Project acronym ALLELECHOKER
Project DNA binding proteins for treatment of gain of function mutations
Researcher (PI) Enrico Maria Surace
Host Institution (HI) FONDAZIONE TELETHON
Call Details Starting Grant (StG), LS7, ERC-2012-StG_20111109
Summary Zinc finger (ZF) and transcription activator-like effector (TALE) based technologies are been allowing the tailored design of “artificial” DNA-binding proteins targeted to specific and unique DNA genomic sequences. Coupling DNA binding proteins to effectors domains enables the constitution of DNA binding factors for genomic directed transcriptional modulation or targeted genomic editing. We have demonstrated that pairing a ZF DNA binding protein to the transcriptional repressor Kruppel-associated box enables in vivo, the transcriptional repression of one of the most abundantly expressed gene in mammals, the human rhodopsin gene (RHO). We propose to generate RHO DNA binding silencers (“AlleleChoker”), which inactivate RHO either by transcriptional repression or targeted genome modification, irrespectively to wild-type or mutated alleles (mutational-independent approach), and combine RHO endogenous silencing to RHO replacement (silencing-replacement strategy). With this strategy in principle a single bimodal bio-therapeutic will enable the correction of any photoreceptor disease associated with RHO mutation. Adeno-associated viral (AAV) vector-based delivery will be used for photoreceptors gene transfer. Specifically our objectives are: 1) Construction of transcriptional repressors and nucleases for RHO silencing. Characterization and comparison of RHO silencing mediated by transcriptional repressors (ZFR/ TALER) or nucleases (ZFN/ TALEN) to generate genomic directed inactivation by non-homologous end-joining (NHEJ), and refer these results to RNA interference (RNAi) targeted to RHO; 2) RHO silencing in photoreceptors. to determine genome-wide DNA binding specificity of silencers, chromatin modifications and expression profile on human retinal explants; 3) Tuning silencing and replacement. To determine the impact of gene silencing-replacement strategy on disease progression in animal models of autosomal dominant retinitis pigmentosa (adRP) associated to RHO mutations
Summary
Zinc finger (ZF) and transcription activator-like effector (TALE) based technologies are been allowing the tailored design of “artificial” DNA-binding proteins targeted to specific and unique DNA genomic sequences. Coupling DNA binding proteins to effectors domains enables the constitution of DNA binding factors for genomic directed transcriptional modulation or targeted genomic editing. We have demonstrated that pairing a ZF DNA binding protein to the transcriptional repressor Kruppel-associated box enables in vivo, the transcriptional repression of one of the most abundantly expressed gene in mammals, the human rhodopsin gene (RHO). We propose to generate RHO DNA binding silencers (“AlleleChoker”), which inactivate RHO either by transcriptional repression or targeted genome modification, irrespectively to wild-type or mutated alleles (mutational-independent approach), and combine RHO endogenous silencing to RHO replacement (silencing-replacement strategy). With this strategy in principle a single bimodal bio-therapeutic will enable the correction of any photoreceptor disease associated with RHO mutation. Adeno-associated viral (AAV) vector-based delivery will be used for photoreceptors gene transfer. Specifically our objectives are: 1) Construction of transcriptional repressors and nucleases for RHO silencing. Characterization and comparison of RHO silencing mediated by transcriptional repressors (ZFR/ TALER) or nucleases (ZFN/ TALEN) to generate genomic directed inactivation by non-homologous end-joining (NHEJ), and refer these results to RNA interference (RNAi) targeted to RHO; 2) RHO silencing in photoreceptors. to determine genome-wide DNA binding specificity of silencers, chromatin modifications and expression profile on human retinal explants; 3) Tuning silencing and replacement. To determine the impact of gene silencing-replacement strategy on disease progression in animal models of autosomal dominant retinitis pigmentosa (adRP) associated to RHO mutations
Max ERC Funding
1 354 840 €
Duration
Start date: 2013-02-01, End date: 2018-01-31
Project acronym ANGIOPLACE
Project Expression and Methylation Status of Genes Regulating Placental Angiogenesis in Normal, Cloned, IVF and Monoparental Sheep Foetuses
Researcher (PI) Grazyna Ewa Ptak
Host Institution (HI) UNIVERSITA DEGLI STUDI DI TERAMO
Call Details Starting Grant (StG), LS7, ERC-2007-StG
Summary Normal placental angiogenesis is critical for embryonic survival and development. Epigenetic modifications, such as methylation of CpG islands, regulate the expression and imprinting of genes. Epigenetic abnormalities have been observed in embryos from assisted reproductive technologies (ART), which could explain the poor placental vascularisation, embryonic/fetal death, and altered fetal growth in these pregnancies. Both cloned (somatic cell nuclear transfer, or SNCT) and monoparental (parthogenotes, only maternal genes; androgenotes, only paternal genes) embryos provide important models for studying defects in expression and methylation status/imprinting of genes regulating placental function. Our hypothesis is that placental vascular development is compromised during early pregnancy in embryos from ART, in part due to altered expression or imprinting/methylation status of specific genes regulating placental angiogenesis. We will evaluate fetal growth, placental vascular growth, and expression and epigenetic status of genes regulating placental angiogenesis during early pregnancy in 3 Specific Aims: (1) after natural mating; (2) after transfer of biparental embryos from in vitro fertilization, and SCNT; and (3) after transfer of parthenogenetic or androgenetic embryos. These studies will therefore contribute substantially to our understanding of the regulation of placental development and vascularisation during early pregnancy, and could pinpoint the mechanism contributing to embryonic loss and developmental abnormalities in foetuses from ART. Any or all of these observations will contribute to our understanding of and also our ability to successfully employ ART, which are becoming very wide spread and important in human medicine as well as in animal production.
Summary
Normal placental angiogenesis is critical for embryonic survival and development. Epigenetic modifications, such as methylation of CpG islands, regulate the expression and imprinting of genes. Epigenetic abnormalities have been observed in embryos from assisted reproductive technologies (ART), which could explain the poor placental vascularisation, embryonic/fetal death, and altered fetal growth in these pregnancies. Both cloned (somatic cell nuclear transfer, or SNCT) and monoparental (parthogenotes, only maternal genes; androgenotes, only paternal genes) embryos provide important models for studying defects in expression and methylation status/imprinting of genes regulating placental function. Our hypothesis is that placental vascular development is compromised during early pregnancy in embryos from ART, in part due to altered expression or imprinting/methylation status of specific genes regulating placental angiogenesis. We will evaluate fetal growth, placental vascular growth, and expression and epigenetic status of genes regulating placental angiogenesis during early pregnancy in 3 Specific Aims: (1) after natural mating; (2) after transfer of biparental embryos from in vitro fertilization, and SCNT; and (3) after transfer of parthenogenetic or androgenetic embryos. These studies will therefore contribute substantially to our understanding of the regulation of placental development and vascularisation during early pregnancy, and could pinpoint the mechanism contributing to embryonic loss and developmental abnormalities in foetuses from ART. Any or all of these observations will contribute to our understanding of and also our ability to successfully employ ART, which are becoming very wide spread and important in human medicine as well as in animal production.
Max ERC Funding
363 600 €
Duration
Start date: 2008-10-01, End date: 2012-06-30
Project acronym ARISTOTLE
Project Aristotle in the Italian Vernacular: Rethinking Renaissance and Early-Modern Intellectual History (c. 1400–c. 1650)
Researcher (PI) Marco Sgarbi
Host Institution (HI) UNIVERSITA CA' FOSCARI VENEZIA
Call Details Starting Grant (StG), SH5, ERC-2013-StG
Summary From the twelfth to the seventeenth century, Aristotle’s writings lay at the foundation of Western culture, providing a body of knowledge and a set of analytical tools applicable to all areas of human investigation. Scholars of the Renaissance have emphasized the remarkable longevity and versatility of Aristotelianism, but their attention has remained firmly, and almost exclusively, fixed on the transmission of Aristotle’s works in Latin. Scarce attention has gone to works in the vernacular. Nonetheless, several important Renaissance figures wished to make Aristotle’s works accessible and available outside the narrow circle of professional philosophers and university professors. They believed that his works could provide essential knowledge to a broad set of readers, and embarked on an intense programme of translation and commentary to see this happen. It is the argument of this project that vernacular Aristotelianism made fundamental contributions to the thought of the period, anticipating many of the features of early modern philosophy and contributing to a new encyclopaedia of knowledge. Our project aims to offer the first detailed and comprehensive study of the vernacular diffusion of Aristotle through a series of analyses of its main texts. We will thus study works that fall within the two main Renaissance divisions of speculative philosophy (metaphysics, natural philosophy, mathematics, and logic) and civil philosophy (ethics, politics, rhetoric, and poetics). We will give strong attention to the contextualization of the texts they examine, as is standard practice in the best kind of intellectual history, focusing on institutional contexts, reading publics, the value of the vernacular, new visions of knowledge and eclecticism. With the work of the PI, two professors, 5 post-docs and two PhD students we aim to make considerable advances in the understanding of both speculative and civil philosophy within vernacular Aristotelianism.
Summary
From the twelfth to the seventeenth century, Aristotle’s writings lay at the foundation of Western culture, providing a body of knowledge and a set of analytical tools applicable to all areas of human investigation. Scholars of the Renaissance have emphasized the remarkable longevity and versatility of Aristotelianism, but their attention has remained firmly, and almost exclusively, fixed on the transmission of Aristotle’s works in Latin. Scarce attention has gone to works in the vernacular. Nonetheless, several important Renaissance figures wished to make Aristotle’s works accessible and available outside the narrow circle of professional philosophers and university professors. They believed that his works could provide essential knowledge to a broad set of readers, and embarked on an intense programme of translation and commentary to see this happen. It is the argument of this project that vernacular Aristotelianism made fundamental contributions to the thought of the period, anticipating many of the features of early modern philosophy and contributing to a new encyclopaedia of knowledge. Our project aims to offer the first detailed and comprehensive study of the vernacular diffusion of Aristotle through a series of analyses of its main texts. We will thus study works that fall within the two main Renaissance divisions of speculative philosophy (metaphysics, natural philosophy, mathematics, and logic) and civil philosophy (ethics, politics, rhetoric, and poetics). We will give strong attention to the contextualization of the texts they examine, as is standard practice in the best kind of intellectual history, focusing on institutional contexts, reading publics, the value of the vernacular, new visions of knowledge and eclecticism. With the work of the PI, two professors, 5 post-docs and two PhD students we aim to make considerable advances in the understanding of both speculative and civil philosophy within vernacular Aristotelianism.
Max ERC Funding
1 483 180 €
Duration
Start date: 2014-05-01, End date: 2019-04-30
Project acronym BIFLOW
Project Bilingualism in Florentine and Tuscan Works (ca. 1260 - ca. 1416)
Researcher (PI) Antonio Montefusco
Host Institution (HI) UNIVERSITA CA' FOSCARI VENEZIA
Call Details Starting Grant (StG), SH5, ERC-2014-STG
Summary This project will undertake the first systematic investigation of the various literary documents that circulated simultaneously in more than one language in Tuscany, and especially Florence, between the mid-13th Century and the beginning of 15th Century.
During that period, Florence was both a prominent literary centre in the vernacular, and home to a renewal of classical Latin eloquence. While both fields are well studied, their interaction remains largely unexplored. This research, at the convergence of several disciplines (literature, philology, linguistics and medieval history), has a strong pioneering character. It aims at changing the perception of medieval Italian culture and interpretation of the break between medieval Culture and Humanism.
For this reason, the project will develop research in varying degrees of depth. First, it will provide the first catalogue of bilingual texts and manuscripts of medieval Tuscany. Organized as a database, this tool of analysis will stir innovative research in this field, some of which will be immediately promoted during the project.
Secondly, two case studies, considered as important and methodologically exemplary, will be researched in detail, through the publication of two important set of texts, of secular and religious nature : 1. The vernacular translation of the Latin Epistles of Dante Alighieri; 2. A collection of polemical, historiographical, devotional and prophetical documents produced by the Tuscan dissident Franciscans in last decades of the 14th Century.
Finally, the entire team, led by the PI, will be involved in the preparation of a synthesis volume on Tuscan culture in the fourteenth century viewed through bilingualism, entitled Cartography of bilingual culture in Fourteenth-Century Tuscany. From this general map of the Italian culture of the time, no literary genre nor field (be it religious or lay) shall be excluded.
Summary
This project will undertake the first systematic investigation of the various literary documents that circulated simultaneously in more than one language in Tuscany, and especially Florence, between the mid-13th Century and the beginning of 15th Century.
During that period, Florence was both a prominent literary centre in the vernacular, and home to a renewal of classical Latin eloquence. While both fields are well studied, their interaction remains largely unexplored. This research, at the convergence of several disciplines (literature, philology, linguistics and medieval history), has a strong pioneering character. It aims at changing the perception of medieval Italian culture and interpretation of the break between medieval Culture and Humanism.
For this reason, the project will develop research in varying degrees of depth. First, it will provide the first catalogue of bilingual texts and manuscripts of medieval Tuscany. Organized as a database, this tool of analysis will stir innovative research in this field, some of which will be immediately promoted during the project.
Secondly, two case studies, considered as important and methodologically exemplary, will be researched in detail, through the publication of two important set of texts, of secular and religious nature : 1. The vernacular translation of the Latin Epistles of Dante Alighieri; 2. A collection of polemical, historiographical, devotional and prophetical documents produced by the Tuscan dissident Franciscans in last decades of the 14th Century.
Finally, the entire team, led by the PI, will be involved in the preparation of a synthesis volume on Tuscan culture in the fourteenth century viewed through bilingualism, entitled Cartography of bilingual culture in Fourteenth-Century Tuscany. From this general map of the Italian culture of the time, no literary genre nor field (be it religious or lay) shall be excluded.
Max ERC Funding
1 480 625 €
Duration
Start date: 2015-10-01, End date: 2020-09-30
Project acronym BRiCPT
Project Basic Research in Cryptographic Protocol Theory
Researcher (PI) Jesper Buus Nielsen
Host Institution (HI) AARHUS UNIVERSITET
Call Details Starting Grant (StG), PE6, ERC-2011-StG_20101014
Summary In cryptographic protocol theory, we consider a situation where a number of entities want to solve some problem over a computer network. Each entity has some secret data it does not want the other entities to learn, yet, they all want to learn something about the common set of data. In an electronic election, they want to know the number of yes-votes without revealing who voted what. For instance, in an electronic auction, they want to find the winner without leaking the bids of the losers.
A main focus of the project is to develop new techniques for solving such protocol problems. We are in particular interested in techniques which can automatically construct a protocol solving a problem given only a description of what the problem is. My focus will be theoretical basic research, but I believe that advancing the theory of secure protocol compilers will have an immense impact on the practice of developing secure protocols for practice.
When one develops complex protocols, it is important to be able to verify their correctness before they are deployed, in particular so, when the purpose of the protocols is to protect information. If and when an error is found and corrected, the sensitive data will possibly already be compromised. Therefore, cryptographic protocol theory develops models of what it means for a protocol to be secure, and techniques for analyzing whether a given protocol is secure or not.
A main focuses of the project is to develop better security models, as existing security models either suffer from the problem that it is possible to prove some protocols secure which are not secure in practice, or they suffer from the problem that it is impossible to prove security of some protocol which are believed to be secure in practice. My focus will again be on theoretical basic research, but I believe that better security models are important for advancing a practice where protocols are verified as secure before deployed.
Summary
In cryptographic protocol theory, we consider a situation where a number of entities want to solve some problem over a computer network. Each entity has some secret data it does not want the other entities to learn, yet, they all want to learn something about the common set of data. In an electronic election, they want to know the number of yes-votes without revealing who voted what. For instance, in an electronic auction, they want to find the winner without leaking the bids of the losers.
A main focus of the project is to develop new techniques for solving such protocol problems. We are in particular interested in techniques which can automatically construct a protocol solving a problem given only a description of what the problem is. My focus will be theoretical basic research, but I believe that advancing the theory of secure protocol compilers will have an immense impact on the practice of developing secure protocols for practice.
When one develops complex protocols, it is important to be able to verify their correctness before they are deployed, in particular so, when the purpose of the protocols is to protect information. If and when an error is found and corrected, the sensitive data will possibly already be compromised. Therefore, cryptographic protocol theory develops models of what it means for a protocol to be secure, and techniques for analyzing whether a given protocol is secure or not.
A main focuses of the project is to develop better security models, as existing security models either suffer from the problem that it is possible to prove some protocols secure which are not secure in practice, or they suffer from the problem that it is impossible to prove security of some protocol which are believed to be secure in practice. My focus will again be on theoretical basic research, but I believe that better security models are important for advancing a practice where protocols are verified as secure before deployed.
Max ERC Funding
1 171 019 €
Duration
Start date: 2011-12-01, End date: 2016-11-30
Project acronym C-MORPH
Project Noninvasive cell specific morphometry in neuroinflammation and degeneration
Researcher (PI) Henrik LUNDELL
Host Institution (HI) REGION HOVEDSTADEN
Call Details Starting Grant (StG), LS7, ERC-2018-STG
Summary Brain structure determines function. Disentangling regional microstructural properties and understanding how these properties constitute brain function is a central goal of neuroimaging of the human brain and a key prerequisite for a mechanistic understanding of brain diseases and their treatment. Using magnetic resonance (MR) imaging, previous research has established links between regional brain microstructure and inter-individual variation in brain function, but this line of research has been limited by the non-specificity of MR-derived markers. This hampers the application of MR imaging as a tool to identify specific fingerprints of the underlying disease process.
Exploiting state-of-the-art ultra-high field MR imaging techniques, I have recently developed two independent spectroscopic MR methods that have the potential to tackle this challenge: Powder averaged diffusion weighted spectroscopy (PADWS) can provide an unbiased marker for cell specific structural degeneration, and Spectrally tuned gradient trajectories (STGT) can isolate cell shape and size. In this project, I will harness these innovations for MR-based precision medicine. I will advance PADWS and STGT methodology on state-of-the-art MR hardware and harvest the synergy of these methods to realize Cell-specific in-vivo MORPHOMETRY (C-MORPH) of the intact human brain. I will establish novel MR read-outs and analyses to derive cell-type specific tissue properties in the healthy and diseased brain and validate them with the help of a strong translational experimental framework, including histological validation. Once validated, the experimental methods and analyses will be simplified and adapted to provide clinically applicable tools. This will push the frontiers of MR-based personalized medicine, guiding therapeutic decisions by providing sensitive probes of cell-specific microstructural changes caused by inflammation, neurodegeneration or treatment response.
Summary
Brain structure determines function. Disentangling regional microstructural properties and understanding how these properties constitute brain function is a central goal of neuroimaging of the human brain and a key prerequisite for a mechanistic understanding of brain diseases and their treatment. Using magnetic resonance (MR) imaging, previous research has established links between regional brain microstructure and inter-individual variation in brain function, but this line of research has been limited by the non-specificity of MR-derived markers. This hampers the application of MR imaging as a tool to identify specific fingerprints of the underlying disease process.
Exploiting state-of-the-art ultra-high field MR imaging techniques, I have recently developed two independent spectroscopic MR methods that have the potential to tackle this challenge: Powder averaged diffusion weighted spectroscopy (PADWS) can provide an unbiased marker for cell specific structural degeneration, and Spectrally tuned gradient trajectories (STGT) can isolate cell shape and size. In this project, I will harness these innovations for MR-based precision medicine. I will advance PADWS and STGT methodology on state-of-the-art MR hardware and harvest the synergy of these methods to realize Cell-specific in-vivo MORPHOMETRY (C-MORPH) of the intact human brain. I will establish novel MR read-outs and analyses to derive cell-type specific tissue properties in the healthy and diseased brain and validate them with the help of a strong translational experimental framework, including histological validation. Once validated, the experimental methods and analyses will be simplified and adapted to provide clinically applicable tools. This will push the frontiers of MR-based personalized medicine, guiding therapeutic decisions by providing sensitive probes of cell-specific microstructural changes caused by inflammation, neurodegeneration or treatment response.
Max ERC Funding
1 498 811 €
Duration
Start date: 2018-12-01, End date: 2023-11-30
Project acronym CBCD
Project Understanding the basis of cerebellar and brainstem congenital defects: from clinical and molecular characterisation to the development of a novel neuroembryonic in vitro model
Researcher (PI) Enza Maria Valente
Host Institution (HI) FONDAZIONE SANTA LUCIA
Call Details Starting Grant (StG), LS7, ERC-2010-StG_20091118
Summary Cerebellar and brainstem congenital defects (CBCDs) are heterogeneous disorders with high pre-and post-natal mortality and morbidity. Their genetic basis and pathogenetic mechanisms are largely unknown, hampering patients’ diagnosis and management and family counselling. This project aims at improve current understanding of primary CBCDs through a multidisciplinary approach combining innovative clinical, neuroimaging, molecular and functional studies, that will be articulated in four workpackages:
WP1- Clinical and neuroimaging studies: collection of detailed data and biological samples from a large cohort of patients covering a broad spectrum of CBCDs, neuroimaging classification based on magnetic resonance imaging and tractography, genotype-phenotype correlates and follow-up studies.
WP2 - Molecular studies on mendelian CBCDs: high-throughput resequencing of ciliary genes to identify pathogenic mutations and genetic modifiers in patients with ciliopathies, identification of novel disease genes, mutation analysis of genes causative of other mendelian CBCDs.
WP3 - Molecular studies on sporadic CBCDs: identification of cryptic chromosomal rearrangements by high resolution SNP-array analysis, selection and mutation analysis of candidate genes mapping to the rearranged regions.
WP4 - Functional studies: optimisation of a novel neuroembryonic in vitro model derived from mouse embryonic stem cells, to test the role of known and candidate disease genes (from WP2 and 3) on cerebellar and brainstem development, define the pathways in which they are involved and the effect of disease-causative mutations.
This project is expected to improve the current CBCD nosology, identify novel genes and mechanisms involved in cerebellar and brainstem development that are responsible for mendelian or sporadic defects, expand the available tools for pre- and post-natal diagnosis and identify clinical-genetic correlates and prognostic indexes.
Summary
Cerebellar and brainstem congenital defects (CBCDs) are heterogeneous disorders with high pre-and post-natal mortality and morbidity. Their genetic basis and pathogenetic mechanisms are largely unknown, hampering patients’ diagnosis and management and family counselling. This project aims at improve current understanding of primary CBCDs through a multidisciplinary approach combining innovative clinical, neuroimaging, molecular and functional studies, that will be articulated in four workpackages:
WP1- Clinical and neuroimaging studies: collection of detailed data and biological samples from a large cohort of patients covering a broad spectrum of CBCDs, neuroimaging classification based on magnetic resonance imaging and tractography, genotype-phenotype correlates and follow-up studies.
WP2 - Molecular studies on mendelian CBCDs: high-throughput resequencing of ciliary genes to identify pathogenic mutations and genetic modifiers in patients with ciliopathies, identification of novel disease genes, mutation analysis of genes causative of other mendelian CBCDs.
WP3 - Molecular studies on sporadic CBCDs: identification of cryptic chromosomal rearrangements by high resolution SNP-array analysis, selection and mutation analysis of candidate genes mapping to the rearranged regions.
WP4 - Functional studies: optimisation of a novel neuroembryonic in vitro model derived from mouse embryonic stem cells, to test the role of known and candidate disease genes (from WP2 and 3) on cerebellar and brainstem development, define the pathways in which they are involved and the effect of disease-causative mutations.
This project is expected to improve the current CBCD nosology, identify novel genes and mechanisms involved in cerebellar and brainstem development that are responsible for mendelian or sporadic defects, expand the available tools for pre- and post-natal diagnosis and identify clinical-genetic correlates and prognostic indexes.
Max ERC Funding
1 367 960 €
Duration
Start date: 2011-08-01, End date: 2018-03-31
Project acronym CGT HEMOPHILIA A
Project Cell and gene therapy based strategies to correct the bleeding phenotype in Hemophilia A
Researcher (PI) Antonia Follenzi
Host Institution (HI) UNIVERSITA DEGLI STUDI DEL PIEMONTE ORIENTALE AMEDEO AVOGADRO
Call Details Starting Grant (StG), LS7, ERC-2010-StG_20091118
Summary Currently, haemophilia A cannot be cured. To prevent major bleeding episodes in haemophilia, human Factor VIII (FVIII) protein must be frequently administered as prophylaxis or on demand. This treatment is complicated by its high cost and development of antibodies that neutralize FVIII activity in 20 to 30% of the patients. Therefore, permanent solutions in the form of cell and gene therapy are very attractive for haemophilia A. Recently, we demonstrated in a murine model that liver sinusoidal endothelial cells (LSEC) produce and secrete FVIII, although not exclusively. We have also found that these mice can be treated by reconstitution with wild-type bone marrow, indicating that bone marrow-derived cells, of hematopoietic, mesenchymal or even endothelial origin, can produce and secrete FVIII. Based on these findings in mice, I propose that human LSEC, umbilical cord blood cells, and bone marrow cells might be suitable sources of FVIII to be used for cell replacement therapy for haemophilia A. To advance opportunities for cell and gene therapies in haemophilia A and for identifying additional cell sources of FVIII, I intend to explore whether replacement of liver endothelium and bone marrow in immnocompromised Haemophilia A mice with healthy human cells will provide therapeutic correction. Recently, the possibility of reprogramming mature somatic cells to generate induced pluripotent stem (iPS) cells has enabled the derivation of disease-specific pluripotent cells, thus providing unprecedented experimental platforms to treat human diseases. Therefore, I intend to study whether the generation of patient-specific iPS cells may be applied to cell and gene therapy of coagulation disorders and in particular for the treatment of Haemophilia A. Studies with these novel target cells may impact significantly the future course of Haemophilia A by providing proof-of feasibility of a novel therapy strategies.
Summary
Currently, haemophilia A cannot be cured. To prevent major bleeding episodes in haemophilia, human Factor VIII (FVIII) protein must be frequently administered as prophylaxis or on demand. This treatment is complicated by its high cost and development of antibodies that neutralize FVIII activity in 20 to 30% of the patients. Therefore, permanent solutions in the form of cell and gene therapy are very attractive for haemophilia A. Recently, we demonstrated in a murine model that liver sinusoidal endothelial cells (LSEC) produce and secrete FVIII, although not exclusively. We have also found that these mice can be treated by reconstitution with wild-type bone marrow, indicating that bone marrow-derived cells, of hematopoietic, mesenchymal or even endothelial origin, can produce and secrete FVIII. Based on these findings in mice, I propose that human LSEC, umbilical cord blood cells, and bone marrow cells might be suitable sources of FVIII to be used for cell replacement therapy for haemophilia A. To advance opportunities for cell and gene therapies in haemophilia A and for identifying additional cell sources of FVIII, I intend to explore whether replacement of liver endothelium and bone marrow in immnocompromised Haemophilia A mice with healthy human cells will provide therapeutic correction. Recently, the possibility of reprogramming mature somatic cells to generate induced pluripotent stem (iPS) cells has enabled the derivation of disease-specific pluripotent cells, thus providing unprecedented experimental platforms to treat human diseases. Therefore, I intend to study whether the generation of patient-specific iPS cells may be applied to cell and gene therapy of coagulation disorders and in particular for the treatment of Haemophilia A. Studies with these novel target cells may impact significantly the future course of Haemophilia A by providing proof-of feasibility of a novel therapy strategies.
Max ERC Funding
1 123 000 €
Duration
Start date: 2011-05-01, End date: 2017-04-30
Project acronym CHILDGROWTH2CANCER
Project Childhood body size, growth and pubertal timing and the risk of cancer in adulthood
Researcher (PI) Jennifer Lyn Baker
Host Institution (HI) REGION HOVEDSTADEN
Call Details Starting Grant (StG), LS7, ERC-2011-StG_20101109
Summary The goal of the proposed research is to examine how the independent and combined effects of childhood adiposity (assessed by body mass index [BMI]; kg/m2) height, change in BMI and height, and pubertal timing from the ages of 7 to 13 years are associated with the risk of cancer incidence in adulthood. Greater body size (adipose tissue and different types of lean tissue) reflecting past or ongoing growth may increase the risk of cancer in individuals as greater numbers of proliferating cells increase the risk that mutations leading to the subsequent development of cancer occur. As childhood is a period of growth, it is plausible that it is of particular relevance for the early establishment of the risk of cancer.
Data from the Copenhagen School Health Records Register, which is based on a population of schoolchildren born between 1930-1983 and contains computerised weight and height measurements on >350.000 boys and girls in the capital city of Denmark, as well as data from other cohorts will be used. Survival analysis techniques and the newly developed Dynamic Path Analysis model will be used to examine how body size (BMI and height) at each age from 7 to 13 years as well as change in body size during this period is associated with the risk of multiple forms of cancer in adulthood with a simultaneous exploration of the effects of birth weight and pubertal timing. Additionally, potential effects of childhood and adult health and social circumstances will be investigated in sub-cohorts with this information available.
Results from this research will demonstrate if childhood is a critical period for the establishment of the risk for cancer in adulthood and will lead into mechanistic explorations of the associations at the biological level, investigations into associations between childhood body size and mortality and contribute to developing improved definitions of childhood overweight and obesity that are based upon long-term health outcomes.
Summary
The goal of the proposed research is to examine how the independent and combined effects of childhood adiposity (assessed by body mass index [BMI]; kg/m2) height, change in BMI and height, and pubertal timing from the ages of 7 to 13 years are associated with the risk of cancer incidence in adulthood. Greater body size (adipose tissue and different types of lean tissue) reflecting past or ongoing growth may increase the risk of cancer in individuals as greater numbers of proliferating cells increase the risk that mutations leading to the subsequent development of cancer occur. As childhood is a period of growth, it is plausible that it is of particular relevance for the early establishment of the risk of cancer.
Data from the Copenhagen School Health Records Register, which is based on a population of schoolchildren born between 1930-1983 and contains computerised weight and height measurements on >350.000 boys and girls in the capital city of Denmark, as well as data from other cohorts will be used. Survival analysis techniques and the newly developed Dynamic Path Analysis model will be used to examine how body size (BMI and height) at each age from 7 to 13 years as well as change in body size during this period is associated with the risk of multiple forms of cancer in adulthood with a simultaneous exploration of the effects of birth weight and pubertal timing. Additionally, potential effects of childhood and adult health and social circumstances will be investigated in sub-cohorts with this information available.
Results from this research will demonstrate if childhood is a critical period for the establishment of the risk for cancer in adulthood and will lead into mechanistic explorations of the associations at the biological level, investigations into associations between childhood body size and mortality and contribute to developing improved definitions of childhood overweight and obesity that are based upon long-term health outcomes.
Max ERC Funding
1 199 998 €
Duration
Start date: 2012-02-01, End date: 2017-01-31
Project acronym CHILIC
Project Child health intervention interactions in low-income countries
Researcher (PI) Christine Benn
Host Institution (HI) STATENS SERUM INSTITUT
Call Details Starting Grant (StG), LS7, ERC-2009-StG
Summary Vitamin A supplementation (VAS) and vaccines are the most powerful tools to reduce child mortality in low-income countries. However, we may not use these interventions optimally because we disregard that the interventions may have immunomodulatory effects which differ for boys and girls and which may interact with the effects of other interventions. I have proposed the hypothesis that VAS and vaccines interact. This hypothesis is supported by randomised and observational studies showing that the combination of VAS and DTP may be harmful. I have furthermore proposed that VAS has sex-differential effects. VAS seems beneficial for boys but may not carry any benefits for girls. These findings challenge the current understanding that VAS and vaccines have only targeted effects and can be given together without considering interactions. This is of outmost importance for policy makers. The global trend is to combine health interventions for logistic reasons. My research suggests that this may not always be a good idea. Furthermore, the concept of sex-differential response to our common health interventions opens up for a completely new understanding of the immunology of the two sexes and may imply that we need to treat the two sexes differently in order to treat them optimally possibly also in high-income countries. In the present proposal I outline a series of inter-disciplinary epidemiological and immunological studies, which will serve to determine the overall and sex-differential effects of VAS and vaccines, the mechanisms behind these effects, and the basis for the immunological difference between boys and girls. If my hypotheses are true we can use the existing tools in a more optimal way to reduce child mortality without increasing costs. Thus, the results could lead to shifts in policy as well as paradigms.
Summary
Vitamin A supplementation (VAS) and vaccines are the most powerful tools to reduce child mortality in low-income countries. However, we may not use these interventions optimally because we disregard that the interventions may have immunomodulatory effects which differ for boys and girls and which may interact with the effects of other interventions. I have proposed the hypothesis that VAS and vaccines interact. This hypothesis is supported by randomised and observational studies showing that the combination of VAS and DTP may be harmful. I have furthermore proposed that VAS has sex-differential effects. VAS seems beneficial for boys but may not carry any benefits for girls. These findings challenge the current understanding that VAS and vaccines have only targeted effects and can be given together without considering interactions. This is of outmost importance for policy makers. The global trend is to combine health interventions for logistic reasons. My research suggests that this may not always be a good idea. Furthermore, the concept of sex-differential response to our common health interventions opens up for a completely new understanding of the immunology of the two sexes and may imply that we need to treat the two sexes differently in order to treat them optimally possibly also in high-income countries. In the present proposal I outline a series of inter-disciplinary epidemiological and immunological studies, which will serve to determine the overall and sex-differential effects of VAS and vaccines, the mechanisms behind these effects, and the basis for the immunological difference between boys and girls. If my hypotheses are true we can use the existing tools in a more optimal way to reduce child mortality without increasing costs. Thus, the results could lead to shifts in policy as well as paradigms.
Max ERC Funding
1 686 043 €
Duration
Start date: 2010-01-01, End date: 2014-12-31
