Identification and Characterization of an Arginine-methylated Survival of Motor Neuron (SMN) Interactor in Spinal Muscular Atrophy (SMA)

Tadesse, Helina

19 December 2012

Spinal Muscular Atrophy (SMA) is a neuronal degenerative disease caused by the mutation or loss of the Survival Motor Neuron (SMN) gene. The cause for the specific motor neuron susceptibility in SMA has not been identified. The high axonal transport/localization demand on motor neurons may be one potentially disrupted function, more specific to these cells. We therefore used a large-scale immunoprecipitation (IP) experiment, to identify potential interactors of SMN involved in neuronal transport and localization of mRNA targets. We identified KH-type splicing regulatory protein (KSRP), a multifunctional RNA-binding protein that has been implicated in transcriptional regulation, neuro-specific alternative splicing, and mRNA decay. KSRP is closely related to chick zipcode-binding protein 2 and rat MARTA1, proteins involved in neuronal transport/localization of beta-actin and microtubule-associated protein 2 mRNAs, respectively. We demonstrated that KSRP is arginine methylated, a novel SMN interactor (specifically with the SMN Tudor domain; and not with SMA causing mutants). We also found this protein to be misregulated in the absence of SMN, resulting in increased mRNA stability of KSRP mRNA target, p21cip/waf1. A role for SMN as an axonal chaperone of methylated RBPs could thus be key in SMA pathophysiology.

Spinal Muscular Atrophy (SMA)

Survival Motor Neuron (SMN)

Neurodegenerative Disease

Arginine Methylation

Identification and Characterization of an Arginine-methylated Survival of Motor Neuron (SMN) Interactor in Spinal Muscular Atrophy (SMA)

Tadesse, Helina

19 December 2012

Spinal Muscular Atrophy (SMA) is a neuronal degenerative disease caused by the mutation or loss of the Survival Motor Neuron (SMN) gene. The cause for the specific motor neuron susceptibility in SMA has not been identified. The high axonal transport/localization demand on motor neurons may be one potentially disrupted function, more specific to these cells. We therefore used a large-scale immunoprecipitation (IP) experiment, to identify potential interactors of SMN involved in neuronal transport and localization of mRNA targets. We identified KH-type splicing regulatory protein (KSRP), a multifunctional RNA-binding protein that has been implicated in transcriptional regulation, neuro-specific alternative splicing, and mRNA decay. KSRP is closely related to chick zipcode-binding protein 2 and rat MARTA1, proteins involved in neuronal transport/localization of beta-actin and microtubule-associated protein 2 mRNAs, respectively. We demonstrated that KSRP is arginine methylated, a novel SMN interactor (specifically with the SMN Tudor domain; and not with SMA causing mutants). We also found this protein to be misregulated in the absence of SMN, resulting in increased mRNA stability of KSRP mRNA target, p21cip/waf1. A role for SMN as an axonal chaperone of methylated RBPs could thus be key in SMA pathophysiology.

Spinal Muscular Atrophy (SMA)

Survival Motor Neuron (SMN)

Neurodegenerative Disease

Arginine Methylation

Mise au point de techniques moléculaires pour l'étude de l'interaction de Lrp avec la région régulatrice de l'opéron fimbriaire foo (F165₁SBF₎

Champagne, Marie-Claude

January 2006

No description available.

Escherichia coli

Septicémie

Fimbriae

Régulation

Fool

Protéine de fusion

Variation de phase

Transcription basale

Empreinte génomique à la DNasel

Identification and Characterization of an Arginine-methylated Survival of Motor Neuron (SMN) Interactor in Spinal Muscular Atrophy (SMA)

Tadesse, Helina

January 2012

Spinal Muscular Atrophy (SMA) is a neuronal degenerative disease caused by the mutation or loss of the Survival Motor Neuron (SMN) gene. The cause for the specific motor neuron susceptibility in SMA has not been identified. The high axonal transport/localization demand on motor neurons may be one potentially disrupted function, more specific to these cells. We therefore used a large-scale immunoprecipitation (IP) experiment, to identify potential interactors of SMN involved in neuronal transport and localization of mRNA targets. We identified KH-type splicing regulatory protein (KSRP), a multifunctional RNA-binding protein that has been implicated in transcriptional regulation, neuro-specific alternative splicing, and mRNA decay. KSRP is closely related to chick zipcode-binding protein 2 and rat MARTA1, proteins involved in neuronal transport/localization of beta-actin and microtubule-associated protein 2 mRNAs, respectively. We demonstrated that KSRP is arginine methylated, a novel SMN interactor (specifically with the SMN Tudor domain; and not with SMA causing mutants). We also found this protein to be misregulated in the absence of SMN, resulting in increased mRNA stability of KSRP mRNA target, p21cip/waf1. A role for SMN as an axonal chaperone of methylated RBPs could thus be key in SMA pathophysiology.

Spinal Muscular Atrophy (SMA)

Survival Motor Neuron (SMN)

Neurodegenerative Disease

Arginine Methylation

THE ROLE OF LUTEINIZING HORMONE IN ALZHEIMER DISEASE

Webber, Kate M.

January 2007

No description available.

Health Sciences, Pathology

Alzheimer disease

luteinizing hormone

gonadotropin-releasing hormone

brain-derived hormone expression

steroidogenic acute regulatory protein

leuprolide acetate

The role of genetic variation in glucokinase and glucokinase regulatory protein in diabetes and related traits

Beer, Nicola L.

January 2011

The rising prevalence of type 2 diabetes (T2D) is a global problem, and suggests that we need better therapeutic strategies against this disease. The glycolytic enzyme glucokinase (GCK) catalyses the phosphorylation of glucose, and is a well-established T2D drug target. Rare GCK mutations cause monogenic beta-cell dysfunction, whilst common genetic variants within GCK are associated with fasting plasma glucose (FPG) levels and T2D risk. Since GCK is expressed in both the pancreas and liver, pharmacological GCK activation provides the promise of a two-pronged attack on hyperglycaemia. In vivo, GCK activity is modulated by the hepatic inhibitor glucokinase regulatory protein (GKRP, gene GCKR). GKRP negatively regulates GCK activity competitively with respect to glucose, and is controlled by fructose 6- and fructose 1-phosphate (F6P and F1P), which compete with each other for binding and enhance or diminish GCK inhibition respectively. GKRP also sequesters GCK in the nucleus and paradoxically stabilises the enzyme. As GCK and its regulatory protein are fundamental to glucose homeostasis, we aimed to investigate the role of genetic variation in both GCK and GCKR to further our understanding of these important T2D drug targets in a system that would be relevant to man. I demonstrated that two novel GCK mutations (T103S and V389L) identified in patients with hyperinsulinaemic hypoglycaemia were kinetically activating and through structural modelling identified a novel regulatory site for GCK activation by small molecular activators. Genome-wide association studies (GWAS) identified GCKR as a regulator of FPG and triglyceride levels, and showed a role for GKRP in T2D risk. Unlike most GWAS hits, this signal included a non-synonymous variant within GCKR (P446L), thus facilitating functional studies. P446L-GKRP was characterised kinetically and at the cellular sequestration-level. This variant showed diminished F6P-mediated modulation, which was proposed to reduce hepatic GCK inhibition, increase glycolytic flux (decreasing FPG), and feed metabolites into liver pathways (elevating triglycerides). As GCKR was not expressed at functional levels within human islets, this phenotype was thought to be driven by the liver. Preliminary analysis at the cellular level was inconclusive, with optimisation required to study human P446L-GKRP in this cellular system. Finally, I showed that mutations within GCKR are not a common cause of “GCK-Like” phenotypes in man, despite the regulatory protein directly modulating GCK activity. These data provide further insight as to the pathogenic consequences of perturbing GCK activity. This must be considered if this enzyme is to be the subject of therapeutic intervention in T2D.

616.3

Expressão de proteínas reguladoras do complemento CD55/CD59/CD35/CD46 em pacientes com artrite reumatóide

Piccoli, Amanda Kirchner

January 2011

A Artrite Reumatóide (AR) é uma doença autoimune associada a poliartropatia inflamatória que acomete principalmente as articulações periféricas. Cerca de 1% da população mundial é afetada, sendo duas a três vezes mais prevalente em mulheres. Apresenta uma patogênese complexa e multifatorial. A sinóvia das articulações afetadas é infiltrada por linfócitos T e B, macrófagos e granulócitos. A sinóvia reumatóide adquire características proliferativas, formando o pannus, e invade a cartilagem articular e o osso, levando à destruição da arquitetura normal da articulação e perda de função. Em vários modelos de doenças autoimunes, a ausência ou diminuição da expressão de proteínas reguladoras do complemento tem sido observada, associada com o agravamento dos sintomas clínicos, sendo que, muitos destes casos, a superativação do sistema complemento pode ser a causa da exacerbação da doença. O presente artigo tem por objetivo revisar os principais aspectos relacionados à regulação do sistema complemento na artrite reumatóide, a fim de propiciar uma melhor compreensão do potencial papel desse sistema na fisiopatologia da doença. / Rheumatoid arthritis (RA) is an autoimmune disease associated with polyarticular inflammatory synovitis that affects mainly the peripheral joints. About 1% of the world population is affected, and it is two to three times more prevalent in women. RA has a complex and multifactorial pathogenesis. The rheumatoid synovium acquires proliferative characteristics, forming the pannus, and invades cartilage and bone, leading to the destruction of normal architecture and loss of function. In several models of autoimmune diseases, the absence or decreased expression of complement regulatory proteins has been observed, associated with worsening of the clinical symptoms, and many of these cases the over-activation of the complement system is the cause of disease exacerbation. This article aims to review the main aspects related to regulation of the complement system in rheumatoid arthritis in order to provide a better understanding of the potential role of this system in the pathophysiology of the disease.

Artrite reumatóide

Proteínas do sistema de complemento

Antígenos CD55

Antígenos CD59

Antígenos CD46

Receptores de complemento 3b

Rheumatoid arthritis

Complement system

Complement regulatory protein

Expressão de proteínas reguladoras do complemento CD55/CD59/CD35/CD46 em pacientes com artrite reumatóide

Piccoli, Amanda Kirchner

January 2011

A Artrite Reumatóide (AR) é uma doença autoimune associada a poliartropatia inflamatória que acomete principalmente as articulações periféricas. Cerca de 1% da população mundial é afetada, sendo duas a três vezes mais prevalente em mulheres. Apresenta uma patogênese complexa e multifatorial. A sinóvia das articulações afetadas é infiltrada por linfócitos T e B, macrófagos e granulócitos. A sinóvia reumatóide adquire características proliferativas, formando o pannus, e invade a cartilagem articular e o osso, levando à destruição da arquitetura normal da articulação e perda de função. Em vários modelos de doenças autoimunes, a ausência ou diminuição da expressão de proteínas reguladoras do complemento tem sido observada, associada com o agravamento dos sintomas clínicos, sendo que, muitos destes casos, a superativação do sistema complemento pode ser a causa da exacerbação da doença. O presente artigo tem por objetivo revisar os principais aspectos relacionados à regulação do sistema complemento na artrite reumatóide, a fim de propiciar uma melhor compreensão do potencial papel desse sistema na fisiopatologia da doença. / Rheumatoid arthritis (RA) is an autoimmune disease associated with polyarticular inflammatory synovitis that affects mainly the peripheral joints. About 1% of the world population is affected, and it is two to three times more prevalent in women. RA has a complex and multifactorial pathogenesis. The rheumatoid synovium acquires proliferative characteristics, forming the pannus, and invades cartilage and bone, leading to the destruction of normal architecture and loss of function. In several models of autoimmune diseases, the absence or decreased expression of complement regulatory proteins has been observed, associated with worsening of the clinical symptoms, and many of these cases the over-activation of the complement system is the cause of disease exacerbation. This article aims to review the main aspects related to regulation of the complement system in rheumatoid arthritis in order to provide a better understanding of the potential role of this system in the pathophysiology of the disease.

Artrite reumatóide

Proteínas do sistema de complemento

Antígenos CD55

Antígenos CD59

Antígenos CD46

Receptores de complemento 3b

Rheumatoid arthritis

Complement system

Complement regulatory protein

Expressão de proteínas reguladoras do complemento CD55/CD59/CD35/CD46 em pacientes com artrite reumatóide

Piccoli, Amanda Kirchner

January 2011

A Artrite Reumatóide (AR) é uma doença autoimune associada a poliartropatia inflamatória que acomete principalmente as articulações periféricas. Cerca de 1% da população mundial é afetada, sendo duas a três vezes mais prevalente em mulheres. Apresenta uma patogênese complexa e multifatorial. A sinóvia das articulações afetadas é infiltrada por linfócitos T e B, macrófagos e granulócitos. A sinóvia reumatóide adquire características proliferativas, formando o pannus, e invade a cartilagem articular e o osso, levando à destruição da arquitetura normal da articulação e perda de função. Em vários modelos de doenças autoimunes, a ausência ou diminuição da expressão de proteínas reguladoras do complemento tem sido observada, associada com o agravamento dos sintomas clínicos, sendo que, muitos destes casos, a superativação do sistema complemento pode ser a causa da exacerbação da doença. O presente artigo tem por objetivo revisar os principais aspectos relacionados à regulação do sistema complemento na artrite reumatóide, a fim de propiciar uma melhor compreensão do potencial papel desse sistema na fisiopatologia da doença. / Rheumatoid arthritis (RA) is an autoimmune disease associated with polyarticular inflammatory synovitis that affects mainly the peripheral joints. About 1% of the world population is affected, and it is two to three times more prevalent in women. RA has a complex and multifactorial pathogenesis. The rheumatoid synovium acquires proliferative characteristics, forming the pannus, and invades cartilage and bone, leading to the destruction of normal architecture and loss of function. In several models of autoimmune diseases, the absence or decreased expression of complement regulatory proteins has been observed, associated with worsening of the clinical symptoms, and many of these cases the over-activation of the complement system is the cause of disease exacerbation. This article aims to review the main aspects related to regulation of the complement system in rheumatoid arthritis in order to provide a better understanding of the potential role of this system in the pathophysiology of the disease.

Artrite reumatóide

Proteínas do sistema de complemento

Antígenos CD55

Antígenos CD59

Antígenos CD46

Receptores de complemento 3b

Rheumatoid arthritis

Complement system

Complement regulatory protein

EFEITOS DO ORGANOFOSFORADO PARATIONATO METÍLICO SOBRE O EIXO HIPOTÁLAMO-HIPÓFISE-INTERRENAL EM PEIXE-ZEBRA (Danio rerio) / EFFECTS OF ORGANOPHOSPHATE METHYL-PARATHION ON THE HYPOTHALAMIC-PITUITARY-INTERRENAL AXIS IN ZEBRAFISH (DANIO RERIO)

Rosa, João Gabriel Santos

18 April 2013

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Organophosphorus compounds such as methyl-parathion are used in the various stages of production to control pests both in agricultural activity as in aquaculture. The mechanism of action of this type of compound is the inhibition of the enzyme acetylcholinesterase. The zebrafish (Danio rerio) has been increasingly used as an experimental model in varied fields such as development, genetics and pharmacological research. The methyl-parathion has been characterized as endocrine disruptor of the hypothalamic-pituitary-interrenal axis (HHI). An experiment was carried out of 96 hours of exposure of adult fish to the substance tested, at the concentration of 5.2 mg/L. Was evaluated the whole-body cortisol level in order to measure the endocrine response to a stressful event. Were also investigated the gene expression of glucocorticoid receptor (GR), steroidogenic acute regulatory protein (StAR) and heat shock protein 70 (HSP 70). Fish exposed that have undergone a stressor event demonstrated low levels of cortisol. In addition, the fish stressed and exposed to agro-chemical showed a decreased expression of the StAR, HSP 70 and GR genes. The data indicate that exposure to methyl-parathion causes a decrease in the ability to respond appropriately to a stressor. Fish that have an inability to produce a satisfactory answer by the HHI axis are not able to make the necessary metabolic and ion adjustments for recovery the homeostasis, getting vulnerable to stress caused by aquaculture practices or environmental changes. / Compostos organofosforados como o parationato metílico são utilizados nas diversas etapas de produção para controlar pragas tanto na atividade agrícola como na aquicultura. O mecanismo de ação desse tipo de composto é a inibição da enzima acetilcolinesterase. O peixe-zebra (Danio rerio) vem sendo cada vez mais usado como modelo experimental em variados campos, como desenvolvimento, genética e pesquisa farmacológica. O parationato metílico já foi caracterizado como interruptor endócrino do eixo hipotálamo-hipófise-interrenal (HHI). Foi realizado um experimento de 96 horas de exposição de peixes adultos à substância testada, na concentração de 5,2 mg/L. Foi avaliado o nível de cortisol de corpo inteiro, visando medir a resposta endócrina a um evento estressor. Também foram investigadas a expressão dos genes do receptor de glicocorticoide (GR), da proteína regulatória de esteroidogenese aguda (StAR) e a proteína do choque térmico 70 (HSP 70). Os peixes expostos que foram submetidos a um evento estressor demonstraram baixos níveis de cortisol de corpo inteiro. Além disso, os peixes estressados e expostos ao agroquímico apresentaram uma diminuição da expressão dos genes GR, StAR e HSP 70. Os dados indicam que a exposição ao parationato metílico provoca uma diminuição da capacidade de responder adequadamente a um evento estressor. Peixes que possuem uma incapacidade em produzir uma resposta satisfatória do eixo HHI, não são capazes de realizar os ajustes iônicos e metabólicos necessários à recuperação da homeostase, ficando vulneráveis ao estresse causado pelas práticas aquícolas ou por alterações ambientais.

Danio rerio

Parationato metílico

Cortisol

Receptor de glicocorticoide

Proteína do choque térmico 70

Expressão

Genes

Danio rerio

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA