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2. Chromosome Transplantation: Correction of the Chronic Granulomatous Disease Defect in Mouse Induced Pluripotent Stem Cells

Author

Elena Caldana, Alessandra Castelli, Ciro Menale, Dario Strina, Eugenio Scanziani, Francesca Ficara, Sharon Muggeo, Marianna Paulis, Barbara Cassani, Lucia Susani, Anna Villa, Camilla Recordati, Paolo Vezzoni, Castelli, A., Susani, L., Menale, C., Muggeo, S., Caldana, E., Strina, D., Cassani, B., Recordati, C., Scanziani, E., Ficara, F., Villa, A., Vezzoni, P., and Paulis, M.

Subjects
Male, 0301 basic medicine, Hypoxanthine Phosphoribosyltransferase, X Chromosome, Genetic therapy, Genetic enhancement, Chromosome Transfer, Induced Pluripotent Stem Cells, Biology, Granulomatous Disease, Chronic, Proof of Concept Study, Mice, 03 medical and health sciences, 0302 clinical medicine, Chronic granulomatous disease, medicine, Animals, Humans, CYBB, CRISPR/Cas system, Thioguanine, Induced pluripotent stem cell, X chromosome, Sequence Deletion, Gene Editing, Hypoxanthine, Base Sequence, Cell Differentiation, Cell Biology, medicine.disease, Chromosomes, Mammalian, Aminopterin, Clone Cells, Culture Media, Transplantation, Disease Models, Animal, 030104 developmental biology, NADPH Oxidase 2, Cancer research, Molecular Medicine, CRISPR-Cas Systems, Stem cell, 030217 neurology & neurosurgery, Granulocytes, Thymidine, Developmental Biology, X-linked combined immunodeficiency diseases
Abstract

In spite of the progress in gene editing achieved in recent years, a subset of genetic diseases involving structural chromosome abnormalities, including aneuploidies, large deletions and complex rearrangements, cannot be treated with conventional gene therapy approaches. We have previously devised a strategy, dubbed chromosome transplantation (CT), to replace an endogenous mutated chromosome with an exogenous normal one. To establish a proof of principle for our approach, we chose as disease model the chronic granulomatous disease (CGD), an X-linked severe immunodeficiency due to abnormalities in CYBB (GP91) gene, including large genomic deletions. We corrected the gene defect by CT in induced pluripotent stem cells (iPSCs) from a CGD male mouse model. The Hprt gene of the endogenous X chromosome was inactivated by CRISPR/Cas9 technology thus allowing the exploitation of the hypoxanthine–aminopterin–thymidine selection system to introduce a normal donor X chromosome by microcell-mediated chromosome transfer. X-transplanted clones were obtained, and diploid XY clones which spontaneously lost the endogenous X chromosome were isolated. These cells were differentiated toward the myeloid lineage, and functional granulocytes producing GP91 protein were obtained. We propose the CT approach to correct iPSCs from patients affected by other X-linked diseases with large deletions, whose treatment is still unsatisfactory. Stem Cells 2019;37:876–887

Published
2019

3. Chromosome Transplantation: A Possible Approach to Treat Human X-linked Disorders.

Author

Paulis M, Susani L, Castelli A, Suzuki T, Hara T, Straniero L, Duga S, Strina D, Mantero S, Caldana E, Sergi LS, Villa A, and Vezzoni P

Abstract

Many human genetic diseases are associated with gross mutations such as aneuploidies, deletions, duplications, or inversions. For these "structural" disorders, conventional gene therapy, based on viral vectors and/or on programmable nuclease-mediated homologous recombination, is still unsatisfactory. To correct such disorders, chromosome transplantation (CT), defined as the perfect substitution of an endogenous defective chromosome with an exogenous normal one, could be applied. CT re-establishes a normal diploid cell, leaving no marker of the procedure, as we have recently shown in mouse pluripotent stem cells. To prove the feasibility of the CT approach in human cells, we used human induced pluripotent stem cells (hiPSCs) reprogrammed from Lesch-Nyhan (LN) disease patients, taking advantage of their mutation in the X-linked HPRT gene, making the LN cells selectable and distinguishable from the resistant corrected normal cells. In this study, we demonstrate, for the first time, that CT is feasible in hiPSCs: the normal exogenous X chromosome was first transferred using an improved chromosome transfer system, and the extra sex chromosome was spontaneously lost. These CT cells were functionally corrected and maintained their pluripotency and differentiation capability. By inactivation of the autologous HPRT gene, CT paves the way to the correction of hiPSCs from several X-linked disorders., (© 2020 The Author(s).)

Published
2020
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4. Chromosome Transplantation: Correction of the Chronic Granulomatous Disease Defect in Mouse Induced Pluripotent Stem Cells.

Author

Castelli A, Susani L, Menale C, Muggeo S, Caldana E, Strina D, Cassani B, Recordati C, Scanziani E, Ficara F, Villa A, Vezzoni P, and Paulis M

Subjects
Aminopterin metabolism, Aminopterin pharmacology, Animals, Base Sequence, CRISPR-Cas Systems, Cell Differentiation, Clone Cells, Culture Media chemistry, Disease Models, Animal, Gene Editing methods, Granulocytes cytology, Granulocytes drug effects, Granulomatous Disease, Chronic genetics, Granulomatous Disease, Chronic metabolism, Granulomatous Disease, Chronic pathology, Humans, Hypoxanthine metabolism, Hypoxanthine pharmacology, Hypoxanthine Phosphoribosyltransferase deficiency, Induced Pluripotent Stem Cells drug effects, Induced Pluripotent Stem Cells pathology, Male, Mice, NADPH Oxidase 2 deficiency, Proof of Concept Study, Sequence Deletion, Thioguanine metabolism, Thioguanine pharmacology, Thymidine metabolism, Thymidine pharmacology, X Chromosome chemistry, X Chromosome metabolism, Chromosomes, Mammalian, Genetic Therapy methods, Granulocytes metabolism, Granulomatous Disease, Chronic therapy, Hypoxanthine Phosphoribosyltransferase genetics, Induced Pluripotent Stem Cells metabolism, NADPH Oxidase 2 genetics
Abstract

In spite of the progress in gene editing achieved in recent years, a subset of genetic diseases involving structural chromosome abnormalities, including aneuploidies, large deletions and complex rearrangements, cannot be treated with conventional gene therapy approaches. We have previously devised a strategy, dubbed chromosome transplantation (CT), to replace an endogenous mutated chromosome with an exogenous normal one. To establish a proof of principle for our approach, we chose as disease model the chronic granulomatous disease (CGD), an X-linked severe immunodeficiency due to abnormalities in CYBB (GP91) gene, including large genomic deletions. We corrected the gene defect by CT in induced pluripotent stem cells (iPSCs) from a CGD male mouse model. The Hprt gene of the endogenous X chromosome was inactivated by CRISPR/Cas9 technology thus allowing the exploitation of the hypoxanthine-aminopterin-thymidine selection system to introduce a normal donor X chromosome by microcell-mediated chromosome transfer. X-transplanted clones were obtained, and diploid XY clones which spontaneously lost the endogenous X chromosome were isolated. These cells were differentiated toward the myeloid lineage, and functional granulocytes producing GP91 protein were obtained. We propose the CT approach to correct iPSCs from patients affected by other X-linked diseases with large deletions, whose treatment is still unsatisfactory. Stem Cells 2019;37:876-887., (©AlphaMed Press 2019.)

Published
2019
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5. SNX10 mutations define a subgroup of human autosomal recessive osteopetrosis with variable clinical severity.

Author

Pangrazio A, Fasth A, Sbardellati A, Orchard PJ, Kasow KA, Raza J, Albayrak C, Albayrak D, Vanakker OM, De Moerloose B, Vellodi A, Notarangelo LD, Schlack C, Strauss G, Kühl JS, Caldana E, Lo Iacono N, Susani L, Kornak U, Schulz A, Vezzoni P, Villa A, and Sobacchi C

Subjects
Amino Acid Sequence, Cohort Studies, Humans, Molecular Sequence Data, Sequence Homology, Amino Acid, Severity of Illness Index, Sorting Nexins chemistry, Genes, Recessive, Mutation, Osteopetrosis genetics, Sorting Nexins genetics
Abstract

Human Autosomal Recessive Osteopetrosis (ARO) is a genetically heterogeneous disorder caused by reduced bone resorption by osteoclasts. In 2000, we found that mutations in the TCIRG1 gene encoding for a subunit of the proton pump (V-ATPase) are responsible for more than one-half of ARO cases. Since then, five additional genes have been demonstrated to be involved in the pathogenesis of the disease, leaving approximately 25% of cases that could not be associated with a genotype. Very recently, a mutation in the sorting nexin 10 (SNX10) gene, whose product is suggested to interact with the proton pump, has been found in 3 consanguineous families of Palestinian origin, thus adding a new candidate gene in patients not previously classified. Here we report the identification of 9 novel mutations in this gene in 14 ARO patients from 12 unrelated families of different geographic origin. Interestingly, we define the molecular defect in three cases of "Västerbottenian osteopetrosis," named for the Swedish Province where a higher incidence of the disease has been reported. In our cohort of more than 310 patients from all over the world, SNX10-dependent ARO constitutes 4% of the cases, with a frequency comparable to the receptor activator of NF-κB ligand (RANKL), receptor activator of NF-κB (RANK) and osteopetrosis-associated transmembrane protein 1 (OSTM1)-dependent subsets. Although the clinical presentation is relatively variable in severity, bone seems to be the only affected tissue and the defect can be almost completely rescued by hematopoietic stem cell transplantation (HSCT). These results confirm the involvement of the SNX10 gene in human ARO and identify a new subset with a relatively favorable prognosis as compared to TCIRG1-dependent cases. Further analyses will help to better understand the role of SNX10 in osteoclast physiology and verify whether this protein might be considered a new target for selective antiresorptive therapies., (Copyright © 2013 American Society for Bone and Mineral Research.)

Published
2013
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6. Molecular and clinical heterogeneity in CLCN7-dependent osteopetrosis: report of 20 novel mutations.

Author

Pangrazio A, Pusch M, Caldana E, Frattini A, Lanino E, Tamhankar PM, Phadke S, Lopez AG, Orchard P, Mihci E, Abinun M, Wright M, Vettenranta K, Bariae I, Melis D, Tezcan I, Baumann C, Locatelli F, Zecca M, Horwitz E, Mansour LS, Van Roij M, Vezzoni P, Villa A, and Sobacchi C

Subjects
Adult, Age of Onset, Child, Child, Preschool, Chloride Channels chemistry, Chloride Channels metabolism, Crystallization, Female, Genotype, Humans, Infant, Infant, Newborn, Male, Models, Molecular, Phenotype, Chloride Channels genetics, Mutation, Osteopetrosis genetics, Osteopetrosis physiopathology, Severity of Illness Index
Abstract

The "Osteopetroses" are genetic diseases whose clinical picture is caused by a defect in bone resorption by osteoclasts. Three main forms can be distinguished on the basis of severity, age of onset and means of inheritance: the dominant benign, the intermediate and the recessive severe form. While several genes have been involved in the pathogenesis of the different types of osteopetroses, the CLCN7 gene has drawn the attention of many researchers, as mutations within this gene are associated with very different phenotypes. We report here the characterization of 25 unpublished patients which has resulted in the identification of 20 novel mutations, including 11 missense mutations, 6 causing premature termination, 1 small deletion and 2 putative splice site defects. Careful analysis of clinical and molecular data led us to several conclusions. First, intermediate osteopetrosis is not homogeneous, since it can comprise both severe dominant forms with an early onset and recessive ones without central nervous system involvement. Second, the appropriateness of haematopoietic stem cell transplantation in CLCN7-dependent ARO patients has to be carefully evaluated and exhaustive CNS examination is strongly suggested, as transplantation can almost completely cure the disease in situations where no primary neurological symptoms are present. Finally, the analysis of this largest cohort of CLCN7-dependent ARO patients together with some ADO II families allowed us to draw preliminary genotype-phenotype correlations suggesting that haploinsufficiency is not the mechanism causing ADO II. The availability of biochemical assays to characterize ClC-7 function will help to confirm this hypothesis.

Published
2010
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7. Brain lipid composition in grey-lethal mutant mouse characterized by severe malignant osteopetrosis.

Author

Prinetti A, Rocchetta F, Costantino E, Frattini A, Caldana E, Rucci F, Bettiga A, Poliani PL, Chigorno V, and Sonnino S

Subjects
Animals, Brain pathology, Cells, Cultured, Cholesterol metabolism, Female, Galactosylceramides metabolism, Gangliosides metabolism, Glycerophospholipids metabolism, Male, Membrane Proteins genetics, Membrane Proteins physiology, Mice, Mutation genetics, Myelin Sheath metabolism, Osteopetrosis genetics, Sphingolipids metabolism, Brain metabolism, Lipids chemistry, Osteopetrosis metabolism, Osteopetrosis pathology
Abstract

The grey-lethal mouse (gl/gl) mutant most closely resembles the severe human malignant autosomal recessive OSTM1-dependent form of osteopetrosis that it has been described to be associated with neurological abnormalities. For this reason, we have analyzed the brain lipid composition (gangliosides, neutral glycosphingolipids, phospholipids and cholesterol), from gl/gl mice at different ages of development and compared with wild type mice. Both cholesterol and glycerophospholipid content and pattern in the gl/gl and control mice were very similar. In contrast, significant differences were observed in the content of several sphingolipids. Higher amount of the monosialogangliosides GM2 and GM3, and lower content of sphingomyelin, sulfatide and galactosylceramide were observed in the gl/gl brain with respect to controls. The low content of sphingomyelin, sulfatide and galactosylceramide is consistent with the immunohistochemical results showing that in the grey-lethal brain significant depletion and disorganization of the myelinated fibres is present, thus supporting the hypothesis that loss of function of the OSTM1 causes neuronal impairment and myelin deficit.

Published
2009
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8. Prognostic potential of precise molecular diagnosis of Autosomal Recessive Osteopetrosis with respect to the outcome of bone marrow transplantation.

Author

Villa A, Pangrazio A, Caldana E, Guerrini M, Vezzoni P, Frattini A, and Sobacchi C

Abstract

Hematopoietic stem cell transplantation (HSCT) is often the only practical approach to fatal genetic defects. One of the first pathologies which HSCT was applied to was Autosomal Recessive Osteopetrosis (ARO), a rare genetic bone disease in which a deficit in bone resorption by osteoclasts leads to increased bone density and secondary defects. The disease is often lethal early in life unless treated with HSCT. In utero transplantation (IUT) of the oc/oc mouse, reproducing the clinical features of a subset of ARO, has demonstrated that the quality of life and the survival of transplanted animals are greatly improved, suggesting that a similar protocol could be applied to humans. However, recently the dissection of the molecular bases of the disease has shown that ARO is genetically heterogeneous and has revealed the presence of subsets of patients which do not benefit from HSCT. This observation highlights the importance of molecular diagnosing ARO to identify and establish the proper therapies for a better prognosis. In particular, on the basis of experimental results in murine models, efforts should be undertaken to develop approaches such as IUT and new pharmacological strategies.

Published
2008
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