP, K.; BELEZA-MEIRELES, A.; MORENO, C. A.; VALADARES, E. R.; SOUSA, S. B. de; MAIA, S.; SARAIVA, J.; HONJO, R. S.; KIM, C. A.; MENEZES, H. Cabral de; LAUSCH, E.; LORINI, P. V.; LAMOUNIER JR., A.; CARNIERO, T. C. B.; GIUNTA, C.; ROHRBACH, M.; JANNER, M.; SEMLER, O.; BELEGGIA, F.; LI, Y.; YIGIT, G.; REINTJES, N.; ALTMULLER, J.; NURNBERG, P.; CAVALCANTI, D. P.; ZABEL, B.; WARMAN, M. L.; BERTOLA, D. R.; WOLLNIK, B.; NETZER, C.- Autosomal-Recessive Mutations in MESD Cause Osteogenesis Imperfecta(2019) MOOSA, Shahida; YAMAMOTO, Guilherme L.; GARBES, Lutz; KEUPP, Katharina; BELEZA-MEIRELES, Ana; MORENO, Carolina Araujo; VALADARES, Eugenia Ribeiro; SOUSA, Sergio B. de; MAIA, Sofia; SARAIVA, Jorge; HONJO, Rachel S.; KIM, Chong Ae; MENEZES, Hamilton Cabral de; LAUSCH, Ekkehart; LORINI, Pablo Villavicencio; LAMOUNIER JR., Arsonval; CARNIERO, Tulio Canella Bezerra; GIUNTA, Cecilia; ROHRBACH, Marianne; JANNER, Marco; SEMLER, Oliver; BELEGGIA, Filippo; LI, Yun; YIGIT, Goekhan; REINTJES, Nadine; ALTMUELLER, Janine; NUERNBERG, Peter; CAVALCANTI, Denise P.; ZABEL, Bernhard; WARMAN, Matthew L.; BERTOLA, Debora R.; WOLLNIK, Bernd; NETZER, ChristianOsteogenesis imperfecta (OI) comprises a genetically heterogeneous group of skeletal fragility diseases. Here, we report on five independent families with a progressively deforming type of OI, in whom we identified four homozygous truncation or frameshift mutations in MESD. Affected individuals had recurrent fractures and at least one had oligodontia. MESD encodes an endoplasmic reticulum (ER) chaperone protein for the canonical Wingless-related integration site (WNT) signaling receptors LRP5 and LRP6. Because complete absence of MESD causes embryonic lethality in mice, we hypothesized that the OI-associated mutations are hypomorphic alleles since these mutations occur downstream of the chaperone activity domain but upstream of ER-retention domain. This would be consistent with the clinical phenotypes of skeletal fragility and oligodontia in persons deficient for LRP5 and LRP6, respectively. When we expressed wild-type (WT) and mutant MESD in HEK293T cells, we detected WT MESD in cell lysate but not in conditioned medium, whereas the converse was true for mutant MESD. We observed that both WT and mutant MESD retained the ability to chaperone LRP5. Thus, 01-associated MESD mutations produce hypomorphic alleles whose failure to remain within the ER significantly reduces but does not completely eliminate LRP5 and LRP6 trafficking. Since these individuals have no eye abnormalities (which occur in individuals completely lacking LRP5) and have neither limb nor brain patterning defects (both of which occur in mice completely lacking LRP6), we infer that bone mass accrual and dental patterning are more sensitive to reduced canonical WNT signaling than are other developmental processes. Biologic agents that can increase LRP5 and LRP6-mediated WNT signaling could benefit individuals with MESD-associated OI.