Terapia génica dirigida en una nuevo "sitio seguro" en células progenitoras hematopoyéticas humanas para su aplicación en anemia de Fanconi

La anemia de Fanconi es una enfermedad hereditaria de baja prevalencia, descrita por primera vez por el pediatra Guido Fanconi en 1927. Esta enfermedad se produce como consecuencia de mutaciones en cualquiera de los 19 genes de Fanconi descritos hasta la actualidad, y que participan en la ruta de Fanconi/BRCA. Esta ruta se encarga de la reparación de enlaces intercatenarios del ADN y de coordinar los distintos mecanismos de reparación de las dobles roturas en el ADN. La anemia de Fanconi está caracterizada por generar inestabilidad genómica, lo que da lugar a anomalías esqueléticas y predisposición al cáncer, si bien la principal causa de muerte de pacientes pediátricos es el fallo de médula ósea. Uno de los tratamientos alternativos al trasplante alogénico de progenitores hematopoyéticos de pacientes con anemia de Fanconi se basa en la reinfusión de células madre hematopoyéticas autólogas, tras su corrección con vectores lentivirales. Para limitar al máximo los riesgos de este tipo de terapias se están desarrollando nuevas tecnologías de edición génica basadas en la inserción dirigida de los genes terapéuticos. Esta nueva aproximación se fundamenta en la generación de dobles roturas en regiones específicas del genoma, cuya reparación por recombinación homóloga facilitaría la entrada de los genes terapéuticos aportados por ADNs donadores externos con homología por dicha región. En este trabajo se ha desarrollado una aproximación de edición génica en un nuevo “sitio seguro” del genoma denominado SH6. Para ello se ha trabajado con la línea celular HEK-293H, así como también con progenitores hematopoyéticos humanos purificados en base a la expresión del marcador CD34. Para su desarrollo se han utilizado nucleasas de edición, tales como meganucleasas y TALEN, en combinación con matrices donadoras portadoras del gen marcador EGFP (GM) o del gen terapéutico FANCA (TM). En todos los casos los genes marcadores y terapéuticos estaban regulados por el promotor EF1α, y flanqueados por dos brazos de homología para el sitio SH6. Estos plásmidos han servido como molde para realizar la terapia génica de edición en el sitio seguro SH6...

Anemia na doença inflamatória intestinal

Trabalho Final do Curso de Mestrado Integrado em Medicina, Faculdade de Medicina, Universidade de Lisboa, 2014

Doença celíaca num doente com síndrome poliglandular autoimune tipo III : caso clínico

Trabalho Final do Curso de Mestrado Integrado em Medicina, Faculdade de Medicina, Universidade de Lisboa, 2014

Síndrome hemolítica urémica provocada por Escherichia coli produtora de toxina Shiga : a propósito de um caso clinico

Trabalho Final do Curso de Mestrado Integrado em Medicina, Faculdade de Medicina, Universidade de Lisboa, 2014

Anemia hemolítica : desafio diagnóstico

Trabalho Final do Curso de Mestrado Integrado em Medicina, Faculdade de Medicina, Universidade de Lisboa, 2014

Anemia das Células Falciformes: hemólise crónica e vasculopatia cerebral

São apresentados os resultados obtidos no âmbito de dois projetos de investigação no âmbito dos fatores genéticos moduladores da hemólise crónica e da vasculopatia cerebral (AVC e enfartes silenciosos) na Anemia das Células Falciformes. São discutidos os mecanismos subjacentes e hipóteses de uso como alvos terapêuticos.

Protection from experimental autoimmune encephalomyelitis by polyclonal IgG requires adjuvant-induced inflammation

BACKGROUND Intravenous immunoglobulin (IVIG) proved to be an efficient anti-inflammatory treatment for a growing number of neuroinflammatory diseases and protects against the development of experimental autoimmune encephalomyelitis (EAE), a widely used animal model for multiple sclerosis (MS). METHODS The clinical efficacy of IVIG and IVIG-derived F(ab')2 fragments, generated using the streptococcal cysteine proteinase Ide-S, was evaluated in EAE induced by active immunization and by adoptive transfer of myelin-specific T cells. Frequency, phenotype, and functional characteristics of T cell subsets and myeloid cells were determined by flow cytometry. Antibody binding to microbial antigen and cytokine production by innate immune cells was assessed by ELISA. RESULTS We report that the protective effect of IVIG is lost in the adoptive transfer model of EAE and requires prophylactic administration during disease induction. IVIG-derived Fc fragments are not required for protection against EAE, since administration of F(ab')2 fragments fully recapitulated the clinical efficacy of IVIG. F(ab')2-treated mice showed a substantial decrease in splenic effector T cell expansion and cytokine production (GM-CSF, IFN-γ, IL-17A) 9 days after immunization. Inhibition of effector T cell responses was not associated with an increase in total numbers of Tregs but with decreased activation of innate myeloid cells such as neutrophils, monocytes, and dendritic cells. Therapeutically effective IVIG-derived F(ab')2 fragments inhibited adjuvant-induced innate immune cell activation as determined by IL-12/23 p40 production and recognized mycobacterial antigens contained in Freund's complete adjuvant which is required for induction of active EAE. CONCLUSIONS Our data indicate that F(ab')2-mediated neutralization of adjuvant contributes to the therapeutic efficacy of anti-inflammatory IgG. These findings might partly explain the discrepancy of IVIG efficacy in EAE and MS.

Sickle cell anemia : a medical review /

Bibliography: p. 20-26.

Sobre si la clorosis y la anemia son una misma entidad morbosa [Manuscrito] : discurso pronunciado por D. Calisto Landera.

Mode of access: Internet.

Report on recent researches upon the nature and therapy of pernicious anemia,

Bibliography: p. 20-22.

Illinois Equine Infectious Anemia Control Act /

Description based on: 1990.

Anemia de célula falciforme en los recién nacidos y los bebés : guía para los padres.

Mode of access: Internet.

Equine infectious anemia : 2001 update /

Shipping list no.: 2004-0264-P.

Acyl glucuronide reactivity in perspective: biological consequences

The metabolic conjugation of exogenous and endogenous carboxylic acid substrates with endogenous glucuronic acid, mediated by the uridine diphosphoglucuronosyl transferase (UGT) superfamily of enzymes, leads to the formation of acyl glucuronide metabolites. Since the late 1970s, acyl glucuronides have been increasingly identified as reactive electrophilic metabolites, capable of undergoing three reactions: intramolecular rearrangement, hydrolysis, and intermolecular reactions with proteins leading to covalent drug-protein adducts. This essential dogma has been accepted for over a decade. The key question proposed by researchers, and now the pharmaceutical industry, is: does or can the covalent modification of endogenous proteins, mediated by reactive acyl glucuronide metabolites, lead to adverse drug reactions, perhaps idiosyncratic in nature? This review evaluates the evidence for acyl glucuronide-derived perturbation of homeostasis, particularly that which might result from the covalent modification of endogenous proteins and other macromolecules. Because of the availability of acyl glucuronides for test tube/in vitro experiments, there is now a substantial literature documenting their rearrangement, hydrolysis and covalent modification of proteins in vitro. It is certain from in vitro experiments that serum albumin, dipeptidyl peptidase IV, tubulin and UGTs are covalently modified by acyl glucuronides. However, these in vitro experiments have been specifically designed to amplify any interference with a biological process in order to find biological effects. The in vivo situation is not at all clear. Certainly it must be concluded that all humans taking carboxylate drugs that form reactive acyl glucuronides will form covalent drug-protein adducts, and it must also be concluded that this in itself is normally benign. However, there is enough in vivo evidence implicating acyl glucuronides, which, when backed up by in vivo circumstantial and documented in vitro evidence, supports the view that reactive acyl glucuronides may initiate toxicity/immune responses. In summary, though acyl glucuronide-derived covalent modification of endogenous macromolecules is well-defined, the work ahead needs to provide detailed links between such modification and its possible biological consequences. (C) 2003 Elsevier Science Ireland Ltd. All rights reserved.

Blockade of the C5a receptor fails to protect against experimental autoimmune encephalomyelitis in rats

Complement activation contributes to inflammation and tissue damage in human demyelinating diseases and in rodent models of demyelination. Inhibitors of complement activation ameliorate disease in the rat model antibody-dependent experimental autoimmune encephalomyelitis and rats unable to generate the membrane attack complex of complement develop inflammation without demyelination. The role of the highly active chemotactic and anaphylactic complement-derived peptide C5a in driving inflammation and pathology in rodent models of demyelination has been little explored. Here we have used a small molecule C5a receptor antagonist, AcF-[OPdChaWR], to examine the effects of C5a receptor blockade in rat models of brain inflammation and demyelination. C5a receptor antagonist therapy completely blocked neutrophil response to C5a in vivo but had no effect on clinical disease or resultant pathology in either inflammatory or demyelinating rat models. We conclude that C5a is not required for disease induction or perpetuation in these strongly complement-dependent disease models.