Rôle de Wnt5a dans la fonction lysosomale, l’accumulation intracellulaire du cholestérol, et l’athérosclérose / Role of Wnt5a in lysosoma l function : intracellular cholesterol accumulation and atherosclerosis

Awan, Sara

31 May 2019

Nous avons identifié, un ligand de Wnt, Wnt5a, comme faisant partie intégrante du complexe mTORC1, qui régule la fonction lysosomal et favorise le trafic intracellulaire du cholestérol. En diminuant l’activité de mTORC1 et en activant l’axe autophagie-lysosome, Wnt5a adapte les concentration du cholestérol intracellualire aux besoins de la cellule. Wnt5a favorise l’export du cholestérol depuis les endosomal/lysosomal (LELs) vers le réticulum endoplasmique (RE), limite l’accumulation intracellulaire du cholestérol, et protège contre l’athérosclérose. D’un point de vue mécanistique, Wnt5a se lie aux membranes riches en cholestérol et interagit spécifiquement avec la protéine membranaire Niemann-Pick C1 (NPC1), la protéine soluble Niemann-Pick C2 (NPC2), deux protéines lysosomales qui régulent l’export du cholestérol à partir des LELs. En conséquence, l’absence de Wnt5a inhibe la fonction lysosomale et l’autophagie, ainsi que la sortie du cholesterol hors des LELs. Ceci resulte en l’accumulation de larges corps d’inclusion intracellulaires, de larges LELs riches en cholestérol, d’une diminution du cholestérol au niveau du RE. / We identified the Wnt ligand, Wnt5a, as a member of the nutrient/energy/stress sensor, mTORC1 scaffolding complex, which drives lysosomal function and promotes cholesterol trafficking. By decreasing mTORC1 activity and by activating the autophagy-lysosomal axis, Wnt5a senses changes in dietary cholesterol supply, promotes endosomal/lysosomal (LELs) cholesterol egress to the endoplasmic reticulum (ER), and protects against atherosclerosis. Moreover, Wnt5a binds cholesterol-rich membranes and specifically interacts with two lysosomal proteins Niemann–Pick C1 and Niemann–Pick C2 that regulate cholesterol export from LELs. Consequently, absence of Wnt5a decoupled mTORC1 from variations in LELs sterol levels, and this resulted in accumulation of large intracellular inclusion bodies, large LELs and low ER cholesterol.

Wnt5a

MTORC1

LELs

Npc1&2

Wnt5a

MTORC1

LELs

Npc1&2

572.8

615.7

Visual evoked potentials of Niemann-Pick type C1 mice reveal an impairment of the visual pathway that is rescued by 2-hydroxypropyl-ẞ-cyclodextrin

Palladino, G., Loizzo, S., Fortuna, A., Canterini, S., Palombi, F., Erickson, R. P., Mangia, F., Fiorenza, M. T.

January 2015

BACKGROUND: The lysosomal storage disorder, Niemann Pick type C1 (NPC1), presents a variable phenotype including neurovisceral and neurological symptoms. 2-Hydroxypropyl-ss-cyclodextrin (HPssCD)-based therapies are presently the most promising route of intervention. While severe cerebellar dysfunction remains the main disabling feature of NPC1, sensory functions including auditory and olfactory ones are also affected. Morphological and functional anomalies of Npc1 (-/-) mouse retina have also been observed, although the functional integrity of the visual pathway from retina to visual cortex is still unsettled. We have addressed this issue by characterizing the visual evoked potential (VEP) response of Npc1 (-/-) mice and determining if/how HPssCD administration influences the VEPs of both Npc1 (-/-) and Npc1 (+/+) mice. METHODS: VEP elicited by a brief visual stimulus were recorded from the scalp overlying the visual cortex of adult (PN, postnatal days 60, 75, 85 and 100) Npc1 (+/+) and Npc1 (-/-) mice that had received repeated injections of either HPssCD or plain vehicle. The first injection was given at PN4 and was followed by a second one at PN7 and thereafter by weekly injections up to PN49. Cholesterol accumulation and myelin loss were finally assessed by filipin staining and myelin basic protein immunohistochemistry, respectively. RESULTS AND DISCUSSION: We have found that the transmission of visual signals from retina to visual cortex is negatively influenced by the loss of Npc1 function. In fact, the VEP response of Npc1 (-/-) mice displayed a highly significant increase in the latency compared to that of Npc1 (+/+) mice. HPssCD administration fully rescued this defect and counteracted the cholesterol accumulation in retinal ganglion cells and dorsal lateral geniculate nucleus neurons, as well as the myelin loss in optic nerve fibers and axons projecting to the visual cortex observed in of Npc1 (-/-) mice. By contrast, HPssCD administration had no effect on the VEP response of Npc1 (+/+) mice, further strengthening the treatment efficacy. CONCLUSIONS: This study pinpoints the analysis of VEP response as a potentially accurate and non-invasive approach to assess neural activity and visual information processing in NPC1 patients, as well as for monitoring the progression of the disease and assessing the efficacy of potential therapies.

Lysosomal diseases

Rare disease

Npc1

HPßCD

Cholesterol

Neurodegeneration

Dysmyelination

Phosphatidylcholine Metabolism and ACAT Affect the Trafficking of LDL-derived Free Cholesterol in Cholesterol-loaded CHO Cells

Landry, Chandra

17 July 2012

In vitro studies have shown that the major membrane phospholipid phosphatidylcholine (PC) can positively influence the incorporation of cholesterol in lipid membranes. The influence of PC on the cellular trafficking of LDL-derived free cholesterol was investigated. Sterol regulatory-defective (SRD)-4 cells are Chinese hamster ovary (CHO)-derived fibroblasts that display vastly elevated rates for the synthesis and catabolism of PC. SRD-4 cells harbor two known gene mutations: a mutation in the functional allele for SCAP, resulting in defective feedback suppression of cholesterol biosynthesis; and a loss-of-function mutation in the functional allele for acyl-CoA:cholesterol acyl transferase (ACAT), an endoplasmic reticulum (ER)-localized enzyme that esterifies free cholesterol. Incubation of SRD-4 cells with 50 µg/ml low density lipoprotein (LDL) for 18 h resulted in lysosomal accumulation of free cholesterol as revealed by filipin staining. This accumulation was not evident following LDL treatment of parental CHO7 cells, and was blunted in SRD-2 cells that express a constitutively-active form of SREBP-2 and overproduce cholesterol but have functional ACAT activity. Treatment of SRD-2 cells with LDL in the presence of an ACAT inhibitor 58-035 resulted in robust lysosomal cholesterol accumulation that was reversible upon drug washout, supporting that cholesterol trafficking in cholesterol-loaded cells is dependent on ACAT activity and, more specifically, ER free cholesterol levels. Lysosomal accumulation of LDL-derived cholesterol was prevented in SRD-4 cells supplemented with lyso-PC (50 µM), a substrate for PC synthesis through the reacylation pathway, and also in cells treated with bromoenol lactone (BEL), an inhibitor of phospholipase A2 implicated in bulk PC turnover. In a counter study, lysosomal LDL-derived cholesterol accumulation was induced in parental CHO-7 cells using R-propranolol, which inhibits the conversion of phosphatidic acid to diacylglycerol (DAG), a substrate in the CDP-choline pathway. This blockage was also relieved through co-treatment with lyso-PC. These studies support that PC to free cholesterol ratios in downstream organellar membranes can influence cholesterol trafficking out of lysosomal compartments in cholesterol-loaded cells.

Cholesterol

Filipin

NPC1

LDLR

Phosphatitylcholine

Lysosomal Loading

Lipid Droplet

Molekulárně genetická analýza u Niemann-Pickovy choroby typu C / Molecular genetic analysis in Niemann-Pick type C disease

Marešová, Ivona

January 2013

Niemann-Pick disease type C (NPC) is a rare, severe disease with autosomal recessive inheritance. Disease is caused by pathogenic mutations located in genes NPC1/NPC2. These genes encode lysosomal non enzymatic NPC1/NPC2 proteins that are part of lipid transport. As a result of malfunction of these proteins intracellular accumulation of lipids occurs, in particular free cholesterol and glycolipids. Causal therapy is currently still unsatisfactory therefore new therapies are evolved. However these therapies depend on whether the patient cells contain at least residual amount of transcript NPC1 gene. In a group of patiens, for which a fibroblast culture was available, I analyzed the effect of pathogenic mutations on the expression level of the transcript. Results showed that for all pathogenic mutations transcript level is low, but detectable. Moreover, I characterized the structure of the NPC1 gene promoter. By sequence analysis I found polymorphisms rs8099071, rs28403610, rs2981422, rs1652354, rs1788774, rs1788772 in promoter. On the basis of the composition of polymorphisms in individual patiens, I estimate six different haplotypes. I performed mutation analysis in DNA of recently diagnosed patient. I found only one pathogenic mutation p.I1061T (c.3182T> C) in the NPC1 gene. Therefore I tested...

Phosphatidylcholine Metabolism and ACAT Affect the Trafficking of LDL-derived Free Cholesterol in Cholesterol-loaded CHO Cells

Landry, Chandra

17 July 2012

In vitro studies have shown that the major membrane phospholipid phosphatidylcholine (PC) can positively influence the incorporation of cholesterol in lipid membranes. The influence of PC on the cellular trafficking of LDL-derived free cholesterol was investigated. Sterol regulatory-defective (SRD)-4 cells are Chinese hamster ovary (CHO)-derived fibroblasts that display vastly elevated rates for the synthesis and catabolism of PC. SRD-4 cells harbor two known gene mutations: a mutation in the functional allele for SCAP, resulting in defective feedback suppression of cholesterol biosynthesis; and a loss-of-function mutation in the functional allele for acyl-CoA:cholesterol acyl transferase (ACAT), an endoplasmic reticulum (ER)-localized enzyme that esterifies free cholesterol. Incubation of SRD-4 cells with 50 µg/ml low density lipoprotein (LDL) for 18 h resulted in lysosomal accumulation of free cholesterol as revealed by filipin staining. This accumulation was not evident following LDL treatment of parental CHO7 cells, and was blunted in SRD-2 cells that express a constitutively-active form of SREBP-2 and overproduce cholesterol but have functional ACAT activity. Treatment of SRD-2 cells with LDL in the presence of an ACAT inhibitor 58-035 resulted in robust lysosomal cholesterol accumulation that was reversible upon drug washout, supporting that cholesterol trafficking in cholesterol-loaded cells is dependent on ACAT activity and, more specifically, ER free cholesterol levels. Lysosomal accumulation of LDL-derived cholesterol was prevented in SRD-4 cells supplemented with lyso-PC (50 µM), a substrate for PC synthesis through the reacylation pathway, and also in cells treated with bromoenol lactone (BEL), an inhibitor of phospholipase A2 implicated in bulk PC turnover. In a counter study, lysosomal LDL-derived cholesterol accumulation was induced in parental CHO-7 cells using R-propranolol, which inhibits the conversion of phosphatidic acid to diacylglycerol (DAG), a substrate in the CDP-choline pathway. This blockage was also relieved through co-treatment with lyso-PC. These studies support that PC to free cholesterol ratios in downstream organellar membranes can influence cholesterol trafficking out of lysosomal compartments in cholesterol-loaded cells.

Cholesterol

Filipin

NPC1

LDLR

Phosphatitylcholine

Lysosomal Loading

Lipid Droplet

Phosphatidylcholine Metabolism and ACAT Affect the Trafficking of LDL-derived Free Cholesterol in Cholesterol-loaded CHO Cells

Landry, Chandra

January 2012

In vitro studies have shown that the major membrane phospholipid phosphatidylcholine (PC) can positively influence the incorporation of cholesterol in lipid membranes. The influence of PC on the cellular trafficking of LDL-derived free cholesterol was investigated. Sterol regulatory-defective (SRD)-4 cells are Chinese hamster ovary (CHO)-derived fibroblasts that display vastly elevated rates for the synthesis and catabolism of PC. SRD-4 cells harbor two known gene mutations: a mutation in the functional allele for SCAP, resulting in defective feedback suppression of cholesterol biosynthesis; and a loss-of-function mutation in the functional allele for acyl-CoA:cholesterol acyl transferase (ACAT), an endoplasmic reticulum (ER)-localized enzyme that esterifies free cholesterol. Incubation of SRD-4 cells with 50 µg/ml low density lipoprotein (LDL) for 18 h resulted in lysosomal accumulation of free cholesterol as revealed by filipin staining. This accumulation was not evident following LDL treatment of parental CHO7 cells, and was blunted in SRD-2 cells that express a constitutively-active form of SREBP-2 and overproduce cholesterol but have functional ACAT activity. Treatment of SRD-2 cells with LDL in the presence of an ACAT inhibitor 58-035 resulted in robust lysosomal cholesterol accumulation that was reversible upon drug washout, supporting that cholesterol trafficking in cholesterol-loaded cells is dependent on ACAT activity and, more specifically, ER free cholesterol levels. Lysosomal accumulation of LDL-derived cholesterol was prevented in SRD-4 cells supplemented with lyso-PC (50 µM), a substrate for PC synthesis through the reacylation pathway, and also in cells treated with bromoenol lactone (BEL), an inhibitor of phospholipase A2 implicated in bulk PC turnover. In a counter study, lysosomal LDL-derived cholesterol accumulation was induced in parental CHO-7 cells using R-propranolol, which inhibits the conversion of phosphatidic acid to diacylglycerol (DAG), a substrate in the CDP-choline pathway. This blockage was also relieved through co-treatment with lyso-PC. These studies support that PC to free cholesterol ratios in downstream organellar membranes can influence cholesterol trafficking out of lysosomal compartments in cholesterol-loaded cells.

Cholesterol

Filipin

NPC1

LDLR

Phosphatitylcholine

Lysosomal Loading

Lipid Droplet

Niemann pick tipo C: caracterização fenotípica e genotípica de uma casuística brasileira / Niemann Pick type C: Phenotypic and genotypic characterization of a Brazilian series

Almeida, Marcela Lopes de

23 November 2016

Niemann-Pick tipo C (NPC) é uma doença de depósito lisossomal, ocasionada por alterações no tráfico de colesterol não esterificado, decorrente de alterações bialélicas nos genes NPC1 ou NPC2, ambos definindo uma doença autossômica recessiva, progressiva e irreversível, caracterizada por manifestações viscerais, neurológicas e psiquiátricas, não necessariamente combinadas. Com o propósito de descrever as características fenotípicas e genotípicas de pacientes com NPC, objetivou-se relatar dados demográficos, formas clínicas classificadas por idade, sinais e sintomas neurológicos e psiquiátricos, achados de ressonância magnética (RM) de encéfalo e ultrassonografia de abdome, assim como teste de filipin, mutações observadas e o tratamento com N-butyldeoxynojirimycin (Miglustat). De uma casuística de 12 pacientes atendidos entre 2000-2014, por revisão de prontuários, no Ambulatório de Neurogenética do Hospital das Clínicas da Faculdade de Medicina de Ribeirão Preto, havia 7 mulheres e 5 homens, idade média de 20 anos (entre 2 e 42), sendo dez pacientes da etnia branca e dois mulatos, procedentes de 3 estados brasileiros: São Paulo, Mato Grosso do Sul e Minas Gerais. As formas clínicas identificadas foram infantil, juvenil e adulto. A idade do primeiro sintoma neurológico ocorreu entre 1 e 27 anos (media 9,5). Dentre os achados viscerais, dois pacientes encontravam-se assintomáticos, os demais apresentaram icterícia prolongada/colestase, hepatomegalia e esplenomegalia. Todos os pacientes apresentaram em diferentes momentos da evolução manifestações neuropsiquiátricas, tais como: paralisia do olhar vertical, ataxia/quedas, epilepsia, mioclonias, distonia, disartria, disfagia, fraqueza muscular, espasticidade, declínio cognitivo/demência, sintomas psicóticos, atraso escolar, distúrbio de comportamento, cataplexia gelástica e hipotonia neonatal. A idade de diagnóstico variou de 0 a 41 anos, com uma média de 14,5 anos. O tempo entre a idade do primeiro sintoma neurológico e o diagnóstico da doença variou de 0 a 14 anos, tempo médio de 5,3 anos. O teste de Filipin demonstrou seis resultados positivos e seis variantes. A RM de encéfalo apresentou três diferentes tipos de alteração: atrofia cerebral em 6 casos, atrofia cerebelar e desmielinização em 7. A ultrassonografia de Abdome resultou em três alterações: hepatomegalia em 8, esplenomegalia em 10 e hepatoesplenomegalia em 8. O resultado do teste genético molecular em 11 pacientes evidenciou alterações no gene NPC1 e uma paciente não possuía o resultado. A mutação c.3104C>T foi a mais frequente, em oito pacientes; c.3548G>A, de significado incerto, em um paciente, e, as demais mutações encontradas: c.3493G>A, c.3019C>G. O tratamento com N-butyl deoxynojirimycin (Miglustat) foi realizado por todos os pacientes, o tempo entre o diagnóstico e o início da medicação variou de 0 a 9 anos, média de 2,9 anos. Concluímos que o registro da doença NPC deve ser feito através de uma coleta de dados detalhada e contínua, pois sua heterogeneidade fenotípica e genotípica sugerem um número subestimado de casos, não só por sua raridade, mas também pelo desconhecimento da doença, já que há poucos grupos estudados e publicados. O seu reconhecimento precoce, associado ao adequado manejo clínico, podem retardar a progressão implacável da doença e aumentar a expectativa de vida dos pacientes. / Niemann-Pick type C (NPC) is a lysosomal storage disease caused by abnormal unesterified cholesterol trafficking, resulting from biallelic changes in NPC1 or NPC2 genes, both defining an autosomal recessive progressive and irreversible disease characterized by visceral, neurological and psychiatric manifestations, not necessarily combined. In order to describe the phenotypic and genotypic characteristics of patients with NPC, this work aimed to report demographic data, clinical forms classified by age, neurological and psychiatric signs and symptoms, brain magnetic resonance imaging (MRI) and abdominal ultrasound findings, Filipin test, the gene mutations, and the treatment with N-butyldeoxynojirimycin (Miglustat). A series of 12 patients were studied, treated between 2000-2014, by review of medical records of the Neurogenetics Clinic at the Hospital of Clinics, Ribeirão Preto Medical School, Brazil. There were 7 women and 5 men, mean age 20 years (from 2 to 42); 10 caucasian and 2 mulattos, coming from three Brazilian states: São Paulo, Mato Grosso do Sul and Minas Gerais. Infantile, Juvenile and adult clinical forms were identified. The age of the first neurological or psichiatric symptoms occurred between 1 and 27 years (mean 9.5). Among the visceral findings, two patients were asymptomatic, and the others had prolonged jaundice / cholestasis, hepatomegaly and splenomegaly. All patients had at different times of evolution symptoms, such as paralysis of vertical gaze, ataxia/falls, epilepsy, myoclonus, dystonia, dysarthria, dysphagia, muscle weakness, spasticity, cognitive decline/dementia, psychotic symptoms, school delay, disorders behavior, gelastic cataplexy and neonatal hypotonia. Age at diagnosis ranged from 0 to 41 years, with a mean of 14.5 years. The interval between the first signs of the disease and the onset of treatment ranged from zero to 14 years, with an average of 5.3 years. Filipin test resulted six positive and six variant form. The MRI scans showed three different types of changes: brain atrophy in 6 cases, cerebellar atrophy in 7 and demyelination in 7. Abdominal ultrasound revealed 8 patients with hepatomegaly, 10 with splenomegaly and 8 hepatosplenomegaly. The results of the molecular genetic testing on 11 patients showed changes in NPC1 gene and a patient did not have the result. Mutation c.3104C>T was more frequent in eight patients; c.3548G>A, of uncertain significance in a patient, and other mutations found: c.3493G>A and c.3019C>G. Treatment with N-butyl deoxynojirimycin (Miglustat) was carried by all patients; the time between diagnosis and beginning of the treatment ranged from 0 to 9, with an average of 2.9 years. We conclude that NPC disease registry should be done through a collection of detailed and continuous data because their phenotypic and genotypic heterogeneity suggest an underestimated number of cases, not only for its rarity but also by unawareness about the disease, and the fact that there are few published studies. The early recognition, coupled with appropriate clinical management, may slow the progression of the disease and increase life expectancy of patients.

1. Niemann Pick type C

1.Niemann Pick tipo C

2. Fenótipo

2. Phenotype

3. Genótipo

3. Genotype

4. NPC1

4. NPC1

5. Miglustat

5. Miglustat

Niemann pick tipo C: caracterização fenotípica e genotípica de uma casuística brasileira / Niemann Pick type C: Phenotypic and genotypic characterization of a Brazilian series

Marcela Lopes de Almeida

23 November 2016

Niemann-Pick tipo C (NPC) é uma doença de depósito lisossomal, ocasionada por alterações no tráfico de colesterol não esterificado, decorrente de alterações bialélicas nos genes NPC1 ou NPC2, ambos definindo uma doença autossômica recessiva, progressiva e irreversível, caracterizada por manifestações viscerais, neurológicas e psiquiátricas, não necessariamente combinadas. Com o propósito de descrever as características fenotípicas e genotípicas de pacientes com NPC, objetivou-se relatar dados demográficos, formas clínicas classificadas por idade, sinais e sintomas neurológicos e psiquiátricos, achados de ressonância magnética (RM) de encéfalo e ultrassonografia de abdome, assim como teste de filipin, mutações observadas e o tratamento com N-butyldeoxynojirimycin (Miglustat). De uma casuística de 12 pacientes atendidos entre 2000-2014, por revisão de prontuários, no Ambulatório de Neurogenética do Hospital das Clínicas da Faculdade de Medicina de Ribeirão Preto, havia 7 mulheres e 5 homens, idade média de 20 anos (entre 2 e 42), sendo dez pacientes da etnia branca e dois mulatos, procedentes de 3 estados brasileiros: São Paulo, Mato Grosso do Sul e Minas Gerais. As formas clínicas identificadas foram infantil, juvenil e adulto. A idade do primeiro sintoma neurológico ocorreu entre 1 e 27 anos (media 9,5). Dentre os achados viscerais, dois pacientes encontravam-se assintomáticos, os demais apresentaram icterícia prolongada/colestase, hepatomegalia e esplenomegalia. Todos os pacientes apresentaram em diferentes momentos da evolução manifestações neuropsiquiátricas, tais como: paralisia do olhar vertical, ataxia/quedas, epilepsia, mioclonias, distonia, disartria, disfagia, fraqueza muscular, espasticidade, declínio cognitivo/demência, sintomas psicóticos, atraso escolar, distúrbio de comportamento, cataplexia gelástica e hipotonia neonatal. A idade de diagnóstico variou de 0 a 41 anos, com uma média de 14,5 anos. O tempo entre a idade do primeiro sintoma neurológico e o diagnóstico da doença variou de 0 a 14 anos, tempo médio de 5,3 anos. O teste de Filipin demonstrou seis resultados positivos e seis variantes. A RM de encéfalo apresentou três diferentes tipos de alteração: atrofia cerebral em 6 casos, atrofia cerebelar e desmielinização em 7. A ultrassonografia de Abdome resultou em três alterações: hepatomegalia em 8, esplenomegalia em 10 e hepatoesplenomegalia em 8. O resultado do teste genético molecular em 11 pacientes evidenciou alterações no gene NPC1 e uma paciente não possuía o resultado. A mutação c.3104C>T foi a mais frequente, em oito pacientes; c.3548G>A, de significado incerto, em um paciente, e, as demais mutações encontradas: c.3493G>A, c.3019C>G. O tratamento com N-butyl deoxynojirimycin (Miglustat) foi realizado por todos os pacientes, o tempo entre o diagnóstico e o início da medicação variou de 0 a 9 anos, média de 2,9 anos. Concluímos que o registro da doença NPC deve ser feito através de uma coleta de dados detalhada e contínua, pois sua heterogeneidade fenotípica e genotípica sugerem um número subestimado de casos, não só por sua raridade, mas também pelo desconhecimento da doença, já que há poucos grupos estudados e publicados. O seu reconhecimento precoce, associado ao adequado manejo clínico, podem retardar a progressão implacável da doença e aumentar a expectativa de vida dos pacientes. / Niemann-Pick type C (NPC) is a lysosomal storage disease caused by abnormal unesterified cholesterol trafficking, resulting from biallelic changes in NPC1 or NPC2 genes, both defining an autosomal recessive progressive and irreversible disease characterized by visceral, neurological and psychiatric manifestations, not necessarily combined. In order to describe the phenotypic and genotypic characteristics of patients with NPC, this work aimed to report demographic data, clinical forms classified by age, neurological and psychiatric signs and symptoms, brain magnetic resonance imaging (MRI) and abdominal ultrasound findings, Filipin test, the gene mutations, and the treatment with N-butyldeoxynojirimycin (Miglustat). A series of 12 patients were studied, treated between 2000-2014, by review of medical records of the Neurogenetics Clinic at the Hospital of Clinics, Ribeirão Preto Medical School, Brazil. There were 7 women and 5 men, mean age 20 years (from 2 to 42); 10 caucasian and 2 mulattos, coming from three Brazilian states: São Paulo, Mato Grosso do Sul and Minas Gerais. Infantile, Juvenile and adult clinical forms were identified. The age of the first neurological or psichiatric symptoms occurred between 1 and 27 years (mean 9.5). Among the visceral findings, two patients were asymptomatic, and the others had prolonged jaundice / cholestasis, hepatomegaly and splenomegaly. All patients had at different times of evolution symptoms, such as paralysis of vertical gaze, ataxia/falls, epilepsy, myoclonus, dystonia, dysarthria, dysphagia, muscle weakness, spasticity, cognitive decline/dementia, psychotic symptoms, school delay, disorders behavior, gelastic cataplexy and neonatal hypotonia. Age at diagnosis ranged from 0 to 41 years, with a mean of 14.5 years. The interval between the first signs of the disease and the onset of treatment ranged from zero to 14 years, with an average of 5.3 years. Filipin test resulted six positive and six variant form. The MRI scans showed three different types of changes: brain atrophy in 6 cases, cerebellar atrophy in 7 and demyelination in 7. Abdominal ultrasound revealed 8 patients with hepatomegaly, 10 with splenomegaly and 8 hepatosplenomegaly. The results of the molecular genetic testing on 11 patients showed changes in NPC1 gene and a patient did not have the result. Mutation c.3104C>T was more frequent in eight patients; c.3548G>A, of uncertain significance in a patient, and other mutations found: c.3493G>A and c.3019C>G. Treatment with N-butyl deoxynojirimycin (Miglustat) was carried by all patients; the time between diagnosis and beginning of the treatment ranged from 0 to 9, with an average of 2.9 years. We conclude that NPC disease registry should be done through a collection of detailed and continuous data because their phenotypic and genotypic heterogeneity suggest an underestimated number of cases, not only for its rarity but also by unawareness about the disease, and the fact that there are few published studies. The early recognition, coupled with appropriate clinical management, may slow the progression of the disease and increase life expectancy of patients.

1.Niemann Pick tipo C

2. Fenótipo

3. Genótipo

4. NPC1

5. Miglustat

1. Niemann Pick type C

2. Phenotype

3. Genotype

4. NPC1

5. Miglustat

Niemann-Pick C1 Is Essential for Ebola Virus Infection and a Target of Small Molecule Inhibitors

Bruchez, Anna

03 April 2013

Ebolavirus (EboV) is a highly pathogenic enveloped virus that causes outbreaks of zoonotic infection in Africa. The clinical symptoms are manifestations of the massive production of pro-inflammatory cytokines in response to infection and in many outbreaks, case fatality rate exceeds 75%. The unpredictable onset, ease of transmission, rapid progression of disease, high mortality and lack of effective vaccine or therapy have created a high level of public concern about EboV. Here we report the properties of a benzylpiperazine adamantane diamide-derived compound identified in a screen for inhibitors of EboV infection. We found that the inhibitor is specific, reversible, and that the target(s) for inhibition are present in cells and not in virus particles. The compound is not an inhibitor of acid pH-dependent endosome protease activity, which is required for EboV infection. Treatment of cells with this compound causes accumulation of cholesterol in late endosomes and lysosomes (LE/LY), suggesting it inhibits one or more proteins involved in regulation of cholesterol uptake into cells. Using mutant cell lines and informative derivatives of the inhibitor, we found the inhibitor target is the endosomal membrane protein Niemann-Pick C1 (NPC1). NPC1 is a polytopic LE/LY membrane protein that mediates uptake of lipoprotein-derived cholesterol into cells. We find that NPC1 is essential for EboV infection, that NPC1 binds to the protease-cleaved GP1 subunit of the EboV glycoprotein, and that the anti-viral compound inhibits infection by targeting NPC1 and interfering with binding to GP1. Furthermore, analysis of viral variants resistant to the anti-viral compound revealed that the residues which confer resistance are located on the surface of the receptor binding domain of GP1. Combined with the results of previous studies of GP structure and function, our findings support a model of EboV infection in which cleavage of the GP1 subunit by endosomal cathepsin proteases removes heavily glycosylated domains to expose the N-terminal domain, which is a ligand for NPC1 and regulates membrane fusion by the GP2 subunit. Thus, NPC1 is essential for EboV entry and a target for anti-viral therapy.

entry factor

inhibitor

Niemann-Pick C1

NPC1

small molecules

virology

ebolavirus

Étude du maintien et de la rupture de l'association symbiotique Cnidaire-Dinoflagellés : approches cellulaires et moléculaires chez l'anémone de mer Anemonia viridis / Study of the maintenance and the disruption of the Cnidarian-Dinoflagellate symbiotic association : cellular and molecular approaches in the sea anemone Anemonia viridis

Dani, Vincent

03 December 2015

L’endosymbiose trophique établie entre un hôte Cnidaire et ses symbiotes Dinoflagellés photosynthétiques est à l’origine du succès évolutif des écosystèmes coralliens. Les symbiotes sont internalisés par un mécanisme de phagocytose et maintenus dans les cellules du gastroderme de l'hôte. La symbiose est régie par un dialogue moléculaire intime entre les deux partenaires, interrompu lors de perturbations environnementales ou anthropiques, responsables du déclin mondial des récifs coralliens. Les objectifs de mon projet de recherche sont de définir les acteurs moléculaires localisés à l’interface symbiotique chez l’anémone de mer, Anemonia viridis. Premièrement, nous avons étudié les mécanismes cellulaires impliqués dans différents types de rupture de la symbiose et mis en évidence des phénomènes d’apoptose, nécrose et symbiophagie. Parallèlement, nous avons caractérisé chez l’anémone les gènes npc1 et npc2, impliqués chez les vertébrés dans le transport endosomal de stérols, et dont l’expression est modulée par l’état symbiotique. Nous avons pu montrer que le gène npc2d est issus d’une duplication et vraisemblablement d’une sub-fonctionnalisation et que les protéines NPC1 et NPC2 sont exprimées au voisinage des symbiotes. Nous proposons donc que la protéine NPC2-d soit utilisée comme marqueur de l’état de santé des Anthozoaires symbiotiques et que la protéine NPC1 soit un marqueur de la membrane périsymbiotique. Nous avons également développé un protocole afin d’identifier les protéines associées à l’interface symbiotique entre les deux partenaires. A terme, les cibles identifiées permettront une meilleure compréhension des mécanismes qui régulent la relation symbiotique. / The trophic endosymbiosis interaction between a cnidarian host and its photosynthetic dinoflagellatessymbionts form the basis of coral reef ecosystems. Cnidarians host their symbionts in gastrodermis cells, in a phagocytosis-derived vacuole. Establishment and maintenance of the symbiotic interaction depend on an intimate molecular communication between the two partners. However, environmental and/or anthropogenic disturbances can lead to the breakdown of the symbiotic association, which is responsible for the worldwide decline of coral reefs. The main objectives of my research project are to improve the knowledge regarding symbiosis maintenance and disruption mechanisms, but also to define the molecular key players involved at the symbiotic interface in the sea anemone, Anemonia viridis. First, we have described the cellular mechanisms involved in the different types of symbiosis breackdown. Meanwhile, the characterization of npc1 and npc2 genes (involved in endosomal sterol transport), showed a duplication and a sub-functionalization of the npc2d gene. Both NPC1 and NPC2 proteins are expressed around symbionts. We therefore suggest that the duplicated protein NPC2-d is a biomarker of symbiosis health and that NPC1 protein is a marker of the perisymbiotic membrane. We then developed a protocol to characterize the proteome of the symbiotic interface between the two symbiotic partners. The newly-identified symbiotic key players will increase the general knowledge on the symbiotic interaction and its regulation during both stable and bleaching conditions.

Symbiose

Cnidaire

Anemonia viridis

Symbiodinium

Blanchissement

NPC1

NPC2

Stérol

Cycle cellulaire

Protéomique

Apoptose

Nécrose

Autophagie

Symbiosis

Stress response

Cnidarian

Anemonia viridis

Symbiodinium

Bleaching

NPC1

NPC2

Cell cycle

Sterol

Proteomics

Apoptosis

Necrosis

Autophagy