Growth of Benign and Malignant Schwannoma Xenografts in Severe Combined Immunodeficiency Mice

Chang, Long, Abraham, Jacob, Lorenz, Mark, Rock, Jonathan, Akhmametyeva, Elena M., Mihai, Georgeta, Schmalbrock, Petra, Chaudhury, Abhik R., Lopez, Raul, Yamate, Jyoji, John, Markus R., Wickert, Hannes, Neff, Brian A., Dodson, Edward, Welling, D. Bradley

01 November 2006

OBJECTIVES: Models for the development of new treatment options in vestibular schwannoma (VS) treatment are lacking. The purpose of this study is to establish a quantifiable human VS xenograft model in mice. STUDY DESIGN AND METHODS: Both rat malignant schwannoma cells (KE-F11 and RT4) and human malignant schwannoma (HMS-97) cells were implanted near the sciatic nerve in the thigh of severe combined immunodeficiency (SCID) mice. Additionally, human benign VS specimens were implanted in another set of SCID mice. Three-dimensional tumor volumes were calculated from magnetic resonance images over the next 6 months. RESULTS: Mice implanted with malignant schwannoma cells developed visible tumors within 2 weeks. Imaging using a 4.7-tesla magnetic resonance imaging and immunohistopathologic examination identified solid tumors in all KE-F11 and HMS-97 xenografts, whereas RT4 xenografts consistently developed cystic schwannomas. VS xenografts demonstrated variability in their growth rates similar to human VS. The majority of VS xenografts did not grow but persisted throughout the study, whereas two of 15 xenografts grew significantly. Histopathologic examination and immunohistochemistry confirmed that VS xenografts retained their original microscopic and immunohistochemical characteristics after prolonged implantation. CONCLUSIONS: This study describes the first animal model for cystic schwannomas. Also, we demonstrate the use of high-field magnetic resonance imaging to quantify VS xenograft growth over time. The VS xenografts represent a model complimentary to Nf2 transgenic and knockout mice for translational VS research.

cystic

gadolinium

magnetic resonance imaging (MRI)

malignant

neurofibromatosis type 2 (NF2)

vestibular schwannoma

xenograft

Application of high-throughput sequencing for the analyses of PRRSV-host interactions

Chen, Nanhua

January 1900

Doctor of Philosophy / Department of Diagnostic Medicine and Pathobiology / Raymond R. R. Rowland / Porcine Reproductive and Respiratory Syndrome Virus (PRRSV) is the most costly virus to the swine industry, worldwide. This study explored the application of deep sequencing techniques to understand better the virus-host interaction. On the virus side, PRRSV exists as a quasispecies. The first application of deep sequencing was to investigate amino acid substitutions in hypervariable regions during acute infection and after virus rebound. The appearance and disappearance of mutations, especially the generation of a new N-glycosylation site in GP5, indicated they are likely the result of immune selection. The second application of deep sequencing was to investigate the quasispecies makeup in pigs with severe combined immunodeficiency (SCID) that lack B and T cells. The results showed the same pattern of amino acid substitutions in SCID and normal littermates and no different mutations were identified between SCID and normal littermates. This suggests the mutations that appear during the early stages of infection are the product of the virus becoming adapted to replication in pigs. The third application of deep sequencing was to investigate the locations of recombination events between GFP-expressing PRRSV infectious clones. The results identified different cross-over occurred within three conserved regions between EGFP and GFPm genes. And finally, the fourth goal was applied to develop a set of sequencing tools for analyzing the host antibody repertoire. A simple method was developed to amplify swine VDJ repertoires. Shared and abundant VDJ sequences that are likely expressed by PRRSV-activated B cells were determined in pigs that had different neutralization activities. These sequences are potentially correlated with different antibody responses.

High-throughput sequencing

Quasispecies

Antibody repertoire

Recombination

Veterinary Medicine (0778)

Virology (0720)

Investigação genético-molecular de pacientes com imunodeficiência combinada grave / Genetic and molecular investigation of patients with Severe Combined Immunodeficiency,

Barreiros, Lucila Akune

08 August 2018

A imunodeficiência combinada grave (SCID) é uma doença caracterizada por profunda deficiência de células T, que afeta as imunidades celular e humoral e gera anormalidades graves no desenvolvimento e funções do sistema imune. Recém-nascidos com SCID apresentam a doença nos primeiros meses de vida e tem grande susceptibilidade a infecções. Sem tratamento, essas condições são invariavelmente fatais, porém se reconhecidas precocemente, há a possibilidade da realização do transplante de células-tronco hematopoiéticas, o tratamento curativo, o que torna a SCID uma emergência pediátrica. A investigação do defeito genético é uma prerrogativa para o condicionamento adequado do transplante, a terapia gênica, o aconselhamento genético e o diagnóstico pré-natal. No Brasil, o conhecimento sobre SCID é incipiente e não existem dados moleculares sobre pacientes com a doença. Sendo assim, este estudo teve por objetivo investigar defeitos genético-moleculares de pacientes brasileiros com SCID. Foram incluídos 13 pacientes, todos com início precoce dos sintomas e manifestações clínicas esperadas em SCID (principalmente infecções respiratórias, de pele, diarreia crônica e atraso de crescimento). Os patógenos isolados foram vírus, bactérias e fungos oportunistas comumente encontrados em pacientes SCID. A partir da quantificação de TRECS e KRECs e imunofenotipagem de linfócitos, foi montado o perfil imunológico de cada paciente, que guiou o sequenciamento direto de Sangerdos genes mais frequentemente mutados em cada imunofenótipo de SCID. Mutações em 3 pacientes foram identificadas por Sanger e, posteriormente, 8 pacientes cujas mutações não foram encontradas no Sanger foram encaminhados para o sequenciamento completo de exoma, que resultou na identificação do gene afetado em 62,5% dos casos. Ao todo, foram identificadas mutações patogênicas em 8 dos 13 pacientes. Os resultados revelaram 6 alterações em 5 genes de SCID clássica (IL7R, RAG2, DCLRE1C, JAK3, IL2RG), 1 mutação no gene CD3G e 2 alterações em CECR1. Das 9 mutações encontradas, 5 não possuíam registro na literatura. O estudo genético de SCID em nosso país é problemático, principalmente porque ainda hoje, a esmagadora maioria dos pacientes não é diagnosticada. A implementação da quantificação de TRECs e KRECs como triagem neonatal para linfopenias graves é uma ferramenta fundamental para que os pacientes SCID possam ser identificados, investigados e tratados adequadamente. / Primary immunodeficiencies are a heterogeneous group of genetic diseases that lead to increased susceptibility to infections and affect mostly children. Severe Combined Immunodeficiency (SCID) is the most severe of all these diseases and is characterized by profound T cell deficiency, which affects cellular and humoral immunities and leads to severe abnormalities in the development and function of the immune system. Newborns with SCID present the disease in the first months of life and are highly susceptible to infections. Without treatment, these conditions are invariably fatal, but if recognized early, there is the possibility of hematopoietic stem cell transplantation, the curative treatment, which makes SCID a pediatric emergency. Identifying the genetic defect of SCID patients is a prerequisite for proper transplant conditioning, gene therapy, genetic counseling and prenatal diagnosis. Knowledge about SCID is still incipient in Brazil, and there are virtually no molecular data on patients with the disease. Therefore, this study aimed to investigate genetic-molecular defects of Brazilian patients with SCID. Thirteen patients were recruited, all with early onset of symptoms and clinical manifestations expected of classic SCIDs (mainly respiratory and skin infections, chronic diarrhea and failure to thrive). The pathogens isolated were opportunistic viruses, bacteria and fungi often reported in SCID patients. The immunological profile from each patient was defined by the quantification of TRECS and KRECs and lymphocyte immunophenotyping, which was meant to guide direct sequencing by Sanger of the most frequently mutated genes of each SCID immunophenotype. Mutations in 3 patients were identified by Sanger and, subsequently, 8 patients whose mutations were not identified by Sanger were referred for whole exome sequencing, which resulted in the identification of the affected gene in 62,5% of cases. Pathogenic mutations were identified in 8 of the 13 patients. The results revealed 6 mutations in 5 genes associated to classical SCID genes (IL7R, RAG2, DCLRE1C, JAK3, IL2RG), 1 mutation in the CD3G gene, and 2 mutations in CECR1. Five of the 9 mutations found had no record in the literature. SCID genetic investigation in our country is troublesome, mainly because even nowadays, the vast majority of patients are not diagnosed properly. Newborn screening for SCID and other severe lymphopenias by the quantification of TRECs and KRECs is key for the identification, investigation and proper treatment of SCID patients.

células T

imunodeficiência combinada grave (SCID)

mutação

mutation

newborn screening

sequenciamento completo de exoma

Severe Combined Immunodeficiency (SCID)

T cells

triagem neonatal

whole exome sequencing