Your search keyword '"Lysosomal diseases"' showing total 167 results

1. Architecture of an Expert System to Support Diagnostic Decisions for Hereditary Diseases

Author

Blagosklonov, Nikolay A., Kobrinskii, Boris A., Kacprzyk, Janusz, Series Editor, Samsonovich, Alexei V., editor, and Liu, Tingting, editor

Published

2024

2. Developing a scoring system for gene curation prioritization in lysosomal diseases.

Author

Vernet Machado Bressan Wilke, Matheus, Goldstein, Jennifer, Groopman, Emily, Mohan, Shruthi, Waddell, Amber, Fernandez, Raquel, Chen, Hongjie, Bali, Deeksha, Baudet, Heather, Clarke, Lorne, Hung, Christina, Mao, Rong, Yuzyuk, Tatiana, Craigen, William J., and Pinto e Vairo, Filippo

Subjects

*LYSOSOMAL storage diseases, *LITERATURE reviews, *GENETIC testing, *GENETIC variation, *NUCLEOTIDE sequencing

Abstract

Diseases caused by lysosomal dysfunction often exhibit multisystemic involvement, resulting in substantial morbidity and mortality. Ensuring accurate diagnoses for individuals with lysosomal diseases (LD) is of great importance, especially with the increasing prominence of genetic testing as a primary diagnostic method. As the list of genes associated with LD continues to expand due to the use of more comprehensive tests such as exome and genome sequencing, it is imperative to understand the clinical validity of the genes, as well as identify appropriate genes for inclusion in multi-gene testing and sequencing panels. The Clinical Genome Resource (ClinGen) works to determine the clinical importance of genes and variants to support precision medicine. As part of this work, ClinGen has developed a semi-quantitative framework to assess the strength of evidence for the role of a gene in a disease. Given the diversity in gene composition across LD panels offered by various laboratories and the evolving comprehension of genetic variants affecting secondary lysosomal functions, we developed a scoring system to define LD (Lysosomal Disease Scoring System - LDSS). This system sought to aid in the prioritization of genes for clinical validity curation and assess their suitability for LD-targeted sequencing panels. Through literature review encompassing terms associated with both classically designated LD and LFRD, we identified 14 criteria grouped into "Overall Definition," "Phenotype," and "Pathophysiology." These criteria included concepts such as the "accumulation of undigested or partially digested macromolecules within the lysosome" and being "associated with a wide spectrum of clinical manifestations impacting multiple organs and systems." The criteria, along with their respective weighted values, underwent refinement through expert panel evaluation differentiating them between "major" and "minor" criteria. Subsequently, the LDSS underwent validation on 12 widely acknowledged LD and was later tested by applying these criteria to the Lysosomal Disease Network's (LDN) official Gene List. The final LDSS comprised 4 major criteria and 10 minor criteria, with a cutoff of 2 major or 1 major and 3 minor criteria established to define LD. Interestingly, when applied to both the LDN list and a comprehensive gene list encompassing genes included in clinical panels and published as LFRD genes, we identified four genes (GRN, SLC29A3, CLN7 and VPS33A) absent from the LDN list, that were deemed associated with LD. Conversely, a subset of non-classic genes included in the LDN list, such as MTOR , OCRL , and SLC9A6 , received lower LDSS scores for their associated disease entities. While these genes may not be suitable for inclusion in clinical LD multi-gene panels, they could be considered for inclusion on other, non-LD gene panels. The LDSS offers a systematic approach to prioritize genes for clinical validity assessment. By identifying genes with high scores on the LDSS, this method enhanced the efficiency of gene curation by the ClinGen LD GCEP. The LDSS not only serves as a tool for gene prioritization prior to clinical validity curation, but also contributes to the ongoing discussion on the definition of LD. Moreover, the LDSS provides a flexible framework adaptable to future discoveries, ensuring its relevance in the ever-expanding landscape of LD research. [ABSTRACT FROM AUTHOR]

Published

2024

3. Transition from child to adult health care for patients with lysosomal storage diseases in France: current status and priorities—the TENALYS study, a patient perspective survey

Author

Delphine Genevaz, Armelle Arnoux, Catherine Marcel, Anaïs Brassier, Samia Pichard, François Feillet, François Labarthe, Brigitte Chabrol, Marc Berger, Anne-Sophie Lapointe, Yvann Frigout, Bénédicte Héron, Gilles Chatellier, and Nadia Belmatoug

Subjects

Lysosomal diseases, Transition from childhood to adulthood, Patient survey, Patient opinion, Medicine

Abstract

Abstract Background Transition from childhood to adulthood (TCA) is usually difficult in rare, progressive and multisystemic diseases. New treatments and modalities of care for many lysosomal diseases (LD) can increase life expectancy, and a successful TCA can help patient who reach adulthood to avoid disruption to health care. In France, some TCA initiatives have been taken by referral centers but in view of the problems encountered by Vaincre les Maladies Lysosomales (VML), the LD patient association, they seem to be insufficient. The aim of this study is to determine the current state of the TCA process and to identify actions to improve it through interviews with patient families and physicians in LD referral centers. The study is based upon an observational, non-interventional, cross-sectional, national survey which used two anonymous questionnaires. These questionnaires, developed by a scientific committee including representatives from VML and medical specialists in LD, were sent to patients who were receiving care in pediatric departments at age 15 years or older. Questionnaires were also sent to their referral pediatricians. Results Fifty-four patients were included. Forty-two questionnaires were completed by patients and their corresponding physicians and 12 were completed by physicians only. The majority of the patients (80%) were informed that transfer to adult healthcare would occur, but 52% were informed after their eighteenth birthday. Forty-eight percent indicated that they were informed that a TCA coordinator would be appointed; for 39% the time frame for the transfer was communicated, and 31% were informed of the composition of the adult medical team. Among the actions that patients rated as “important/very important”, and considered to be a priority in their comments, the most frequently cited were the provision of explanatory documents on the TCA (94%), the transmission of the medical file from the pediatric sector to the adult sector (94%) and a joint consultation with both pediatrician and adult unit physician (91%). Physicians were in agreement concerning the primary importance of the last two actions. Conclusion This study provides a basis for the deployment, on the national level, of transition programs which include specific actions that patients view as priorities.

Published

2022

4. Identification of a novel fusion Iduronidase with improved activity in the cardiovascular system

Author

Sarah Kim, Michael J. Przybilla, Chester B. Whitley, Li Ou, Mahmoud Al-Kofahi, and Jeanine R. Jarnes

Subjects

Lysosomal diseases, Mucopolysaccharidosis type I, Fusion enzyme, Gene therapy, Pharmacology, Pharmacokinetics, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Background: Lysosomal diseases are a group of over 70 rare genetic conditions in which a protein deficiency (most often an enzyme deficiency) leads to multi-system disease. Current therapies for lysosomal diseases are limited in their ability to treat certain tissues that are major contributors to morbidity and mortality, such as the central nervous system (CNS) and cardiac valves. For this study, the lysosomal disease mucopolysaccharidosis type I (MPS I) was selected as the disease model. In MPS I, mutations in the IDUA gene cause a deficiency of the α-L-iduronidase (IDUA) enzyme activity, leading to disease pathology in tissues throughout the body, including the CNS and cardiac valves. Current therapies have been unable to prevent neurodevelopmental deficits and cardiac valvular disease in patients with MPS I. This study aimed to evaluate the delivery of IDUA enzyme, via a novel gene therapy construct, to target tissues. Methods: MPS I mice were hydrodynamically injected through the tail vein with plasmids containing either a codon-optimized cDNA encoding the wild-type IDUA protein or one of four modified IDUAs under the control of the liver-specific human α1-antitrypsin (hAAT) promoter. Two modified IDUAs contained a ligand for the CB1 receptor, which is a highly expressed receptor in the CNS. Iduronidase activity levels were measured in the tissues and plasma using an enzyme activity assay. Results: The modified IDUAs did not appear to have improved activity levels in the brain compared with the unmodified IDUA. However, one modified IDUA exhibited higher activity levels than the unmodified IDUA in the heart (p = 0.0211). This modified iduronidase (LT-IDUA) contained a sequence for a six amino acid peptide termed LT. LT-IDUA was further characterized using a noncompartmental pharmacokinetic approach that directly analyzed enzyme activity levels after gene delivery. LT-IDUA had a 2-fold higher area under the curve (AUC) than the unmodified IDUA (p = 0.0034) when AUC was estimated using enzyme activity levels in the plasma. Conclusion: The addition of a six amino acid peptide improved iduronidase's activity levels in the heart and plasma. The short length of this LT peptide facilitates its use as fusion enzymes encoded as gene therapy or administered as enzyme replacement therapy. More broadly, the LT peptide may aid in developing therapies for numerous lysosomal diseases.

Published

2022

5. Over-Mutated Mitochondrial, Lysosomal and TFEB-Regulated Genes in Parkinson's Disease.

Author

Segur-Bailach, Eulàlia, Ugarteburu, Olatz, Tort, Frederic, Texido, Laura, Painous, Celia, Compta, Yaroslau, Martí, Maria José, Ribes, Antonia, and Gort, Laura

Subjects

*PARKINSON'S disease, *MITOCHONDRIA, *GENES, *GENETIC variation

Abstract

The association between Parkinson's disease (PD) and mutations in genes involved in lysosomal and mitochondrial function has been previously reported. However, little is known about the involvement of other genes or cellular mechanisms. We aim to identify novel genetic associations to better understand the pathogenesis of PD. We performed WES in a cohort of 32 PD patients and 30 age-matched controls. We searched for rare variants in 1667 genes: PD-associated, related to lysosomal function and mitochondrial function and TFEB-regulated. When comparing the PD patient cohort with that of age matched controls, a statistically significant burden of rare variants in the previous group of genes were identified. In addition, the Z-score calculation, using the European population database (GnomAD), showed an over-representation of particular variants in 36 genes. Interestingly, 11 of these genes are implicated in mitochondrial function and 18 are TFEB-regulated genes. Our results suggest, for the first time, an involvement of TFEB-regulated genes in the genetic susceptibility to PD. This is remarkable as TFEB factor has been reported to be sequestered inside Lewy bodies, pointing to a role of TFEB in the pathogenesis of PD. Our data also reinforce the involvement of lysosomal and mitochondrial mechanisms in PD. [ABSTRACT FROM AUTHOR]

Published

2022

6. Transition from child to adult health care for patients with lysosomal storage diseases in France: current status and priorities-the TENALYS study, a patient perspective survey.

Author

Genevaz, Delphine, Arnoux, Armelle, Marcel, Catherine, Brassier, Anaïs, Pichard, Samia, Feillet, François, Labarthe, François, Chabrol, Brigitte, Berger, Marc, Lapointe, Anne-Sophie, Frigout, Yvann, Héron, Bénédicte, Chatellier, Gilles, and Belmatoug, Nadia

Subjects

*LYSOSOMAL storage diseases, *PATIENTS' attitudes, *CHILD patients, *CHILDREN with learning disabilities, *MEDICAL care, *PATIENT surveys, *CHILDREN'S health

Abstract

Background: Transition from childhood to adulthood (TCA) is usually difficult in rare, progressive and multisystemic diseases. New treatments and modalities of care for many lysosomal diseases (LD) can increase life expectancy, and a successful TCA can help patient who reach adulthood to avoid disruption to health care. In France, some TCA initiatives have been taken by referral centers but in view of the problems encountered by Vaincre les Maladies Lysosomales (VML), the LD patient association, they seem to be insufficient. The aim of this study is to determine the current state of the TCA process and to identify actions to improve it through interviews with patient families and physicians in LD referral centers. The study is based upon an observational, non-interventional, cross-sectional, national survey which used two anonymous questionnaires. These questionnaires, developed by a scientific committee including representatives from VML and medical specialists in LD, were sent to patients who were receiving care in pediatric departments at age 15 years or older. Questionnaires were also sent to their referral pediatricians.Results: Fifty-four patients were included. Forty-two questionnaires were completed by patients and their corresponding physicians and 12 were completed by physicians only. The majority of the patients (80%) were informed that transfer to adult healthcare would occur, but 52% were informed after their eighteenth birthday. Forty-eight percent indicated that they were informed that a TCA coordinator would be appointed; for 39% the time frame for the transfer was communicated, and 31% were informed of the composition of the adult medical team. Among the actions that patients rated as "important/very important", and considered to be a priority in their comments, the most frequently cited were the provision of explanatory documents on the TCA (94%), the transmission of the medical file from the pediatric sector to the adult sector (94%) and a joint consultation with both pediatrician and adult unit physician (91%). Physicians were in agreement concerning the primary importance of the last two actions.Conclusion: This study provides a basis for the deployment, on the national level, of transition programs which include specific actions that patients view as priorities. [ABSTRACT FROM AUTHOR]

Published

2022

7. Short regulatory DNA sequences to target brain endothelial cells for gene therapy.

Author

Graßhoff, Hanna, Müller-Fielitz, Helge, Dogbevia, Godwin K, Körbelin, Jakob, Bannach, Jacqueline, Vahldieck, Carl MG, Kusche-Vihrog, Kristina, Jöhren, Olaf, Müller, Oliver J, Nogueiras, Ruben, Prevot, Vincent, and Schwaninger, Markus

Abstract

Gene vectors targeting CNS endothelial cells allow to manipulate the blood-brain barrier and to correct genetic defects in the CNS. Because vectors based on the adeno-associated virus (AAV) have a limited capacity, it is essential that the DNA sequence controlling gene expression is short. In addition, it must be specific for endothelial cells to avoid off-target effects. To develop improved regulatory sequences with selectivity for brain endothelial cells, we tested the transcriptional activity of truncated promoters of eleven (brain) endothelial-specific genes in combination with short regulatory elements, i.e., the woodchuck post-transcriptional regulatory element (W), the CMV enhancer element (C), and a fragment of the first intron of the Tie2 gene (S), by transfecting brain endothelial cells of three species. Four combinations of regulatory elements and short promoters (Cdh5, Ocln, Slc2a1, and Slco1c1) progressed through this in-vitro pipeline displaying suitable activity. When tested in mice, the regulatory sequences C- Ocln -W and C- Slc2a1 -S-W enabled a stronger and more specific gene expression in brain endothelial cells than the frequently used CAG promoter. In summary, the new regulatory elements efficiently control gene expression in brain endothelial cells and may help to specifically target the blood-brain barrier with gene therapy vectors. [ABSTRACT FROM AUTHOR]

Published

2022

8. TDP‐43 proteinopathy occurs independently of autophagic substrate accumulation and underlies nuclear defects in Niemann‐Pick C disease.

Author

Liu, Elaine A., Mori, Erika, Hamasaki, Fuko, and Lieberman, Andrew P.

Subjects

*NIEMANN-Pick diseases, *NUCLEAR transport, *LYSOSOMAL storage diseases, *NEUROINFLAMMATION, *NUCLEAR membranes, *NUCLEOCYTOPLASMIC interactions

Abstract

Aims: Neuronal cytoplasmic inclusions of TAR‐DNA binding protein of 43 kDa (TDP‐43) are a pathological hallmark of diverse neurodegenerative disorders, yet the processes that mediate their formation and their functional significance remain incompletely understood. Both dysfunction in autophagy and neuroinflammation have been linked to TDP‐43 mislocalisation. Here, we investigate TDP‐43 proteinopathy in Niemann‐Pick type C disease (NPC), an autosomal recessive lysosomal storage disease (LSD) distinguished by the accumulation of unesterified cholesterol within late endosomes and lysosomes. NPC is characterised by neurodegeneration, neuroinflammation and multifocal disruption of the autophagy pathway. Methods: We utilised immunohistochemistry, confocal microscopy, electron microscopy and biochemical and gene expression studies to characterise TDP‐43 pathology and autophagic substrate accumulation in Npc1‐deficient mice. Results: In the NPC brain, cytoplasmic TDP‐43 mislocalisation was independent of autophagic substrate accumulation. These pathologies occurred in distinct neuronal subtypes, as brainstem cholinergic neurons were more susceptible to TDP‐43 mislocalisation, whereas glutamatergic neurons exhibited hallmarks of autophagic dysfunction. Furthermore, TDP‐43 mislocalisation did not co‐localise with markers of stress granules or progress to ubiquitinated aggregates over months in vivo, indicating a stable, early stage in the aggregation process. Neither microgliosis nor neuroinflammation were sufficient to drive TDP‐43 proteinopathy in the NPC brain. Notably, cytoplasmic TDP‐43 co‐localised with the nuclear import factor importin α, and TDP‐43 mislocalised neurons demonstrated nuclear membrane abnormalities and disruption of nucleocytoplasmic transport. Conclusion: Our findings highlight the relationship between LSDs and TDP‐43 proteinopathy, define its functional importance in NPC by triggering nuclear dysfunction, and expand the spectrum of TDP‐43 pathology in the diseased brain. [ABSTRACT FROM AUTHOR]

Published

2021

9. The Lysosomal Diseases Testing Laboratory: A review of the past 47 years

Author

David A. Wenger and Paola Luzi

Subjects

genetic complementation, GM1 gangliosidosis, Krabbe disease, lysosomal diseases, metachromatic leukodystrophy, newborn screening, Diseases of the endocrine glands. Clinical endocrinology, RC648-665, Genetics, QH426-470

Abstract

Summary Lysosomal disorders are diseases that involve mutations in genes responsible for the coding of lysosomal enzymes, transport proteins, activator proteins and protein processing enzymes. These defects lead to the storage of specific metabolites within lysosomes resulting in a great variety of clinical features depending on the tissues with the storage, the storage products and the extent of the storage. The methods for rapidly diagnosing patients started in the late 1960's when the enzyme defects were identified eliminating the need for tissue biopsies. The first requests for diagnostic help in this laboratory came in 1973. In that year, patients with Krabbe disease and Niemann‐Pick type A were diagnosed. Since that time samples from about 62 000 individuals have been received for diagnostic studies, and 4900 diagnoses have been made. The largest number of diagnosed individuals had metachromatic leukodystrophy and Krabbe disease because of our research interest in leukodystrophies. A number of new disorders were identified and the primary defects in other disorders were clarified. With new methods for diagnosis, including newborn screening, molecular analysis, microarrays, there is still a need for biochemical confirmation before treatment is considered. With new treatments, including gene therapy, stem cell transplantation, enzyme replacement used alone or in combination becoming more available, the need for rapid, accurate diagnosis is critical.

Published

2020

10. Mucopolysaccharidosis type II: Enzyme Replacement Therapy Efficiency

Author

Nato D. Vashakmadze, Leyla S. Namazova-Baranova, Natalia V. Zhurkova, Ekaterina Yu. Zakharova, Grigory V. Revunenkov, Tina V. Lobjanidze, and Marina A. Babaikina

Subjects

children, lysosomal diseases, mucopolysaccharidosis type ii, cardiovascular system, enzyme replacement therapy, idursulfase, Pediatrics, RJ1-570

Abstract

Mucopolysaccharidosis type II (MPS II), or Hunter syndrome, is the hereditary lysosomal storage disease caused by pathological variants in IDS gene. Such variants lead to iduronate-2-sulfatase enzyme deficiency and glycosaminoglycan catabolism disorder. Major clinical signs are central nervous system lesion, disorders of musculoskeletal system, cardiovascular and respiratory systems pathologies, hepatosplenomegaly, hearing impairment. Enzyme replacement therapy (ERT) makes it possible to adjust metabolic processes in lysosomes of many organs and tissues, to improve clinical signs due to partial restoring of the damaged enzyme function. Cardiovascular pathology is the main cause of death in patients with MPS. In this regard we have studied efficiency of ERT with idursulfase and its effects on the cardiovascular system in 55 patients with MPS II. It has been shown that ERT started from an early age can significantly improve children's condition, reduce or event prevent cardiac involvement. Treatment gaps from 1 to 7 months due to economic or organizational factors in 12 patients caused worsening course of the disease.

Published

2020

11. Chitotriosidase as a biomarker for gangliosidoses

Author

Sarah Kim, Chester B. Whitley, and Jeanine R. Jarnes

Subjects

Lysosomal diseases, Chitotriosidase, GM1-gangliosidosis, GM2-gangliosidosis, Mucopolysaccharidosis, Gaucher, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Elevated serum chitotriosidase (CHITO) is an indication of macrophage activation, and its capacity have been explored as a marker of inflammation in a number of disease states. For over a decade, CHITO plasma levels have been used by clinicians as a biomarker of inflammation in the lysosomal disease, Gaucher disease, including monitoring response to therapies in patients with Gaucher disease type I. Although it is becoming increasingly recognized that inflammation is a prominent component of many lysosomal diseases, the relation of CHITO levels to disease burden has not been well-characterized in the large majority of lysosomal diseases. Moreover, the role of CHITO in lysosomal diseases that affect the central nervous system (CNS) has not been systematically studied. In this study, one hundred and thirty-four specimens of CSF and serum were collected from 34 patients with lysosomal diseases affecting the CNS. This study included patients with GM1-gangliosidosis, GM2-gangliosidosis, mucopolysaccharidoses (MPS), multiple sulfatase deficiency and Gaucher disease. CHITO levels in the CSF were significantly higher in patients with more rapidly progressing severe neurological impairment: GM1-gangliosidosis vs MPS (p

Published

2021

12. Clinical and Molecular Characterization of Mucopolysaccharidosis Type 3A and 3B in a Turkish Series.

Author

Noyan B, Elcioglu NH, Tebani A, and Bekri S

Abstract

Introduction: Sanfilippo syndrome or mucopolysaccharidosis type 3 (MPS-3) is a rare condition and its epidemiological data are still not defined. MPS-3 is linked to a deficiency in enzymes involved in heparan sulfate degradation. This biomolecule is neurotoxic and its accumulation underlies the severe central nervous system degeneration observed in this disease., Methods: Here, we describe 15 Turkish patients with MPS-3A or MPS-3B subtypes. Clinical data upon the diagnosis and during the follow-up as well as molecular characterization are reported., Results: Two and ten distinct variants were identified in SGSH and NAGLU gene sequences, respectively. Six variants ( NAGLU NM_000263.3:c.532-?_c.764+?del, NAGLU NM_000263.3: c.509G>T, NAGLU NM_000263.3: c.700C>G, NAGLU NM_000263.3:c.507_516 del, NAGLU NM dises_000263.3: c.1354 G>A, NAGLU NM_000263.3: c.200T>C) have been previously published and 6 are novel ( SGSH NM_000199.4: c.80T>G, SGSH NM_000199.4: c.7_16del, NAGLU NM_000263.3: c.224_235del, NAGLU NM_000263.3: c.904G>T, NAGLU NM_000263.3: c.626C>T, NAGLU NM_000263.3: c.1241A>G). SGSH NM_000199.4:c.7_16del variation might be caused by a founder effect., Conclusion: Due to the high rate of consanguinity in Turkey, the incidence of Sanfilippo syndrome might be higher compared to other populations worldwide. Our results contribute to the characterization of rare diseases in Turkey and to improve our knowledge of the clinical, molecular, and epidemiological aspects of MPS-3 disease., Competing Interests: The authors have no conflicts of interest to declare., (© 2024 S. Karger AG, Basel.)

Published

2024

13. Clinical Trials for Gene Therapy in Lysosomal Diseases With CNS Involvement

Author

Caroline Sevin and Kumaran Deiva

Subjects

lysosomal diseases, gene therapy, Adeno-associated virus, lentival vector, CNS-central nervous system, Biology (General), QH301-705.5

Abstract

There are over 70 known lysosomal storage disorders (LSDs), most caused by mutations in genes encoding lysosomal hydrolases. Central nervous system involvement is a hallmark of the majority of LSDs and, if present, generally determines the prognosis of the disease. Nonetheless, brain disease is currently poorly targeted by available therapies, including systemic enzyme replacement therapy, mostly (but not only) due to the presence of the blood–brain barrier that restricts the access of orally or parenterally administered large molecules into the brain. Thus, one of the greatest and most exciting challenges over coming years will be to succeed in developing effective therapies for the treatment of central nervous system manifestations in LSDs. Over recent years, gene therapy (GT) has emerged as a promising therapeutic strategy for a variety of inherited neurodegenerative diseases. In LSDs, the ability of genetically corrected cells to cross-correct adjacent lysosomal enzyme-deficient cells in the brain after gene transfer might enhance the diffusion of the recombinant enzyme, making this group of diseases a strong candidate for such an approach. Both in vivo (using the administration of recombinant adeno-associated viral vectors) and ex vivo (auto-transplantation of lentiviral vector-modified hematopoietic stem cells-HSCs) strategies are feasible. Promising results have been obtained in an ever-increasing number of preclinical studies in rodents and large animal models of LSDs, and these give great hope of GT successfully correcting neurological defects, once translated to clinical practice. We are now at the stage of treating patients, and various clinical trials are underway, to assess the safety and efficacy of in vivo and ex vivo GT in several neuropathic LSDs. In this review, we summarize different approaches being developed and review the current clinical trials related to neuropathic LSDs, their results (if any), and their limitations. We will also discuss the pitfalls and the remaining challenges.

Published

2021

14. Nephropathic cystinosis presenting with uveitis: Report of a 'Can't See, Can't Pee' situation

Author

Smita Mary Matthai, Shibu Jacob, Mandeep S Bindra, Vinoi George David, and Santosh Varughese

Subjects

CTNS gene, cysteamine, cystinosis, lysosomal diseases, nephropathic cystinosis, Pathology, RB1-214, Microbiology, QR1-502

Abstract

Nephropathic cystinosis is a rare autosomal recessive lysosomal disease characterized by accumulation of pathognomonic cystine crystals in renal and other tissues of the body. Cystinosis is caused by mutant cystinosin, the cystine transport protein located in lysosomal membranes, leading to systemic deposits of cystine and resultant end organ damage. Cystinosis is rarer in Asians than Caucasians with only a handful of cases reported from India to date. Due to its extreme rarity and clinically insidious presentation in contrast to the infantile form, the diagnosis of juvenile nephropathic cystinosis is frequently delayed or overlooked. Moreover, routine processing and sectioning of paraffin embedded tissues dissolves cystine crystals, making it difficult to diagnose this condition on light microscopic examination alone, mandating electron microscopic (EM) analysis of renal biopsies for an accurate diagnosis of this condition. We describe a case of juvenile nephropathic cystinosis presenting with uveitis and photophobia in a 17-year-old Indian male, diagnosed after EM examination of the patient's renal biopsy for evaluation of nephrotic syndrome. While highlighting the diagnostic utility of EM, we describe a few histopathologic clues which can prompt inclusion of EM analysis of renal biopsies in this setting.

Published

2019

15. Enzymatic diagnosis of neuronal lipofuscinoses in dried blood spots using substrates for concomitant tandem mass spectrometry and fluorimetry.

Author

Maeser, Stefan, Petre, Brindusa‐Alina, Ion, Laura, Rawer, Stephan, Kohlschütter, Alfried, Santorelli, Filippo M., Simonati, Alessandro, Schulz, Angela, and Przybylski, Michael

Subjects

*TANDEM mass spectrometry, *PEPTIDASE, *FLUORIMETRY, *CATHEPSIN D, *DIAGNOSIS, *MASS spectrometry

Abstract

Neuronal ceroid lipofuscinoses (NCLs) are a group of neurodegenerative diseases predominantly in childhood that are characterized by psychomotor deterioration, epilepsy, and early death of patients. The NCLs analyzed in the present study are caused by defects of the specific enzymes, CLN1 (palmitoyl protein thioesterase 1; PPT1), CLN2 (tripeptidyl peptidase 1; TPP1), and CLN10 (cathepsin D). Specific and sensitive diagnostic assays of NCLs were the main goal of this study. They are of increasing importance, particularly since enzyme replacement therapy (ERT) for NCL2 has recently become available for clinical treatment, and ERTs for further NCLs are under development. Here, we report specific and sensitive determinations for CLN1, CLN2, and CLN10 on dried blood spots by tandem mass spectrometry using multiple reaction monitoring mass spectrometry (MRM‐MS). Identical substrates suitable for (i) fluorimetric determination of single enzymes and (ii) for MRM‐MS determination of multiple enzymes were synthesized by chemical coupling of alkyl‐umbelliferone building blocks with the corresponding peptidyl‐substrate groups recognized by the target enzyme. Enzymatic determinations were performed both by fluorimetry and MRM‐MS in patients with NCL1, NCL2, and NCL10 and showed good agreement in single assays. Moreover, duplex and triplex determinations were successfully performed for NCL1, NCL2, and NCL10. Specific peptidyl‐(4‐alkyl‐umbelliferone) substrates were also synthesized for mass spectrometric determinations of different cathepsins (cathepsins‐D, ‐F, and ‐B), to provide a differentiation of proteolytic specificities. [ABSTRACT FROM AUTHOR]

Published

2021

16. Lysosomal Diseases and Neuropsychiatry: Opportunities to Rebalance the Mind

Author

Timothy M. Cox

Subjects

psychiatric manifestations, schizophrenia, lysosomal diseases, sphingolipids, late-onset Tay-Sachs disease, GM2 gangliosidoses, Biology (General), QH301-705.5

Abstract

The brain is the physical organ of the mind but efforts to understand mental illness within a neurobiological context have hitherto been unavailing. Mental disorders (anxiety, depression, bipolar disorder, and schizophrenia) affect about one fifth of the population and present an almost endless societal challenge at the frontier of human sciences. Prodigious technological advances in functional neuroimaging and large-scale genetics have not yet delivered the prospect of refined molecular understanding of mental illness beyond early anatomical descriptions of brain metabolism. However, intensive clinical phenotyping and quantitative metabolic studies using sophisticated radio-ligands in positron-emission tomography, persistently favor the neurobiological approach. This Perspective pursues a familiar maxim in Medicine, aptly summarized in the words of Arthur Koestler: “Nature is generous in her senseless experiments on mankind.” Hitherto, studies in neuropsychiatry have largely ignored rare genetic disorders but derangements of specific components within the cerebral laboratory offer rich opportunities for mechanistic exploration. Aberrant psychic behavior is characteristic of many inborn errors of metabolism and although each disorder represents a universe of its own, we are at a threshold for understanding, since contemporary genetics and cell biology furnish abundant materials to take on the perturbing enigma of mental derangement. A further development relates to orphan drugs with actions on defined molecular targets: these represent new ways to study the pathogenesis of psychiatric phenomena associated with rare diseases and in a manner not formerly possible. Here we introduce the frontier of schizophrenia and its strong association with late-onset Tay-Sachs disease as a paradigm to explore.

Published

2020

17. Pre-clinical Mouse Models of Neurodegenerative Lysosomal Storage Diseases

Author

Jacob M. Favret, Nadav I. Weinstock, M. Laura Feltri, and Daesung Shin

Subjects

lysosomal diseases, preclinical mouse models, HSCT, enzyme replacement therapy, gene therapy, chaperone therapy, Biology (General), QH301-705.5

Abstract

There are over 50 lysosomal hydrolase deficiencies, many of which cause neurodegeneration, cognitive decline and death. In recent years, a number of broad innovative therapies have been proposed and investigated for lysosomal storage diseases (LSDs), such as enzyme replacement, substrate reduction, pharmacologic chaperones, stem cell transplantation, and various forms of gene therapy. Murine models that accurately reflect the phenotypes observed in human LSDs are critical for the development, assessment and implementation of novel translational therapies. The goal of this review is to summarize the neurodegenerative murine LSD models available that recapitulate human disease, and the pre-clinical studies previously conducted. We also describe some limitations and difficulties in working with mouse models of neurodegenerative LSDs.

Published

2020

18. CASCADE GENETIC SCREENING FOR DIAGNOSTICS OF PRECLINICAL FORMS OF FABRY DISEASE IN CHILDREN.

Author

V. M., TRIPELETS, N. L. G., KHACHATRYA, O. V., BYKOVA, O. B., KONDAKOVA, E. N., TYURINA, L. S., STAROSTINA, E. V., KASANAVE, and D. E., AREYAN

Subjects

GENETIC testing, ANGIOKERATOMA corporis diffusum, NEUROPATHY, ALBUMINURIA, LIPIDS

Abstract

The article is devoted to Fabry disease, which is a very rare disorder (orphan disease). Fabry disease is a multisystem enzymopathy, the second most common lysosomal disorder after Gaucher disease. Fabry disease is related to the lysosomal storage of the decomposition product of complex lipids, such as globotriaosylceramide (GL-3 and lyso GL-3) in the endothelial cells of the heart vessels, kidneys, brain and peripheral nervous system resulting ftom a decrease in the activity of alpha-galactosidase-A enzyme (a -GAL A). The example of a family case in the article reflects the necessary diagnostic algorithm for early verification of this disease. It is important to evaluate organs - systems, the control of the plasma globotriaosylsphingosine (Plasma Gb3) biomarker for the timely initiation of etiopathogenetic enzyme replacement therapy, which should be used in children with neuropathic pain and albuminuria (with a creatinine level in blood plasma > 3 mg/mmol), severe gastrointestinal tract lesions, abdominal pain and heart damage. nzyme replacement therapy should also be used for the asymptomatic for m of Fabry disease in boys from the age of 7. The article demonstrates the correlation of the therapy and prognosis of patients with etiotropic enzyme replacement therapy prescription. Cascade genetic screening of children having at least one first-degree relative with Fabry disease is the simplest and most effective method for diagnosing the disease. It has been shown that Fabry disease is a rare disorder and a high index of professional medical competence is required for the initial diagnosis. Early detection of Fabry disease in clinical practice may be difficult due to the heterogeneity of the clinical manifestations of the disease and the similarity with other rheumatological diseases that are more common in children. Neuropathic pains in the extremities, acroparesthesia in combination with abdominal pain and connective tissue dysplasia in boys can serve as "Red Flags" for doctors, allowing to suspect Fabry disease. All children with Fabry disease, including those with preclinical forms of the disease, need constant control and regular clinical monitoring. The article demonstrates an examination of 24 members of one family, 12 of which with Fabry disease, and thus verifies the algorithm for diagnosing this disease. [ABSTRACT FROM AUTHOR]

Published

2020

19. CARDIOVASCULAR INVOLVEMENT IN POMPE DISEASE

Author

Alina-Costina Luca and Elena Braha

Subjects

lysosomal diseases, pompe disease, cardiomyopathy, Medicine, Pediatrics, RJ1-570

Abstract

Lysosomal storage diseases are a diverse group of monogenic disorders which are as defined by defects in lysosomal function. The heart is part of the clinical phenotype of lysosomal storage diseases. Pompe disease is marked by absence/deficiency of the lysosomal enzyme alpha-glucosidase and by different ages of onset. The infantile form is defined by muscle weakness and progressive cardiac hypertrophy, followed by progressive cardiac failure. Pompe disease requires immediate intervention to maximize the potential benefit from enzymatic therapy, with improvement of the phenotype. This article presents clinical and cardiac findings suggestive for Pompe’s disease.

Published

2017

20. Lysosomal storage diseases.

Author

Burlina AP, Manara R, and Gueraldi D

Subjects

Humans, Lysosomal Storage Diseases therapy, Lysosomal Storage Diseases pathology

Abstract

Lysosomal storage disorders (LSDs) are a group of inherited metabolic diseases caused by dysfunction of the lysosomal system, with subsequent progressive accumulation of macromolecules, activation of inflammatory response, and cell death. Neurologic damage is almost always present, and it is usually degenerative. White matter (WM) involvement may be primary or secondary. Diseases with primary WM involvement are leukodystrophies, demyelinating (Krabbe disease and metachromatic leukodystrophy), and hypomyelinating leukodystrophies (free sialic acid storage disease, fucosidosis, and mucolipidosis type IV). LSDs with secondary WM involvement are classified as leukoencephalopathies and include gangliosidosis, mucopolysaccharidosis (MPS), ceroid neuronal lipofuscinosis, multiple sulfatase deficiency, alpha-mannosidosis, Pompe disease, and Fabry disease. Neurologic manifestations may overlap among LSDs and include developmental delays, motor, cognitive and speech impairments, seizures, visual failure, ataxia, and extrapyramidal signs. Most of LSDs are typically present in early or late infancy, but juvenile and adult forms also exist and are associated with predominantly neuropsychiatric and behavioral symptoms. The outcome of these disorders is generally poor and specific treatments (enzyme replacement therapy, hematopoietic stem cell transplantation, or gene therapy) are only available in a small number of them., (Copyright © 2024 Elsevier B.V. All rights are reserved, including those for text and data mining, AI training, and similar technologies.)

Published

2024

21. Gene Therapy for Lysosomal Storage Disorders: Ongoing Studies and Clinical Development

Author

Giulia Massaro, Amy F. Geard, Wenfei Liu, Oliver Coombe-Tennant, Simon N. Waddington, Julien Baruteau, Paul Gissen, and Ahad A. Rahim

Subjects

lysosomal diseases, gene therapy, viral vectors, Microbiology, QR1-502

Abstract

Rare monogenic disorders such as lysosomal diseases have been at the forefront in the development of novel treatments where therapeutic options are either limited or unavailable. The increasing number of successful pre-clinical and clinical studies in the last decade demonstrates that gene therapy represents a feasible option to address the unmet medical need of these patients. This article provides a comprehensive overview of the current state of the field, reviewing the most used viral gene delivery vectors in the context of lysosomal storage disorders, a selection of relevant pre-clinical studies and ongoing clinical trials within recent years.

Published

2021

22. Murine Models of Lysosomal Storage Diseases Exhibit Differences in Brain Protein Aggregation and Neuroinflammation

Author

Jennifer Clarke, Can Kayatekin, Catherine Viel, Lamya Shihabuddin, and Sergio Pablo Sardi

Subjects

lysosomal diseases, synuclein, tau, neuroinflammation, mouse models of disease, Biology (General), QH301-705.5

Abstract

Genetic, epidemiological and experimental evidence implicate lysosomal dysfunction in Parkinson’s disease (PD) and related synucleinopathies. Investigate several mouse models of lysosomal storage diseases (LSDs) and evaluate pathologies reminiscent of synucleinopathies. We obtained brain tissue from symptomatic mouse models of Gaucher, Fabry, Sandhoff, Niemann–Pick A (NPA), Hurler, Pompe and Niemann–Pick C (NPC) diseases and assessed for the presence of Lewy body-like pathology (proteinase K-resistant α-synuclein and tau aggregates) and neuroinflammation (microglial Iba1 and astrocytic GFAP) by immunofluorescence. All seven LSD models exhibited evidence of proteinopathy and/or inflammation in the central nervous system (CNS). However, these phenotypes were divergent. Gaucher and Fabry mouse models displayed proteinase K-resistant α-synuclein and tau aggregates but no neuroinflammation; whereas Sandhoff, NPA and NPC showed marked neuroinflammation and no overt proteinopathy. Pompe disease animals uniquely displayed widespread distribution of tau aggregates accompanied by moderate microglial activation. Hurler mice also demonstrated proteinopathy and microglial activation. The present study demonstrated additional links between LSDs and pathogenic phenotypes that are hallmarks of synucleinopathies. The data suggest that lysosomal dysregulation can contribute to brain region-specific protein aggregation and induce widespread neuroinflammation in the brain. However, only a few LSD models examined exhibited phenotypes consistent with synucleinopathies. While no model can recapitulate the complexity of PD, they can enable the study of specific pathways and mechanisms contributing to disease pathophysiology. The present study provides evidence that there are existing, previously unutilized mouse models that can be employed to study pathogenic mechanisms and gain insights into potential PD subtypes, helping to determine if they are amenable to pathway-specific therapeutic interventions.

Published

2021

23. Lysosomal Leukodystrophies Lysosomal Storage Diseases Associated With White Matter Abnormalities.

Author

Maegawa, Gustavo H.B.

Subjects

*LEUKODYSTROPHY, *LYSOSOMAL storage diseases, *LEUKOENCEPHALOPATHIES, *GENETIC disorders, *MYELIN sheath, *METABOLIC disorders

Abstract

The leukodystrophies are a group of genetic metabolic diseases characterized by an abnormal development or progressive degeneration of the myelin sheath. The myelin is a complex sheath composed of several macromolecules covering axons as an insulator. Each of the leukodystrophies is caused by mutations in genes encoding enzymes that are involved in myelin production and maintenance. The lysosomal storage diseases are inborn disorders of compartmentalized cellular organelles with broad clinical manifestations secondary to the progressive accumulation of undegraded macromolecules within lysosomes and related organelles. The more than 60 different lysosomal storage diseases are rare diseases; however, collectively, the incidence of lysosomal storage diseases ranges just over 1 in 2500 live births. The majority of lysosomal storage diseases are associated with neurologic manifestations including developmental delay, seizures, acroparesthesia, motor weakness, and extrapyramidal signs. These inborn organelle disorders show wide clinical variability affecting individuals from all age groups. In addition, several of neurologic, also known as neuronopathic, lysosomal storage diseases are associated with some level of white matter disease, which often triggers the diagnostic investigation. Most lysosomal storage diseases are autosomal recessively inherited and few are X-linked, with females being at risk of presenting with mild, but clinically relevant neurologic manifestations. Biochemical assays are the basis of the diagnosis and are usually confirmed by molecular genetic testing. Novel therapies have emerged. However, most affected patients with lysosomal storage diseases have only supportive management to rely on. A better understanding of the mechanisms resulting in the leukodystrophy will certainly result in innovative and efficacious disease-modifying therapies. [ABSTRACT FROM AUTHOR]

Published

2019

24. Elevated Dipeptidyl Peptidase IV (DPP-IV) Activity in Plasma from Patients with Various Lysosomal Diseases

Author

Agnieszka Ługowska, Galina Baydakova, Alex Ilyushkina, Ekaterina Zakharova, Hanna Mierzewska, Krystyna Szymańska, Jolanta Wierzba, Jolanta Kubalska, Ałła Graban, Tomasz Kmieć, Barbara Perkowska-Sumiła, Anna Tylki-Szymańska, and Małgorzata Bednarska-Makaruk

Subjects

DPP-IV, lysosomal diseases, mucolipidosis II/III, mucopolysaccharidoses, alpha-mannosidosis, diagnosis, Medicine (General), R5-920

Abstract

Increased activity of dipeptidyl peptidase IV (DPP-IV) was reported earlier in patients with different types of mucopolysaccharidoses. DPP-IV (also known as CD26 lymphocyte T surface antigen) is a transmembrane protein showing protease activity. This enzyme displays various functions in the organism and plays an important role in multiple processes like glucose metabolism, nociception, cell-adhesion, psychoneuroendocrine regulation, immune response and cardiovascular adaptation. In order to evaluate DPP-IV in lysosomal storage diseases (LSD), we examined its activity in plasma samples from 307 patients affected with 24 different LSDs and in 75 control persons. Our results revealed elevated DPP-IV activity especially in individuals affected with mucolipidosis II/III, alpha-mannosidosis, and mucopolysaccharidoses types III, II, and I (p < 0.05). In other LSDs the DPP-IV activity was still significantly increased, but to a lesser extent. In patients with Gaucher disease, ceroid lipofuscinosis type 1 (CLN1), Niemann–Pick disease type C and A, Krabbe and Pompe diseases, gangliosidosis GM2 and metachromatic leukodystrophy discreet or no changes in DPP-IV activity were observed. DPP-IV may serve as a first-tier diagnostic procedure or additional biochemical analysis in recognizing patients with some LSDs. DPP-IV may become an object of basic research for a better understanding of LSDs.

Published

2021

25. Molecular Trojan Horses for treating lysosomal storage diseases.

Author

Leal, Andrés Felipe, Inci, Orhan Kerim, Seyrantepe, Volkan, Rintz, Estera, Celik, Betul, Ago, Yasuhiko, León, Daniel, Suarez, Diego A., Alméciga-Díaz, Carlos Javier, and Tomatsu, Shunji

Subjects

*LYSOSOMAL storage diseases, *RECOMBINANT proteins, *MONOCLONAL antibodies, *CELL-penetrating peptides, *ORGANELLES, *CENTRAL nervous system, *COATED vesicles, *POLYMERSOMES

Abstract

Lysosomal storage diseases (LSDs) are caused by monogenic mutations in genes encoding for proteins related to the lysosomal function. Lysosome plays critical roles in molecule degradation and cell signaling through interplay with many other cell organelles, such as mitochondria, endoplasmic reticulum, and peroxisomes. Even though several strategies (i.e., protein replacement and gene therapy) have been attempted for LSDs with promising results, there are still some challenges when hard-to-treat tissues such as bone (i.e., cartilages, ligaments, meniscus, etc.), the central nervous system (mostly neurons), and the eye (i.e., cornea, retina) are affected. Consistently, searching for novel strategies to reach those tissues remains a priority. Molecular Trojan Horses have been well-recognized as a potential alternative in several pathological scenarios for drug delivery, including LSDs. Even though molecular Trojan Horses refer to genetically engineered proteins to overcome the blood-brain barrier, such strategy can be extended to strategies able to transport and deliver drugs to specific tissues or cells using cell-penetrating peptides, monoclonal antibodies, vesicles, extracellular vesicles, and patient-derived cells. Only some of those platforms have been attempted in LSDs. In this paper, we review the most recent efforts to develop molecular Trojan Horses and discuss how this strategy could be implemented to enhance the current efficacy of strategies such as protein replacement and gene therapy in the context of LSDs. [ABSTRACT FROM AUTHOR]

Published

2023

26. Precision Medicine for Lysosomal Disorders

Author

Filippo Pinto e Vairo, Diana Rojas Málaga, Francyne Kubaski, Carolina Fischinger Moura de Souza, Fabiano de Oliveira Poswar, Guilherme Baldo, and Roberto Giugliani

Subjects

lysosomal diseases, precision medicine, enzyme replacement therapy, pharmacological chaperones, gene therapy., Microbiology, QR1-502

Abstract

Precision medicine (PM) is an emerging approach for disease treatment and prevention that accounts for the individual variability in the genes, environment, and lifestyle of each person. Lysosomal diseases (LDs) are a group of genetic metabolic disorders that include approximately 70 monogenic conditions caused by a defect in lysosomal function. LDs may result from primary lysosomal enzyme deficiencies or impairments in membrane-associated proteins, lysosomal enzyme activators, or modifiers that affect lysosomal function. LDs are heterogeneous disorders, and the phenotype of the affected individual depends on the type of substrate and where it accumulates, which may be impacted by the type of genetic change and residual enzymatic activity. LDs are individually rare, with a combined incidence of approximately 1:4000 individuals. Specific therapies are already available for several LDs, and many more are in development. Early identification may enable disease course prediction and a specific intervention, which is very important for clinical outcome. Driven by advances in omics technology, PM aims to provide the most appropriate management for each patient based on the disease susceptibility or treatment response predictions for specific subgroups. In this review, we focused on the emerging diagnostic technologies that may help to optimize the management of each LD patient and the therapeutic options available, as well as in clinical developments that enable customized approaches to be selected for each subject, according to the principles of PM.

Published

2020

27. Over-Mutated Mitochondrial, Lysosomal and TFEB-Regulated Genes in Parkinson’s Disease

Author

Eulàlia Segur-Bailach, Olatz Ugarteburu, Frederic Tort, Laura Texido, Celia Painous, Yaroslau Compta, Maria José Martí, Antonia Ribes, and Laura Gort

Subjects

Parkinson’s disease, lysosomal, mitochondrial, TFEB, risk-factor, WES, lysosomal diseases, mitochondrial function, General Medicine

Abstract

The association between Parkinson’s disease (PD) and mutations in genes involved in lysosomal and mitochondrial function has been previously reported. However, little is known about the involvement of other genes or cellular mechanisms. We aim to identify novel genetic associations to better understand the pathogenesis of PD. We performed WES in a cohort of 32 PD patients and 30 age-matched controls. We searched for rare variants in 1667 genes: PD-associated, related to lysosomal function and mitochondrial function and TFEB-regulated. When comparing the PD patient cohort with that of age matched controls, a statistically significant burden of rare variants in the previous group of genes were identified. In addition, the Z-score calculation, using the European population database (GnomAD), showed an over-representation of particular variants in 36 genes. Interestingly, 11 of these genes are implicated in mitochondrial function and 18 are TFEB-regulated genes. Our results suggest, for the first time, an involvement of TFEB-regulated genes in the genetic susceptibility to PD. This is remarkable as TFEB factor has been reported to be sequestered inside Lewy bodies, pointing to a role of TFEB in the pathogenesis of PD. Our data also reinforce the involvement of lysosomal and mitochondrial mechanisms in PD.

Published

2022

28. Lysosomal enzyme replacement therapies: Historical development, clinical outcomes, and future perspectives.

Author

Solomon, Melani and Muro, Silvia

Subjects

*LYSOSOMAL storage diseases, *THERAPEUTICS, *THERAPEUTIC use of enzymes, *LYSOSOMES, *CELL death, *DRUG side effects

Abstract

Lysosomes and lysosomal enzymes play a central role in numerous cellular processes, including cellular nutrition, recycling, signaling, defense, and cell death. Genetic deficiencies of lysosomal components, most commonly enzymes, are known as “lysosomal storage disorders” or “lysosomal diseases” (LDs) and lead to lysosomal dysfunction. LDs broadly affect peripheral organs and the central nervous system (CNS), debilitating patients and frequently causing fatality. Among other approaches, enzyme replacement therapy (ERT) has advanced to the clinic and represents a beneficial strategy for 8 out of the 50–60 known LDs. However, despite its value, current ERT suffers from several shortcomings, including various side effects, development of “resistance”, and suboptimal delivery throughout the body, particularly to the CNS, lowering the therapeutic outcome and precluding the use of this strategy for a majority of LDs. This review offers an overview of the biomedical causes of LDs, their socio-medical relevance, treatment modalities and caveats, experimental alternatives, and future treatment perspectives. [ABSTRACT FROM AUTHOR]

Published

2017

29. Mutation Frequency of Three Neurodegenerative Lysosomal Storage Diseases: From Screening to Treatment?

Author

Duarte, Ana Joana, Ribeiro, Diogo, Oliveira, Pedro, and Amaral, Olga

Subjects

*LYSOSOMAL storage diseases, *THERAPEUTICS, *NEURODEGENERATION, *GENETIC mutation, *MEDICAL screening, *HEALTH facilities

Abstract

Background The ascertainment of mutation frequencies in the general population may have impact on the population's wellbeing and respective healthcare services. Furthermore, it may help define which approaches will be more effective for certain patients based on the genetic cause of disease. Aim of the Study Determine the frequency of three mutations, known to be a major cause of three distinct Lysosomal Storage Diseases (LSDs). Methods The following pre-requisites were met: each mutation accounted for over 55% of the disease alleles among previously reported unrelated patients, all three diseases were among the most prevalent LSDs in the population under study, they all involved devastating deterioration of the nervous system, lacked curative treatment and may be fatal in childhood or adolescence. The anonymous samples used in this study were representative of the whole population; mutations were tested by PCR based methods, positive results were further confirmed. The diseases studied were Mucopolysaccharidosis type I (Hurler, MIM 607014 ), Tay Sachs disease variant B1 (TS, MIM 272800 ) and Metachromatic Leukodystrophy (MLD, MIM 250100 ); the mutations were, respectively, p.W402X, p.R178C and c.465+1G>A. Results and Conclusion Increased carrier frequencies were found for Tay Sachs disease variant B1 HEXA p.R178C mutation (1:340) and for the infantile MLD ARSA c.465+1G> A mutation (1:350) denoting higher risk for these sub-types of disease in Portugal and possibly in individuals of Iberian ancestry. Carrier screening in target populations may provide the foundations for more effective approaches to precision medicine. [ABSTRACT FROM AUTHOR]

Published

2017

30. The Lysosomal Diseases Testing Laboratory: A review of the past 47 years

Author

Paola Luzi and David A. Wenger

Subjects

Research Report, storage diseases, GM1 gangliosidosis, lcsh:QH426-470, Endocrinology, Diabetes and Metabolism, Genetic enhancement, Bioinformatics, Biochemistry, Genetics and Molecular Biology (miscellaneous), lcsh:Diseases of the endocrine glands. Clinical endocrinology, metachromatic leukodystrophy, lysosomal diseases, Internal Medicine, genetic complementation, Medicine, Gene, Newborn screening, lcsh:RC648-665, business.industry, newborn screening, Research Reports, medicine.disease, Molecular analysis, Transplantation, Metachromatic leukodystrophy, lcsh:Genetics, Krabbe disease, Stem cell, business

Abstract

Summary Lysosomal disorders are diseases that involve mutations in genes responsible for the coding of lysosomal enzymes, transport proteins, activator proteins and protein processing enzymes. These defects lead to the storage of specific metabolites within lysosomes resulting in a great variety of clinical features depending on the tissues with the storage, the storage products and the extent of the storage. The methods for rapidly diagnosing patients started in the late 1960's when the enzyme defects were identified eliminating the need for tissue biopsies. The first requests for diagnostic help in this laboratory came in 1973. In that year, patients with Krabbe disease and Niemann‐Pick type A were diagnosed. Since that time samples from about 62 000 individuals have been received for diagnostic studies, and 4900 diagnoses have been made. The largest number of diagnosed individuals had metachromatic leukodystrophy and Krabbe disease because of our research interest in leukodystrophies. A number of new disorders were identified and the primary defects in other disorders were clarified. With new methods for diagnosis, including newborn screening, molecular analysis, microarrays, there is still a need for biochemical confirmation before treatment is considered. With new treatments, including gene therapy, stem cell transplantation, enzyme replacement used alone or in combination becoming more available, the need for rapid, accurate diagnosis is critical.

Published

2020

31. Mucopolysacccharidoses: from understanding to treatment, a century of discoveries

Author

Roberto Giugliani

Subjects

mucopoloysaccharidoses, lysosomal diseases, enzyme replacement therapy, prenatal diagnosis, newborn screening, Genetics, QH426-470

Abstract

After the first description of a patient recognized as a MPS case was made in 1917, several similar cases were described and identified. Observations reported in the middle of the twentieth century concerning the presence of acid mucopolysaccharides (later called glycosaminoglycans, or GAGs) in tissues and especially in urine of patients were instrumental in providing an identity for these diseases, which became referred as "mucopolysaccharidoses" (MPS). In the late 1960's it was demonstrated that MPS were caused by defects in the breakdown of GAGs, and the specific enzyme deficiencies for the 11 types and subtypes of MPS were identified thereafter. Genes involved in the MPS were subsequently identified, and a large number of disease-causing mutations were identified in each one. Although individually rare, MPS are relatively frequent as a group, with an overall incidence estimated as 1:22,000. The increased excretion of urinary GAGs observed in the vast majority of MPS patients provides a simple screening method, the diagnosis usually being confirmed by the identification of the specific enzyme deficiency. Molecular analysis also plays a role, being helpful for phenotype prediction, prenatal diagnosis and especially for the identification of carriers. As the diseases are rare and diagnosis requires sophisticated methods, the establishment of reference laboratories for MPS identification is recommended. The successful experience of the MPS Brazil Network in providing access to information and diagnosis may be considered as an option for developing countries. The development of therapeutic strategies for MPS, including bone marrow/hematopoietic stem cell transplantation (BMT/HSCT) and enzyme replacement therapy (ERT), changed the natural history of many MPS types. However, some challenges still remain, including the prevention of cognitive decline which occurs in some MPS. Newer approaches, such as intratechal ERT, substrate reduction therapy, read-through, gene therapy and encapsulated modified cells may provide a better outcome for these diseases in the near future. As early diagnosis and early treatment seems to improve treatment outcomes, and as newborn screening is now technically feasible, pilot programs (including one in progress in an area with high-incidence of MPS VI in northeastern Brazil) should provide information about its potential impact in reducing the morbidity associated with MPS diseases.

Published

2012

32. Role of Handheld In Vivo Reflectance Confocal Microscopy for the Diagnosis of Fabry Disease: A Case Report

Author

Elisa Cinotti, Luca Provvidenziale, Michele Fimiani, Jean Luc Perrot, Frederic Cambazard, and Pietro Rubegni

Subjects

lysosomal diseases, fabry disease, confocal microscopy, diagnosis, screening, Medicine

Abstract

Fabry disease (FD) is a rare X-linked lysosomal storage disorder caused by the deficient activity of the lysosomal enzyme α-galactosidase that leads to a systemic accumulation of globotriaosylceramide. Handheld in vivo reflectance confocal microscopy (HH-RCM) is a useful modern technique in diagnosis and follow-ups of many skin diseases. This noninvasive device provides high-resolution and high-contrast real-time images to study both the skin and the ocular surface structures that can help clinicians to confirm the diagnosis of FD. HH-RCM could be helpful even for the follow-ups of these patients, enabling us to monitor the effect of enzyme replacement therapy on corneal cells and keratinocytes.

Published

2018

33. The effect of Mycoplasma and mycoplasma removal agent on the hydrolase activity in fibroblasts of patients with lysosomal diseases Efecto de Mycoplasma y del agente de eliminación de micoplasmas en la actividad de las hidrolasas en fibroblastos de pacientes con enfermedades lisosomales

Author

F. T. S. Souza, L. S. Sostruznik, R. C. Scolari, K. J. M. Castro, C. V. Andrade, R. Giugliani, and J. C. Coelho

Subjects

Mycoplasma, Cultivo de fibroblastos, Hidrolasas lisosomales, Enfermedades lisosomales, Fibroblast culture, Lysosomal hydrolases, Lysosomal diseases, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

This study was designed to evaluate the effect of mycoplasma contamination on acid hydrolase activity and the action of the mycoplasma removal agent (MRA), in cultures of human fibroblasts from individuals with lysosomal diseases. For this purpose, we measured the activity of the b-galactosidase, arylsulphatase B (ASB), hexosaminidase A and a-glucosidase enzymes. The activity of the above mentioned enzymes in fibroblasts contaminated by mycoplasma was measured before and after the addition of the MRA. The results were then compared to the enzymatic activity in contamination-free cultures. Only the ASB enzyme showed significant alteration in activity both in the presence of mycoplasma and MRA. The remaining enzymes did not suffer significant interference by the presence of the two agents. Of the four enzymes tested, three did not suffer significant alterations by the presence of the mycoplasma nor from the MRA. However, the activity measured in the ASB enzyme increased significantly in the presence of mycoplasma and MRA and could lead to a doubtful diagnosis. Therefore, we suggest that contamination should be prevented by using aseptic techniques as well as the MRA in those fibroblast cultures that cannot be discarded.Este estudio fue diseñado para evaluar el efecto de la contaminación por micoplasmas sobre la actividad de hidrolasas ácidas y la acción del agente de eliminación de micoplasmas (MRA) en cultivos de fibroblastos humanos de pacientes con enfermedades lisosomales. Se midió la actividad de la b-galactosidasa, arilsulfatasa B (ASB), hexosaminidasa A y a-glucosidasa en estos cultivos. La actividad de estas enzimas en los fibroblastos contaminados por micoplasmas se midió antes y después de la adición de MRA. Los resultados se compararon con los obtenidos en cultivos libres de contaminación. Sólo la enzima ASB demostró alteración significativa en la actividad, tanto en presencia de micoplasmas como con la adición de MRA. Las enzimas restantes no sufrieron alteraciones significativas en presencia de micoplasmas, ni tras la adición de MRA. La actividad medida para la enzima ASB aumentó significativamente en presencia de micoplasmas y MRA, lo que podría conducir a un diagnóstico dudoso. Por lo tanto, sugerimos evitar la contaminación con micoplasmas mediante el uso de técnicas asépticas y la utilización de MRA en los cultivos de fibroblastos que no se puedan descartar.

Published

2010

34. Clinical Trials for Gene Therapy in Lysosomal Diseases With CNS Involvement

Author

Kumaran Deiva and Caroline Sevin

Subjects

lentival vector, business.industry, QH301-705.5, Genetic enhancement, Review, Enzyme replacement therapy, Disease, medicine.disease_cause, Bioinformatics, Biochemistry, Genetics and Molecular Biology (miscellaneous), Biochemistry, gene therapy, CNS-central nervous system, Viral vector, Clinical trial, lysosomal diseases, Adeno-associated virus, In vivo, Medicine, Molecular Biosciences, Biology (General), business, Molecular Biology, Ex vivo

Abstract

There are over 70 known lysosomal storage disorders (LSDs), most caused by mutations in genes encoding lysosomal hydrolases. Central nervous system involvement is a hallmark of the majority of LSDs and, if present, generally determines the prognosis of the disease. Nonetheless, brain disease is currently poorly targeted by available therapies, including systemic enzyme replacement therapy, mostly (but not only) due to the presence of the blood–brain barrier that restricts the access of orally or parenterally administered large molecules into the brain. Thus, one of the greatest and most exciting challenges over coming years will be to succeed in developing effective therapies for the treatment of central nervous system manifestations in LSDs. Over recent years, gene therapy (GT) has emerged as a promising therapeutic strategy for a variety of inherited neurodegenerative diseases. In LSDs, the ability of genetically corrected cells to cross-correct adjacent lysosomal enzyme-deficient cells in the brain after gene transfer might enhance the diffusion of the recombinant enzyme, making this group of diseases a strong candidate for such an approach. Both in vivo (using the administration of recombinant adeno-associated viral vectors) and ex vivo (auto-transplantation of lentiviral vector-modified hematopoietic stem cells-HSCs) strategies are feasible. Promising results have been obtained in an ever-increasing number of preclinical studies in rodents and large animal models of LSDs, and these give great hope of GT successfully correcting neurological defects, once translated to clinical practice. We are now at the stage of treating patients, and various clinical trials are underway, to assess the safety and efficacy of in vivo and ex vivo GT in several neuropathic LSDs. In this review, we summarize different approaches being developed and review the current clinical trials related to neuropathic LSDs, their results (if any), and their limitations. We will also discuss the pitfalls and the remaining challenges.

Published

2021

35. Biomolecules damage and redox status abnormalities in Fabry patients before and during enzyme replacement therapy.

Author

Biancini, Giovana Brondani, Jacques, Carlos Eduardo, Hammerschmidt, Tatiane, de Souza, Heryk Motta, Donida, Bruna, Deon, Marion, Vairo, Filippo Pinto, Lourenço, Charles Marques, Giugliani, Roberto, and Vargas, Carmen Regla

Subjects

*ANGIOKERATOMA corporis diffusum, *LYSOSOMAL storage diseases, *THERAPEUTICS, *GALACTOSIDASES, *PATHOLOGICAL physiology, *BIOMOLECULES, *LIPID peroxidation (Biology), *DIAGNOSIS

Abstract

Fabry disease (FD) is caused by deficient activity of the lysosomal enzyme α-galactosidase A. Its substrates, mainly globotriaosylceramide (Gb3), accumulate and seem to induce other pathophysiological findings of FD. Once enzyme replacement therapy (ERT) is not completely efficient on preventing disease progress in FD patients, elucidating the underlying mechanisms in FD pathophysiology is essential to the development of additional therapeutic strategies. We investigated 58 Fabry patients (23 male and 35 female) subdivided into two groups (at diagnosis and during long-term ERT) and compared them to healthy individuals. Fabry patients at diagnosis presented altered glutathione (GSH) metabolism (higher GSH levels, lower glutathione peroxidase – GPx – and normal glutathione reductase – GR - activities), higher lipid peroxidation levels (thiobarbituric acid reactive species - TBARS - and malondialdehyde - MDA), nitric oxide (NO . ) equivalents and urinary Gb3. Fabry patients on ERT presented GSH metabolism similar to controls, although lipid peroxidation and urinary levels of NO . equivalents remained higher whereas Gb3 levels were lower than at diagnosis but still higher than controls. These data demonstrated that redox impairment occurs in Fabry patients before and after ERT, probably as a consequence of Gb3 accumulation, providing targets to future therapy approaches using antioxidants in combination with ERT in FD. [ABSTRACT FROM AUTHOR]

Published

2016

36. CARDIOVASCULAR INVOLVEMENT IN POMPE DISEASE.

Author

Luca, Alina-Costina and Braha, Elena

Subjects

*GLYCOGEN storage disease type II, *LYSOSOMAL storage diseases, *MONOGENIC functions, *GLUCOSIDASES, *AGE of onset

Abstract

Lysosomal storage diseases are a diverse group of monogenic disorders which are as defined by defects in lysosomal function. The heart is part of the clinical phenotype of lysosomal storage diseases. Pompe disease is marked by absence/deficiency of the lysosomal enzyme alpha-glucosidase and by different ages of onset. The infantile form is defined by muscle weakness and progressive cardiac hypertrophy, followed by progressive cardiac failure. Pompe disease requires immediate intervention to maximize the potential benefit from enzymatic therapy, with improvement of the phenotype. This article presents clinical and cardiac findings suggestive for Pompe’s disease. [ABSTRACT FROM AUTHOR]

Published

2016

37. Selective screening of Niemann–Pick type C Brazilian patients by cholestane-3β,5α,6β-triol and chitotriosidase measurements followed by filipin staining and NPC1/NPC2 gene analysis.

Author

Ribas, G.S., Souza, H.M., de Mari, J., Deon, M., Mescka, C., Saraiva-Pereira, M.L., Kessler, R., Trapp, F., Michelin, K., Burin, M., Vargas, C.R., and Giugliani, R.

Subjects

*NIEMANN-Pick diseases, *BRAZILIANS, *CHOLESTANES, *CHITINASE, *SKIN biopsy, *FIBROBLASTS, *HEALTH

Abstract

Background Niemann–Pick type C (NPC) is a treatable genetic disorder, mainly characterized by neurological dysfunction and liver damage. Its diagnosis is based on an invasive test which requires a skin biopsy to demonstrate the cholesterol accumulation in culture fibroblasts of affected patients. In the last years, new biomarkers have been investigated aiming to facilitate the diagnosis and screening of NPC; two of these possible candidates are the oxysterol cholestane-3β,5α,6β-triol (triol), a product of non-enzymatic oxidation of cholesterol, and the enzyme chitotriosidase (CT), a fully active chitinase (EC-3.2.1.14) synthesized by activated macrophages. Methods In this work, we investigated the potential use of the combined analysis of triol levels and CT activity for diagnosis, screening and monitoring of NPC in Brazilian patients, correlating with the results of Filipin staining and genetic analysis. We studied 122 untreated individuals with clinical suspicion of NPC who were separated in two groups according their concentrations of triol (higher or lower than the cutoff value of 100 ng/mL). We also analyzed blood samples from 5 patients with previous diagnosis of NPC who were under treatment with miglustat. Results The results of this work demonstrated that patients with higher concentrations of triol (group A) also presented a high activity of CT and most of them had also a positive Filipin test. Two patients of this group presented an inconclusive Filipin test, being one eventually diagnosed as NPC by molecular investigation and the other eventually diagnosed as Niemann–Pick type A or B (NPA/B) by the low acid sphingomyelinase activity presented. Three patients with high triol concentrations who had a negative result in the Filipin test presented low activities of acid sphingomyelinase, being diagnosed as NPA/B. On the other hand, triol concentrations were normal in NPC patients treated with miglustat, although CT activity in these individuals remained abnormal. In the patients with triol lower than 100 ng/mL (group B), most presented a normal activity of CT. No patient of this group had a positive Filipin test and the few patients with inconclusive Filipin test did not present pathogenic mutations in the NPC1 or NPC2 genes. Conclusions In conclusion, our data demonstrated that the combined analysis of triol and CT is quite sensitive and specific for the identification of NPC patients. Although the number of analysis in NPC patients treated with miglustat was small, the data indicate that the measurement of triol could also be potentially useful for treatment monitoring. [ABSTRACT FROM AUTHOR]

Published

2016

38. Investigation of original multivalent iminosugars as pharmacological chaperones for the treatment of Gaucher disease.

Author

Laigre, Eugénie, Hazelard, Damien, Casas, Josefina, Serra-Vinardell, Jenny, Michelakakis, Helen, Mavridou, Irene, Aerts, Johannes M.F.G., Delgado, Antonio, and Compain, Philippe

Subjects

*GAUCHER'S disease treatment, *IMINOSUGARS, *MOLECULAR chaperones, *MORPHOLINE, *PRODRUGS, *LYSOSOMES

Abstract

Multivalent iminosugars conjugated with a morpholine moiety and/or designed as prodrugs have been prepared and evaluated as new classes of pharmacological chaperones for the treatment of Gaucher disease. This study further confirms the interest of the prodrug concept and shows that the addition of a lysosome-targeting morpholine unit into iminosugar cluster structures has no significant impact on the chaperone activity on Gaucher cells. [ABSTRACT FROM AUTHOR]

Published

2016

39. Altered localization and functionality of TAR DNA Binding Protein 43 (TDP-43) in niemann- pick disease type C.

Author

Dardis, A., Zampieri, S., Canterini, S., Newell, K. L., Stuani, C., Murrell, J. R., Ghetti, B., Fiorenza, M. T., Bembi, B., and Buratti, E.

Subjects

*NIEMANN-Pick diseases, *DNA-binding proteins, *NEURODEGENERATION

Abstract

Niemann-Pick type C (NPC) disease is a lysosomal storage disorder characterized by the occurrence of visceral and neurological symptoms. At present, the molecular mechanisms causing neurodegeneration in this disease are unknown. Here we report the altered expression and/or mislocalization of the TAR-DNA binding protein 43 (TDP-43) in both NPC mouse and in a human neuronal model of the disease. We also report the neuropathologic study of a NPC patient's brain, showing that while TDP-43 is below immunohistochemical detection in nuclei of cerebellar Purkinje cells, it has a predominant localization in the cytoplasm of these cells. From a functional point of view, the TDP-43 mislocalization, that occurs in a human experimental neuronal model system, is associated with specific alterations in TDP-43 controlled genes. Most interestingly, treatment with N-Acetyl-cysteine (NAC) or beta-cyclodextrin (CD) can partially restore TDP-43 nuclear localization. Taken together, the results of these studies extend the role of TDP-43 beyond the Amyotrophic lateral sclerosis (ALS)/frontotemporal dementia (FTD)/Alzheimer disease (AD) spectrum. These findings may open novel research/therapeutic avenues for a better understanding of both NPC disease and the TDP-43 proteinopathy disease mechanism. [ABSTRACT FROM AUTHOR]

Published

2016

40. Enzymatic diagnosis of Fabry disease using a fluorometric assay on dried blood spots: An alternative methodology.

Author

Caudron, Eric, Prognon, Patrice, and Germain, Dominique P.

Subjects

*ANGIOKERATOMA corporis diffusum, *FLUORIMETRY, *DRIED blood spot testing, *LYSOSOMAL storage diseases, *GALACTOSIDASES, *ENZYME deficiency, *DIAGNOSIS

Abstract

Fabry disease (FD, OMIM# 301500 ) is an X-linked lysosomal storage disorder caused by the functional deficiency of α-galactosidase A, a lysosomal enzyme. A method to screen for FD in large populations has been developed using a fluorometric assay of α-galactosidase A activity in dried blood spots (DBS) on filter paper. However, results can be influenced by quenching of fluorescence by haemoglobin which, together with small sample size, may result in a low light emission signal. An alternative, simple and sensitive fluorometric assay was developed for the determination of α-galactosidase A activity in DBS. The assay uses 4-methylumbelliferyl-α- d -galactose as an artificial substrate. To minimize the risk of false-positives, zinc sulfate was used for protein precipitation to stop the enzymatic reaction and eliminate interfering species (hemoglobin). Samples from 209 individuals (60 hemizygotes, 68 heterozygotes, and 81 controls) were tested to establish reference values for the assay. The mean α-galactosidase A activity of the 81 controls was 9.1 ± 3.3 μmol h −1 L −1 (mean ± SD). All 60 hemizygotes affected with FD had AGAL activities below 1.7 μmol h −1 L −1 (0.2 ± 0.3 μmol h −1 L −1 ). For the 68 heterozygous females, AGAL activity ranged from 0 to 12.6 μmol h −1 L −1 (3.5 ± 2.7 μmol h −1 L −1 ). Two-thirds of the female patients could be identified using the enzymatic assay and a cut-off level of 40% of the median control value (<3.4 μmol h −1 L −1 ). Our fluorometric assay using zinc sulfate protein precipitation was shown to have similar sensitivity and robustness while reducing the risk of false positive results due to quenching of 4-MU fluorescence by haemoglobin. [ABSTRACT FROM AUTHOR]

Published

2015

41. Análisis de biomarcadores para el seguimiento de pacientes con enfermedad de Gaucher

Author

Da Silva José, Thiago Donizete, Juárez Vázquez, Clara Ibet, García Ortiz, José Elías, Da Silva José, Thiago Donizete, Juárez Vázquez, Clara Ibet, and García Ortiz, José Elías

Abstract

Biomarkers are an important tool in the diagnosis, monitoring and evaluation of response to treatment in patients with Gaucher disease (GD). The objective of this work is a descriptive bibliographic review to evaluate and analyze the available biomarkers, for which types are described, usefulness, validity, advantages and disadvantages of each of them. The databases used were Pubmed Central, Scielo and Sci-Hub, and in the Google Scholar search engines to find journal articles not indexed on these sites. The following keywords were included as selection criteria: GD; biomarkers in GD; Biomarkers for evaluation of treatment; biomarkers of lysosomal storage diseases and new biomarkers in GD. The main challenge is the selection of the biomarker considering aspects of cost-effectiveness and availability in Health Systems. However, 19 biomarkers are described in the literature, of which only chitotriosidase, lung regulatory activation chemokine (CCL18/ PARC) and Glycosylsphingosine (Lyso-Gb1) are internationally validated in clinical practice, and they also allow the clinical effects to be assessed: normalization of hemoglobin and platelet levels, decreased visceral volume and decreased bone inflammation. Thus, expert groups recommend that at least one of these biomarkers be integrated into the management plan for patients with GD. Therefore, the choice of a biomarker provides valuable information on the response to treatment, clinical evolution and could serve as key elements in the development and evaluation of new drugs., Los biomarcadores son una herramienta importante en el diagnóstico, seguimiento y evaluación de la respuesta al tratamiento en pacientes con enfermedad de Gaucher (EG). El presente trabajo tiene como objetivo una revisión bibliográfica descriptiva para evaluar y analizar los biomarcadores disponibles, por lo que se describen los tipos, la utilidad, validez, ventajas y desventajas de cada uno de ellos. Las bases de datos utilizadas fueron Pubmed Central, Scielo y Sci-Hub, y en el buscador Google Académico para encontrar artículos de revistas no indexadas en estos sitios. Como criterio de selección fueron incluidas las siguientes palabras clave: EG; biomarcadores en EG, biomarcadores para evaluación del tratamiento, biomarcadores de enfermedades de depósito lisosomal y nuevos biomarcadores en EG. El principal desafío es la selección del biomarcador considerando aspectos de costo-efectividad y disponibilidad en los Sistemas de Salud. No obstante, en la literatura se encuentran descritos 19 biomarcadores, de los cuales en la práctica clínica están validados internacionalmente solo quitotriosidasa, quimiocina de activación reguladora pulmonar (CCL18/PARC) y Glucosilesfingosina (Lyso-Gb1) que evalúan los efectos clínicos como: normalización de niveles de hemoglobina y plaquetas, disminución del volumen visceral e inflamación ósea. De esta manera, los grupos de expertos recomiendan que al menos uno de estos biomarcadores sea integrado en el plan de manejo de pacientes con EG. Por lo tanto, la elección de un biomarcador proporciona información valiosa sobre la respuesta al tratamiento, evolución clínica y podrían servir como elementos claves en el desarrollo y evaluación de nuevos fármacos.

Published

2021

42. Murine Models of Lysosomal Storage Diseases Exhibit Differences in Brain Protein Aggregation and Neuroinflammation

Author

Sergio Pablo Sardi, Can Kayatekin, Lamya S. Shihabuddin, Jennifer Clarke, and Catherine Viel

Subjects

Synucleinopathies, congenital, hereditary, and neonatal diseases and abnormalities, mouse models of disease, QH301-705.5, Central nervous system, Medicine (miscellaneous), nutritional and metabolic diseases, Inflammation, Biology, Protein aggregation, Phenotype, General Biochemistry, Genetics and Molecular Biology, Pathophysiology, Article, neuroinflammation, medicine.anatomical_structure, synuclein, lysosomal diseases, Synuclein, medicine, tau, medicine.symptom, Biology (General), Neuroscience, Neuroinflammation

Abstract

Genetic, epidemiological and experimental evidence implicate lysosomal dysfunction in Parkinson’s disease (PD) and related synucleinopathies. Investigate several mouse models of lysosomal storage diseases (LSDs) and evaluate pathologies reminiscent of synucleinopathies. We obtained brain tissue from symptomatic mouse models of Gaucher, Fabry, Sandhoff, Niemann–Pick A (NPA), Hurler, Pompe and Niemann–Pick C (NPC) diseases and assessed for the presence of Lewy body-like pathology (proteinase K-resistant α-synuclein and tau aggregates) and neuroinflammation (microglial Iba1 and astrocytic GFAP) by immunofluorescence. All seven LSD models exhibited evidence of proteinopathy and/or inflammation in the central nervous system (CNS). However, these phenotypes were divergent. Gaucher and Fabry mouse models displayed proteinase K-resistant α-synuclein and tau aggregates but no neuroinflammation, whereas Sandhoff, NPA and NPC showed marked neuroinflammation and no overt proteinopathy. Pompe disease animals uniquely displayed widespread distribution of tau aggregates accompanied by moderate microglial activation. Hurler mice also demonstrated proteinopathy and microglial activation. The present study demonstrated additional links between LSDs and pathogenic phenotypes that are hallmarks of synucleinopathies. The data suggest that lysosomal dysregulation can contribute to brain region-specific protein aggregation and induce widespread neuroinflammation in the brain. However, only a few LSD models examined exhibited phenotypes consistent with synucleinopathies. While no model can recapitulate the complexity of PD, they can enable the study of specific pathways and mechanisms contributing to disease pathophysiology. The present study provides evidence that there are existing, previously unutilized mouse models that can be employed to study pathogenic mechanisms and gain insights into potential PD subtypes, helping to determine if they are amenable to pathway-specific therapeutic interventions.

Published

2021

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

Author

Palladino, Giampiero, Loizzo, Stefano, Fortuna, Andrea, Canterini, Sonia, Palombi, Fioretta, Erickson, Robert P., Mangia, Franco, and Fiorenza, Maria Teresa

Subjects

*VISUAL evoked potentials, *NIEMANN-Pick diseases, *LABORATORY mice, *VISUAL pathways, *CYCLODEXTRINS, *LYSOSOMAL storage diseases, *CHOLESTEROL, *NEURODEGENERATION, *ANIMAL experimentation, *GLUCANS, *MICE, *VISUAL evoked response, *NEURAL pathways, *THERAPEUTICS

Abstract

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. [ABSTRACT FROM AUTHOR]

Published

2015

44. Proyecto FIND: La importancia de un diagnóstico precoz.

Author

Colón Mejeras, C.

Subjects

EARLY diagnosis, LYSOSOMAL storage diseases, PEDIATRIC diagnosis, MEDICAL research evaluation, DIAGNOSIS

Abstract

Copyright of Acta Pediátrica Española is the property of Ediciones Mayo and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

45. Impacto de la inclusión de pruebas de segundo nivel en el programa de cribado neonatal de Cataluña y en otros programas internacionales

Author

Pajares García, Sonia, López Galera, Rosa María, Marín Soria, José Luis, Argudo Ramírez, Ana, González de Aledo Castillo, Jose Manuel, Ribes Rubió, Antònia, Prats, Blanca, Asso Ministral, Laia, García Villoria, Judit, Pajares García, Sonia, López Galera, Rosa María, Marín Soria, José Luis, Argudo Ramírez, Ana, González de Aledo Castillo, Jose Manuel, Ribes Rubió, Antònia, Prats, Blanca, Asso Ministral, Laia, and García Villoria, Judit

Abstract

Background: Newborn screening programmes (NBSP) have experienced a qualitative breakthrough due to the implementation of tandem mass spectrometry. However, the tests used give rise to false positives (FP) generating an excessive request for second samples with the consequent anxiety of the families. In order to avoid this problem several programmes have developed second-tier tests (2TT). Methods: This article presents our experience in the implementation of 2TT in the NBSP of Catalonia, as well as in other international programmes. Results: From 2004 to the present, 2TT tests have been developed for more than 30 diseases. The use of 2TT helps to decrease the FP rate and increase the positive predictive value (PPV). In the NBSP of Catalonia, the implementation of 2TT for the detection of methylmalonic and propionic acidemias, homocystinurias, maple syrup disease and citrulinaemia, has managed to increase the PPV to 95% and decrease the PF rate to less than 0.01%. In cystic fibrosis, the application of 2TT slightly increases PPV but with a significant decrease in the request for second samples and in the number of cases referred to clinical units. Conclusions: The introduction of 2TT in the NBSP allows to reduce considerably the FP, decreases the number of requested samples, as well as both anxiety and stress of the families, at the same time that the hospital costs are reduced and the PPV is increased, improving notably the efficiency of the NBSP., Fundamentos: Los programas de cribado neonatal (PCN) han experimentado un gran avance cualitativo debido a la implementación de la espectrometría de masas en tándem. Sin embargo, las pruebas utilizadas dan lugar a falsos positivos (FP) generando una excesiva solicitud de segundas muestras con la consiguiente ansiedad de las familias. Con el fin de evitar este problema diversos programas han desarrollado pruebas de segundo nivel (2TT). Métodos: En este artículo se presenta nuestra experiencia en la implementación de 2TT en el PCN de Cataluña, así como en otros programas internacionales. Resultados: Desde el año 2004 hasta la actualidad se han desarrollado pruebas de 2TT para más de 30 enfermedades. La utilización de 2TT ayuda a disminuir la tasa de FP y aumentar el valor predictivo positivo (VPP). En el PCN de Cataluña, la implementación de 2TT para la detección de acidemias metilmalónicas y propiónica, homocistinurias, jarabe de arce y citrulinemia, ha conseguido aumentar el VPP a un 95% y disminuir la tasa de FP a menos del 0,01%. En la fibrosis quística la aplicación de 2TT aumenta ligeramente el VPP pero con disminución significativa de la solicitud de segundas muestras y de los casos referidos a las unidades clínicas. Conclusiones: La introducción de los 2TT en los PCN permite reducir considerablemente los FP, disminuye el número de muestras solicitadas, así como la ansiedad y el estrés de las familias, a la vez que se reducen los costes hospitalarios y se aumenta el VPP, mejorando notablemente la eficiencia de los PCN.

Published

2020

46. The Lysosomal Diseases Testing Laboratory: A review of the past 47 years.

Author

Wenger, David A., Luzi, Paola, Wenger, David A., and Luzi, Paola

Abstract

Lysosomal disorders are diseases that involve mutations in genes responsible for the coding of lysosomal enzymes, transport proteins, activator proteins and protein processing enzymes. These defects lead to the storage of specific metabolites within lysosomes resulting in a great variety of clinical features depending on the tissues with the storage, the storage products and the extent of the storage. The methods for rapidly diagnosing patients started in the late 1960's when the enzyme defects were identified eliminating the need for tissue biopsies. The first requests for diagnostic help in this laboratory came in 1973. In that year, patients with Krabbe disease and Niemann-Pick type A were diagnosed. Since that time samples from about 62 000 individuals have been received for diagnostic studies, and 4900 diagnoses have been made. The largest number of diagnosed individuals had metachromatic leukodystrophy and Krabbe disease because of our research interest in leukodystrophies. A number of new disorders were identified and the primary defects in other disorders were clarified. With new methods for diagnosis, including newborn screening, molecular analysis, microarrays, there is still a need for biochemical confirmation before treatment is considered. With new treatments, including gene therapy, stem cell transplantation, enzyme replacement used alone or in combination becoming more available, the need for rapid, accurate diagnosis is critical.

Published

2020

47. Elevated Dipeptidyl Peptidase IV (DPP-IV) Activity in Plasma from Patients with Various Lysosomal Diseases

Author

Barbara Perkowska-Sumiła, Jolanta Wierzba, Anna Tylki-Szymańska, Jolanta Kubalska, Krystyna Szymańska, Ałła Graban, Galina Baydakova, Alex Ilyushkina, Agnieszka Ługowska, Hanna Mierzewska, Ekaterina Zakharova, Tomasz Kmieć, and Małgorzata Bednarska-Makaruk

Subjects

0301 basic medicine, mucolipidosis II/III, medicine.medical_specialty, diagnosis, Alpha-mannosidosis, Lymphocyte, Clinical Biochemistry, Gangliosidosis, Article, Dipeptidyl peptidase, 03 medical and health sciences, 0302 clinical medicine, Immune system, Antigen, lysosomal diseases, Internal medicine, Medicine, alpha-mannosidosis, lcsh:R5-920, business.industry, Mucolipidosis, screening, medicine.disease, mucopolysaccharidoses, Metachromatic leukodystrophy, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, DPP-IV, 030220 oncology & carcinogenesis, business, lcsh:Medicine (General)

Abstract

Increased activity of dipeptidyl peptidase IV (DPP-IV) was reported earlier in patients with different types of mucopolysaccharidoses. DPP-IV (also known as CD26 lymphocyte T surface antigen) is a transmembrane protein showing protease activity. This enzyme displays various functions in the organism and plays an important role in multiple processes like glucose metabolism, nociception, cell-adhesion, psychoneuroendocrine regulation, immune response and cardiovascular adaptation. In order to evaluate DPP-IV in lysosomal storage diseases (LSD), we examined its activity in plasma samples from 307 patients affected with 24 different LSDs and in 75 control persons. Our results revealed elevated DPP-IV activity especially in individuals affected with mucolipidosis II/III, alpha-mannosidosis, and mucopolysaccharidoses types III, II, and I (p &lt, 0.05). In other LSDs the DPP-IV activity was still significantly increased, but to a lesser extent. In patients with Gaucher disease, ceroid lipofuscinosis type 1 (CLN1), Niemann–Pick disease type C and A, Krabbe and Pompe diseases, gangliosidosis GM2 and metachromatic leukodystrophy discreet or no changes in DPP-IV activity were observed. DPP-IV may serve as a first-tier diagnostic procedure or additional biochemical analysis in recognizing patients with some LSDs. DPP-IV may become an object of basic research for a better understanding of LSDs.

Published

2021

48. Enzymatic diagnosis of neuronal lipofuscinoses in dried blood spots using substrates for concomitant tandem mass spectrometry and fluorimetry

Author

Michael Przybylski, Filippo M. Santorelli, Angela Schulz, Laura Ion, Alfried Kohlschütter, Stephan Rawer, Brindusa Alina Petre, Stefan Maeser, and Alessandro Simonati

Subjects

Adolescent, diagnosis, neuronal lipofuscinoses, Cathepsin D, Mass spectrometry, Tandem mass spectrometry, Sensitivity and Specificity, 01 natural sciences, Tripeptidyl peptidase, Substrate Specificity, lysosomal diseases, Neuronal Ceroid-Lipofuscinoses, Tandem Mass Spectrometry, Humans, Fluorometry, Palmitoyl protein thioesterase, Child, Spectroscopy, chemistry.chemical_classification, Tripeptidyl-Peptidase 1, biology, 010405 organic chemistry, Chemistry, 010401 analytical chemistry, Selected reaction monitoring, Membrane Proteins, Nuclear Proteins, Reproducibility of Results, PPT1, 0104 chemical sciences, Enzyme, Biochemistry, tandem mass spectrometry determination, Child, Preschool, ddc:540, biology.protein, dried blood spots, Dried Blood Spot Testing, Thiolester Hydrolases, lysosomal diseases, neuronal lipofuscinoses, enzyme replacement therapy, diagnosis, dried blood spots, tandem mass spectrometry determination, fluorometric assay, enzyme replacement therapy, fluorometric assay

Abstract

Neuronal ceroid lipofuscinoses (NCLs) are a group of neurodegenerative diseases predominantly in childhood that are characterized by psychomotor deterioration, epilepsy, and early death of patients. The NCLs analyzed in the present study are caused by defects of the specific enzymes, CLN1 (palmitoyl protein thioesterase 1; PPT1), CLN2 (tripeptidyl peptidase 1; TPP1), and CLN10 (cathepsin D). Specific and sensitive diagnostic assays of NCLs were the main goal of this study. They are of increasing importance, particularly since enzyme replacement therapy (ERT) for NCL2 has recently become available for clinical treatment, and ERTs for further NCLs are under development. Here, we report specific and sensitive determinations for CLN1, CLN2, and CLN10 on dried blood spots by tandem mass spectrometry using multiple reaction monitoring mass spectrometry (MRM-MS). Identical substrates suitable for (i) fluorimetric determination of single enzymes and (ii) for MRM-MS determination of multiple enzymes were synthesized by chemical coupling of alkyl-umbelliferone building blocks with the corresponding peptidyl-substrate groups recognized by the target enzyme. Enzymatic determinations were performed both by fluorimetry and MRM-MS in patients with NCL1, NCL2, and NCL10 and showed good agreement in single assays. Moreover, duplex and triplex determinations were successfully performed for NCL1, NCL2, and NCL10. Specific peptidyl-(4-alkyl-umbelliferone) substrates were also synthesized for mass spectrometric determinations of different cathepsins (cathepsins-D, -F, and -B), to provide a differentiation of proteolytic specificities. published

Published

2021

49. AFECTAREA CARDIOVASCULARĂ ÎN BOALA POMPE.

Author

Luca, Alina-Costina and Braha, Elena

Abstract

Lysosomal storage diseases are a diverse group of monogenic disorders which are as defined by defects in lysosomal function. The heart is part of the clinical phenotype of lysosomal storage diseases. Pompe disease is marked by absence/deficiency of the lysosomal enzyme alpha-glucosidase and by different ages of onset. The infantile form is defined by muscle weakness and progressive cardiac hypertrophy, followed by progressive cardiac failure. Pompe disease requires immediate intervention to maximize the potential benefit from enzymatic therapy, with improvement of the phenotype. This article presents clinical and cardiac findings suggestive for Pompe’s disease. [ABSTRACT FROM AUTHOR]

Published

2017

50. JCL Roundtable: Enzyme replacement therapy for lipid storage disorders.

Author

Brown, W. Virgil, Desnick, Robert J., and Grabowski, Gregory A.

Subjects

ISOENZYMES, GAUCHER'S disease, GENETIC disorders, LIPID metabolism disorders, LYSOSOMAL storage diseases, NERVOUS system, ANGIOKERATOMA corporis diffusum, THERAPEUTICS

Abstract

There are several inherited disorders that involve abnormal storage of lipids in tissues leading to severe compromise of organs. Sadly, these are often accompanied by lifelong morbidity and early mortality. Disorders such as Gaucher, Fabry, and lysosomal acid lipase deficiencies (Wolman and cholesteryl ester storage diseases) have been known for many years, and provide a difficult and frustrating set of problems for patients, their families, and their physicians. With recombinant methods of protein synthesis, it is now possible to literally replace the defective enzymes that underlie the basic pathophysiology of many such disorders. The delivery of these enzymes into the affected cells is possible because of their location in the lysosomes where the natural degradation of their lipid substrates occurs. I have asked 2 well-known investigators to join us for this Roundtable. These are professors who have been involved with the research that has made this type of therapy possible and who have participated in the clinical trials that demonstrated the value of enzyme replacement therapy. They are Dr. Robert Desnick, dean of Genetic and Genomic Medicine and professor and chairman emeritus of the Department of Genetics and Genomic Sciences at the Icahn School of Medicine at Mount Sinai in New York City, and Dr. Gregory Grabowski, professor of Microbiology, Biochemistry, and Pediatrics, at the University of Cincinnati College of Medicine. Dr. Grabowski recently retired from that school to become the chief science officer of Synageva, a company involved in producing enzymes for this type of therapy. [ABSTRACT FROM AUTHOR]

Published

2014