Modulating the heat-shock response : a potential therapy for lysosomal storage disorders

Gray, James Andrew Russell

January 2014

Lysosomal storage disorders (LSDs) comprise a broad disease group of inherited metabolic disorders, the majority of which are associated with CNS pathology, significant disability and reductions in life expectancy. LSDs are caused by mutations in genes encoding proteins critical for the correct functioning of lysosomal homeostasis. The disruption of lysosomal homeostasis results in the abnormal accumulation of lysosomal content, initiating intracellular pathological events, including calcium dysregulation and lysosomal membrane permeablisation (LMP) affecting cell function and inducing cellular death mechanisms. These pathological events are particularly damaging within the CNS, due to its limited capacity for regeneration. Despite intensive scientific research into these disorders, and an increased understanding of the pathological events underlying these diseases, effective treatments are still lacking for most LSDs. Several therapeutic approaches have been investigated in the last 30 years, including enzyme replacement therapy, bone marrow transplantation, substrate reduction therapy, chemical chaperones and gene therapy. However, the CNS pathology in many of the LSDs remains unaddressed due to the restricted ability of many therapeutic agents to cross the blood-brain barrier. The heat-shock response (HSR) is an emerging element involved in the pathogenesis of a variety of disorders. The HSR is a physiological response to a wide range of cellular stresses. It functions to protect the cell from the aggregation of misfolded proteins and LMP. Of the HSR, several key players are integral to mounting a heat shock response, these include the heat-shock factor 1 (HSF-1) and HSP70. In this thesis, we provide proof-of-principle for the use of recombinant HSP70, and the small molecule up-regulator of the HSR, arimoclomol in treatment of a range of LSDs. We show that HSP70 is able to access the CNS, and increase the degradative capacity of lysosomal hydrolases. This provides differential behavioural, biochemical and survival effects in LSD models of Niemann-Pick type C, Sandhoff and Fabry disease. Additional studies using the HSF-1 upregulator arimoclomol, show a complex dose-response between the different models, possibly reflecting essential differences in the calcium dysregulation between these disease states.

616.3

Discontinuing Enzyme Replacement Therapy in Patients with Lysosomal Storage Diseases due to Significant Clinical Decline

Kim, A Rang, M.S.

17 October 2014

No description available.

Genetics

Enzyme replacement therapy

Discontinuing enzyme replacement therapy

Lysosomal storage diseases

Significant clinical decline

Genetic counseling

The lysosomal degradation of heparan sulphate : a comparative study of the physical and catalytic properties of the heparan sulphate degradative enzymes / by Craig Freeman

Freeman, Craig

January 1991

Copies of author's previously published articles inserted / Includes bibliographic references / 2 v. (various foliations) : ill ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Summary: Studies the enzymology of some of the nine lysosomal exo-enzyme activities which act together to degrade the more highly sulphated regions of the glycosaminoglycans heparin and heparan sulphate. A deficiency of any one of these enzyme activities can result in one of the lysosomal storage disorders collectively known as the Mucopolysaccharidoses (MPS) / Thesis (Ph.D.)--University of Adelaide, Dept. of Paediatrics, 1991

574.87/4

616.3/9 20

Lysosomes.

Enzymes Synthesis.

Enzyme activation.

Metabolism, Inborn errors of.

Glycosaminoglycans Metabolism.

Lysosomal storage diseases.

Application of mass spectrometry in enzyme deficiency assay for newborn screening purpose /

Wang, Ding,

January 2006

Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 137-143).

Expression and Purification of Human Lysosomal β-galactosidase from Pichia Pastoris

Tarullo, Sarah E

07 November 2014

Lysosomal storage diseases are genetically inherited diseases caused by the dysfunction of lysosomal enzymes. In a normal cell, lysosomal enzymes cleave specific macromolecules as they are transported to the lysosome. However, in diseased cells, these lysosomal enzymes are either absent or malfunctioning, causing macromolecular substrates to accumulate, becoming toxic to the cell. Over fifty lysosomal storage diseases have been identified, collectively occurring in one out of 7,700 live births. We investigated the lysosomal enzyme β-galactosidase (β-gal). In order to study the biochemistry and enzymology of this protein a robust expression system was needed. The GLB1 gene has been inserted into Pichia pastoris creating high protein expressing cell lines. The result of this work will yield a high expression system for β-gal, which can then be subjected to structural and biochemical studies.

human β-galactosidase

lysosomal storage diseases

Pichia pastoris

protein expression

protein purification

biochemistry and molecular biology

Biochemistry

Molecular Biology

Structural Biology

Triagem neonatal para mucopolissacaridose tipo VI (Síndrome de Maroteux-Lamy) em uma região com alta incidência da doença

Bender, Fernanda

January 2011

A mucopolissacaridose tipo VI (MPS VI) ou Síndrome de Maroteaux-Lamy, é uma doença autossômica recessiva causada pela deficiência da enzima lisossomal Nacetilgalactosamina- 4-sulfatase (ARSB), a qual resulta no armazenamento lisossômico de dermatan sufato em vários tecidos e órgãos, dando origem a uma condição clínica de espectro variável, desde formas mais graves até formas mais atenuadas. O acúmulo de substrato não degradado causa um importante comprometimento ósseo, problemas respiratórios, baixa estatura e outros problemas, afetando os olhos, o coração e outros órgãos. Embora a síndrome de Maroteaux-Lamy não tenha uma incidência definida no Brasil, é reconhecido que, no nosso meio, é muito mais freqüente do que em outros países e regiões. Ela é particularmente freqüente no município de Monte Santo (Bahia), de aproximadamente 50.000 habitantes e onde já foram registrados 13 casos da doença. O diagnóstico é importante porque existe hoje um tratamento específico para a doença, a terapia de reposição enzimática (TRE), que vem mostrando bons resultados, especialmente quando iniciada em idade precoce. Descrevemos neste trabalho uma adaptação para microplacas da medida fluorimétrica da atividade de ARSB, e uma nova metodologia de análise molecular, ambas padronizados para sangue total impregnado em papel-filtro (STIPF). Essas técnicas foram desenvolvidas para incluir um teste de triagem neonatal para MPS VI, realizado nas amostras coletadas para o “teste do pezinho” nos neonatos do município de Monte Santo. Esses métodos permitem a detecção de pacientes com MPS VI e dos portadores da mutação específica que parece ser responsável pela alta incidência de MPS VI nessa localidade, uma vez que todos os pacientes lá diagnosticados apresentavam a mesma mutação (p.H178L) em homozigose. O trabalho foi desenvolvido em três etapas: na primeira foi realizada a padronização das técnicas em 100 amostras de STIPF; na segunda foi feito um teste-piloto com amostras de neonatos de Monte Santo, para avaliação das técnicas padronizadas e para o estudo de termoestabilidade em controles hígidos; na terceira foram analisadas amostras de STIPF de neonatos provenientes de Monte Santo pelos dois métodos (bioquímico e molecular). A padronização para realização da medida fluorimétrica da atividade enzimática de ARSB em microplacas indicou que o método é sensível, permitiu diferenciar os valores da população normal dos valores dos pacientes afetados e possibilitou a identificação segura de pacientes com MPS VI. Nas padronizações da análise molecular da mutação p.H178L em STIPF foi possível diferenciar os indivíduos normais, heterozigotos e homozigotos. Os resultados preliminares disponíveis indicam que o protocolo de triagem neonatal para MPS VI desenvolvido no presente trabalho poderá ser facilmente incorporado por laboratórios de referência, contribuindo para a detecção e tratamento precoce dos pacientes afetados por MPS VI. / Mucopolysaccharidosis type VI (MPS VI) or Maroteux-Lamy syndrome, is an autosomal recessive disorder caused by deficiency of the lysosomal enzyme Nacetylgalactosamine- 4-sulfatase (ARSB), which results in lysosomal storage of dermatan sufate in various tissues and organs and leads to a variable clinical spectrum, including more severe and attenuated forms. The accumulation of undegraded substrate causes bone involvement, respiratory problems and short stature, among other signs and symptoms, affecting the eyes, heart and other organs. Although the Maroteaux-Lamy syndrome does not have a defined incidence in Brazil, it is recognized that in our environment it is much more frequent than in other countries and regions. It is particularly frequent in the municipality of Monte Santo (Bahia) approximately 50,000 inhabitants and where there have already been 13 cases of the disease. The diagnosis is important because today there is a specific treatment for the disease, enzyme replacement therapy (ERT) which has shown good results, especially when started at an early age. We describe herein the standardization of the microplate fluorometric method for the ARSB test and a new methodology of molecular analysis, both adapted for dried blood spots (DBS) samples. These techniques were developed for inclusion of MPS VI in the newborn screening program that already tests the neonates of the city of Monte Santo, Bahia, Brasil for metabolic diseases. The methods were developed to detect patients with MPS VI and also for carriers, once the disease seems to have a high incidence (around 1:5.000) at this location. Also, all patients that have already been diagnosed in this city presented the same mutation (p.H178L) in homozygosis. The study was conducted in three stages: in the first was performed in 100 DBS samples an standardization of the techniques; in the second was done a pilot test with samples of newborns of Monte Santo, for the evaluation of standardized techniques and for the thermostability study in healthy controls; in the third were analyzed newborns samples from Monte Santo for both biochemical and molecular methods. Standardization on microplate for fluorimetric enzyme activity of the ARSB showed the assay sensitivity, differentiating values between normal and affected and allowing a reliable detection of patients with MPS VI. On the standardization for molecular analysis in DBS it was possible to differentiate the results for normal individuals, heterozygous and affected for the mutation p.H178L. The preliminary results available indicate that the protocol of neonatal screening for MPS VI developed in this work can be easily incorporated by reference laboratories, contributing to the detection and premature treatment of MPS VI affected patients.

Mucopolissacaridose VI

N-acetilgalactosamina-4-sulfatase

Tipagem e reações cruzadas sanguíneas

Mucopolysaccharidosis VI

Maroteux-lamy syndrome

Lysosomal storage diseases

Glycosaminoglycans

Dried blood spots

Newborn screening

Triagem neonatal para mucopolissacaridose tipo VI (Síndrome de Maroteux-Lamy) em uma região com alta incidência da doença

Bender, Fernanda

January 2011

A mucopolissacaridose tipo VI (MPS VI) ou Síndrome de Maroteaux-Lamy, é uma doença autossômica recessiva causada pela deficiência da enzima lisossomal Nacetilgalactosamina- 4-sulfatase (ARSB), a qual resulta no armazenamento lisossômico de dermatan sufato em vários tecidos e órgãos, dando origem a uma condição clínica de espectro variável, desde formas mais graves até formas mais atenuadas. O acúmulo de substrato não degradado causa um importante comprometimento ósseo, problemas respiratórios, baixa estatura e outros problemas, afetando os olhos, o coração e outros órgãos. Embora a síndrome de Maroteaux-Lamy não tenha uma incidência definida no Brasil, é reconhecido que, no nosso meio, é muito mais freqüente do que em outros países e regiões. Ela é particularmente freqüente no município de Monte Santo (Bahia), de aproximadamente 50.000 habitantes e onde já foram registrados 13 casos da doença. O diagnóstico é importante porque existe hoje um tratamento específico para a doença, a terapia de reposição enzimática (TRE), que vem mostrando bons resultados, especialmente quando iniciada em idade precoce. Descrevemos neste trabalho uma adaptação para microplacas da medida fluorimétrica da atividade de ARSB, e uma nova metodologia de análise molecular, ambas padronizados para sangue total impregnado em papel-filtro (STIPF). Essas técnicas foram desenvolvidas para incluir um teste de triagem neonatal para MPS VI, realizado nas amostras coletadas para o “teste do pezinho” nos neonatos do município de Monte Santo. Esses métodos permitem a detecção de pacientes com MPS VI e dos portadores da mutação específica que parece ser responsável pela alta incidência de MPS VI nessa localidade, uma vez que todos os pacientes lá diagnosticados apresentavam a mesma mutação (p.H178L) em homozigose. O trabalho foi desenvolvido em três etapas: na primeira foi realizada a padronização das técnicas em 100 amostras de STIPF; na segunda foi feito um teste-piloto com amostras de neonatos de Monte Santo, para avaliação das técnicas padronizadas e para o estudo de termoestabilidade em controles hígidos; na terceira foram analisadas amostras de STIPF de neonatos provenientes de Monte Santo pelos dois métodos (bioquímico e molecular). A padronização para realização da medida fluorimétrica da atividade enzimática de ARSB em microplacas indicou que o método é sensível, permitiu diferenciar os valores da população normal dos valores dos pacientes afetados e possibilitou a identificação segura de pacientes com MPS VI. Nas padronizações da análise molecular da mutação p.H178L em STIPF foi possível diferenciar os indivíduos normais, heterozigotos e homozigotos. Os resultados preliminares disponíveis indicam que o protocolo de triagem neonatal para MPS VI desenvolvido no presente trabalho poderá ser facilmente incorporado por laboratórios de referência, contribuindo para a detecção e tratamento precoce dos pacientes afetados por MPS VI. / Mucopolysaccharidosis type VI (MPS VI) or Maroteux-Lamy syndrome, is an autosomal recessive disorder caused by deficiency of the lysosomal enzyme Nacetylgalactosamine- 4-sulfatase (ARSB), which results in lysosomal storage of dermatan sufate in various tissues and organs and leads to a variable clinical spectrum, including more severe and attenuated forms. The accumulation of undegraded substrate causes bone involvement, respiratory problems and short stature, among other signs and symptoms, affecting the eyes, heart and other organs. Although the Maroteaux-Lamy syndrome does not have a defined incidence in Brazil, it is recognized that in our environment it is much more frequent than in other countries and regions. It is particularly frequent in the municipality of Monte Santo (Bahia) approximately 50,000 inhabitants and where there have already been 13 cases of the disease. The diagnosis is important because today there is a specific treatment for the disease, enzyme replacement therapy (ERT) which has shown good results, especially when started at an early age. We describe herein the standardization of the microplate fluorometric method for the ARSB test and a new methodology of molecular analysis, both adapted for dried blood spots (DBS) samples. These techniques were developed for inclusion of MPS VI in the newborn screening program that already tests the neonates of the city of Monte Santo, Bahia, Brasil for metabolic diseases. The methods were developed to detect patients with MPS VI and also for carriers, once the disease seems to have a high incidence (around 1:5.000) at this location. Also, all patients that have already been diagnosed in this city presented the same mutation (p.H178L) in homozygosis. The study was conducted in three stages: in the first was performed in 100 DBS samples an standardization of the techniques; in the second was done a pilot test with samples of newborns of Monte Santo, for the evaluation of standardized techniques and for the thermostability study in healthy controls; in the third were analyzed newborns samples from Monte Santo for both biochemical and molecular methods. Standardization on microplate for fluorimetric enzyme activity of the ARSB showed the assay sensitivity, differentiating values between normal and affected and allowing a reliable detection of patients with MPS VI. On the standardization for molecular analysis in DBS it was possible to differentiate the results for normal individuals, heterozygous and affected for the mutation p.H178L. The preliminary results available indicate that the protocol of neonatal screening for MPS VI developed in this work can be easily incorporated by reference laboratories, contributing to the detection and premature treatment of MPS VI affected patients.

Mucopolissacaridose VI

N-acetilgalactosamina-4-sulfatase

Tipagem e reações cruzadas sanguíneas

Mucopolysaccharidosis VI

Maroteux-lamy syndrome

Lysosomal storage diseases

Glycosaminoglycans

Dried blood spots

Newborn screening

Triagem neonatal para mucopolissacaridose tipo VI (Síndrome de Maroteux-Lamy) em uma região com alta incidência da doença

Bender, Fernanda

January 2011

A mucopolissacaridose tipo VI (MPS VI) ou Síndrome de Maroteaux-Lamy, é uma doença autossômica recessiva causada pela deficiência da enzima lisossomal Nacetilgalactosamina- 4-sulfatase (ARSB), a qual resulta no armazenamento lisossômico de dermatan sufato em vários tecidos e órgãos, dando origem a uma condição clínica de espectro variável, desde formas mais graves até formas mais atenuadas. O acúmulo de substrato não degradado causa um importante comprometimento ósseo, problemas respiratórios, baixa estatura e outros problemas, afetando os olhos, o coração e outros órgãos. Embora a síndrome de Maroteaux-Lamy não tenha uma incidência definida no Brasil, é reconhecido que, no nosso meio, é muito mais freqüente do que em outros países e regiões. Ela é particularmente freqüente no município de Monte Santo (Bahia), de aproximadamente 50.000 habitantes e onde já foram registrados 13 casos da doença. O diagnóstico é importante porque existe hoje um tratamento específico para a doença, a terapia de reposição enzimática (TRE), que vem mostrando bons resultados, especialmente quando iniciada em idade precoce. Descrevemos neste trabalho uma adaptação para microplacas da medida fluorimétrica da atividade de ARSB, e uma nova metodologia de análise molecular, ambas padronizados para sangue total impregnado em papel-filtro (STIPF). Essas técnicas foram desenvolvidas para incluir um teste de triagem neonatal para MPS VI, realizado nas amostras coletadas para o “teste do pezinho” nos neonatos do município de Monte Santo. Esses métodos permitem a detecção de pacientes com MPS VI e dos portadores da mutação específica que parece ser responsável pela alta incidência de MPS VI nessa localidade, uma vez que todos os pacientes lá diagnosticados apresentavam a mesma mutação (p.H178L) em homozigose. O trabalho foi desenvolvido em três etapas: na primeira foi realizada a padronização das técnicas em 100 amostras de STIPF; na segunda foi feito um teste-piloto com amostras de neonatos de Monte Santo, para avaliação das técnicas padronizadas e para o estudo de termoestabilidade em controles hígidos; na terceira foram analisadas amostras de STIPF de neonatos provenientes de Monte Santo pelos dois métodos (bioquímico e molecular). A padronização para realização da medida fluorimétrica da atividade enzimática de ARSB em microplacas indicou que o método é sensível, permitiu diferenciar os valores da população normal dos valores dos pacientes afetados e possibilitou a identificação segura de pacientes com MPS VI. Nas padronizações da análise molecular da mutação p.H178L em STIPF foi possível diferenciar os indivíduos normais, heterozigotos e homozigotos. Os resultados preliminares disponíveis indicam que o protocolo de triagem neonatal para MPS VI desenvolvido no presente trabalho poderá ser facilmente incorporado por laboratórios de referência, contribuindo para a detecção e tratamento precoce dos pacientes afetados por MPS VI. / Mucopolysaccharidosis type VI (MPS VI) or Maroteux-Lamy syndrome, is an autosomal recessive disorder caused by deficiency of the lysosomal enzyme Nacetylgalactosamine- 4-sulfatase (ARSB), which results in lysosomal storage of dermatan sufate in various tissues and organs and leads to a variable clinical spectrum, including more severe and attenuated forms. The accumulation of undegraded substrate causes bone involvement, respiratory problems and short stature, among other signs and symptoms, affecting the eyes, heart and other organs. Although the Maroteaux-Lamy syndrome does not have a defined incidence in Brazil, it is recognized that in our environment it is much more frequent than in other countries and regions. It is particularly frequent in the municipality of Monte Santo (Bahia) approximately 50,000 inhabitants and where there have already been 13 cases of the disease. The diagnosis is important because today there is a specific treatment for the disease, enzyme replacement therapy (ERT) which has shown good results, especially when started at an early age. We describe herein the standardization of the microplate fluorometric method for the ARSB test and a new methodology of molecular analysis, both adapted for dried blood spots (DBS) samples. These techniques were developed for inclusion of MPS VI in the newborn screening program that already tests the neonates of the city of Monte Santo, Bahia, Brasil for metabolic diseases. The methods were developed to detect patients with MPS VI and also for carriers, once the disease seems to have a high incidence (around 1:5.000) at this location. Also, all patients that have already been diagnosed in this city presented the same mutation (p.H178L) in homozygosis. The study was conducted in three stages: in the first was performed in 100 DBS samples an standardization of the techniques; in the second was done a pilot test with samples of newborns of Monte Santo, for the evaluation of standardized techniques and for the thermostability study in healthy controls; in the third were analyzed newborns samples from Monte Santo for both biochemical and molecular methods. Standardization on microplate for fluorimetric enzyme activity of the ARSB showed the assay sensitivity, differentiating values between normal and affected and allowing a reliable detection of patients with MPS VI. On the standardization for molecular analysis in DBS it was possible to differentiate the results for normal individuals, heterozygous and affected for the mutation p.H178L. The preliminary results available indicate that the protocol of neonatal screening for MPS VI developed in this work can be easily incorporated by reference laboratories, contributing to the detection and premature treatment of MPS VI affected patients.

Mucopolissacaridose VI

N-acetilgalactosamina-4-sulfatase

Tipagem e reações cruzadas sanguíneas

Mucopolysaccharidosis VI

Maroteux-lamy syndrome

Lysosomal storage diseases

Glycosaminoglycans

Dried blood spots

Newborn screening

Glycovecteurs pour le ciblage thérapeutique d'une maladie rare lysosomale : la maladie de Pompe / Glycovectors for therapeutic targeting of a rare lysosomal diseases : Pompe disease

Da Silva, Afitz

09 May 2017

Sur la cinquantaine de maladies rares lysosomales, seules 8 peuvent être traitées par enzymothérapie substitutive avec plus ou moins d’efficacité. Il y a donc un réel besoin de développer de nouveaux traitements mais aussi de mieux caractériser les causes de ces maladies. Durant cette thèse nous nous sommes intéressés à la maladie de Pompe qui résulte de l’absence ou de la carence en enzyme lysosomale alpha-glucosidase acide (GAA) responsable de la dégradation du glycogène en glucose dans de nombreux tissus. Actuellement seule la forme infantile de cette maladie peut être traitée alors que la forme juvénile/adulte est faiblement améliorée par le traitement Myozyme®. Cette thèse a eu pour but de développer une nouvelle enzymothérapie qui, à terme, permettrait d’empêcher la progression de la maladie et de soigner, de manière satisfaisante, les formes juvéniles et adultes de la maladie de Pompe. Dans ce but, nous avons utilisé des dérivés monosaccharidiques « Analogues du Mannose-6-phosphate (M6P) Fonctionnalisés sur l’Aglycone (AMFA) », qui sont ensuite greffés sur la GAA recombinante humaine (rhGAA) afin d’améliorer son adressage aux lysosomes obtenant la rhGAA-AMFA.Une première étude in vitro, sur des fibroblastes de patients atteints de la forme adulte de la maladie, a démontré que le greffage des AMFA sur la rhGAA produite en cellules d’insectes Sf9 améliorait significativement l’affinité pour le récepteur du M6P (RM6P), l’internalisation et l’activité de l’enzyme et lui conférait une efficacité sur les souris GAA-/-, modèles de la maladie de Pompe, par rapport au traitement actuel (Article 1). Puis nous avons pu démontrer, pour la première fois, l’efficacité de la rhGAA-AMFA produite en cellules CHO sur des souris GAA-/- âgées. Ces résultats suggèrent, ainsi, la possibilité d’utiliser cette néo-enzyme dans le traitement de la forme adulte de la maladie (Article2). Enfin, le greffage des AMFA permet d’obtenir une maturation intracellulaire complète de la rhGAA sous forme active dans des myoblastes et myotubes de patients adultes et dans les quadriceps de souris âgées modèles Pompe, ce qui n’a pas été observé pour Myozyme® (Article 3). Lors de cette thèse, nous avons également démontré que de nouveaux analogues disaccharidiques, ayant une meilleure affinité que les monosaccharides pour le RM6P, peuvent efficacement cibler la rhGAA pour le traitement de la maladie de Pompe. Un brevet a été déposé sur ces résultats (Brevet PCT/FR2016/052339).En conclusion, ce travail a permis de développer une nouvelle technologie de ciblage plus efficace des enzymes lysosomales par des analogues synthétiques. La désignation de médicament orphelin pour l’alpha glucosidase acide conjuguée aux analogues du mannose-6-phosphate a été obtenue suite à ces travaux auprès de l’Agence Européenne du Médicament pour le traitement de la maladie de Pompe (EMA/OD/098/16).Mots clés: maladies lysosomales, maladie de Pompe, enzymothérapie, récepteur du mannose 6-phosphate / On 53 known rare lysosomal diseases, only 8 can be treated by enzyme replacement therapy with more or less efficiency. There is therefore a need to develop new treatments but also to better characterize these diseases. During this thesis, we focused on Pompe disease which results from the absence or deficiency of the lysosomal enzyme alpha-glucosidase acid (GAA), responsible for the degradation of glycogen in glucose in many tissues. Currently only the infantile form of this disease can be treated while the juvenile/adult form is slightly improved by Myozyme® treatment. This thesis aimed to devel a new enzyme replacement therapy which could prevent the progression of the disease and satisfactorily treat the late onset form of the disease. To do that, we used monosaccharide derivatives “Mannose-6-phosphate analogues (M6P) Functionalized on Aglycone (AMFA)”, which were grafted onto human recombinant GAA (rhGAA) in order to improve its lysosome addressing obtaining the rhGAA-AMFA.A first in vitro study on adult patient fibroblasts showed that the addition of AMFA to rhGAA, produced in Sf9 insect cells, significantly improved its affinity for the M6P receptor (RM6P), its internalization and activity. It was also more efficient on the GAA-/- Pompe mouse model compared to current treatment (Article 1). Then, we demonstrated for the first time the efficiency of rhGAA-AMFA produced in CHO cells in aged mice model. These results suggest the possibility to use this neo-enzyme in the treatment of the adult form that still resists to treatment (Article 2). Finally, the addition of AMFA allows a complete maturation of rhGAA into its active form in myoblasts and myotubes of adult patients and in the quadriceps of aged mice Pompe model. This was not observed for Myozyme® (Article 3). In this thesis we have also demonstrated that novel disaccharide analogues with a better affinity than monosaccharides for RM6P can efficiently target GAA for the treatment of Pompe disease. A patent has been filed on these results (Patent PCT / FR2016 / 052339).In conclusion, this work has led to the development of a new technology more efficient in targeting lysosomal enzymes by mean of new synthetic analogues. An orphan drug designation for the recombinant human acid alpha-glucosidase conjugated with mannose-6-phosphate analogues was obtained on the basis of this work at the European Medicines Agency for the treatment of Pompe disease (EMA/OD/098/16).Key words: lysosomal diseases, Pompe disease, enzyme replacement therapy, mannose 6-phosphate receptor

Maladies lysosomales

Maladie de Pompe

Enzymothérapie

Récepteur du mannose 6-Phosphate

Lysosomal storage diseases

Pompe disease

Enzyme replacement therapy

Mannose 6-Phosphate receptor

Approaches and Considerations Towards a Safe and Effective Adeno-Associated Virus Mediated Therapeutic Intervention for GM1-Gangliosidosis: A Dissertation

Weismann, Cara M.

05 August 2014

GM1 gangliosidosis is a lysosomal storage disorder caused by a deficiency in the catabolizing enzyme β-galactosidase (βgal). This leads to accumulation of GM1-ganglioside (GM1) in the lysosome inducing ER stress and cell death. GM1 gangliosidosis is primarily a disorder of the central nervous system (CNS) with peripheral organ involvement. In this work we report two major findings, 1) systemic treatment of GM1 gangliosidosis with an adenoassociated virus (AAV9) encoding mouse-βgal (mβgal) in a GM1 gangliosidosis mouse model (βGal-/-), and 2) an investigation into an intracranial injection of a therapeutic AAVrh8 encoding mβgal. Systemic treatment of GM1 gangliosidosis with AAV9 resulted in a moderate expression of enzyme in the CNS, reduction of GM1 storage, significant retention of motor function and a significant increase in lifespan. Interestingly, the therapeutic effect was more robust in females. Intracranial injections of AAVrh8 vector expressing high levels of βgal resulted in enzyme spread throughout the brain, significant retention of motor function and a significant increase in lifespan. Histological alterations were also found at the injection site in both βGal-/- and normal animals. We constructed a series of vectors with a range of decreasing enzyme expression levels to investigate the cause for the unanticipated result. Microarrays were performed on the injection site and we showed that a lower expressing AAVrh8-mβgal vector mitigated the negative response. Intracranial injection of this newly developed vector was shown to clear lysosomal storage throughout the CNS of βGal-/- mice. Taken together, these studies indicate that a combined systemic and fine-tuned intracranial approach may be the most effective in clearing lysosomal storage completely in the CNS while providing therapeutic benefit to the periphery.

Dependovirus

G(M1) Ganglioside

GM1 Gangliosidosis

Genetic Vectors

Lysosomal Storage Diseases

beta-Galactosidase

Dissertations, UMMS

Gangliosidosis, GM1

Genetics and Genomics

Nervous System Diseases

Neuroscience and Neurobiology

Therapeutics