Your search keyword '"Pipitone GB"' showing total 14 results

1. Expanding the spectrum of genes responsible for hereditary motor neuropathies

Author

Previtali, Sc, Zhao, E, Lazarevic, D, Pipitone, Gb, Fabrizi, Gm, Manganelli, F, Mazzeo, A, Pareyson, D, Schenone, A, Taroni, F, Vita, G, Bellone, E, Ferrarini, M, Garibaldi, M, Magri, S, Padua, Luca, Pennisi, E, Pisciotta, C, Riva, N, Scaioli, V, Scarlato, M, Tozza, S, Geroldi, A, Jordanova, A, Ferrari, M, Molineris, I, Reilly, Mm, Comi, G, Carrera, P, Devoto, M, Bolino, A., Padua L (ORCID:0000-0003-2570-9326), Previtali, Sc, Zhao, E, Lazarevic, D, Pipitone, Gb, Fabrizi, Gm, Manganelli, F, Mazzeo, A, Pareyson, D, Schenone, A, Taroni, F, Vita, G, Bellone, E, Ferrarini, M, Garibaldi, M, Magri, S, Padua, Luca, Pennisi, E, Pisciotta, C, Riva, N, Scaioli, V, Scarlato, M, Tozza, S, Geroldi, A, Jordanova, A, Ferrari, M, Molineris, I, Reilly, Mm, Comi, G, Carrera, P, Devoto, M, Bolino, A., and Padua L (ORCID:0000-0003-2570-9326)

Abstract

BACKGROUND: Inherited peripheral neuropathies (IPNs) represent a broad group of genetically and clinically heterogeneous disorders, including axonal Charcot-Marie-Tooth type 2 (CMT2) and hereditary motor neuropathy (HMN). Approximately 60%-70% of cases with HMN/CMT2 still remain without a genetic diagnosis. Interestingly, mutations in HMN/CMT2 genes may also be responsible for motor neuron disorders or other neuromuscular diseases, suggesting a broad phenotypic spectrum of clinically and genetically related conditions. Thus, it is of paramount importance to identify novel causative variants in HMN/CMT2 patients to better predict clinical outcome and progression. METHODS: We designed a collaborative study for the identification of variants responsible for HMN/CMT2. We collected 15 HMN/CMT2 families with evidence for autosomal recessive inheritance, who had tested negative for mutations in 94 known IPN genes, who underwent whole-exome sequencing (WES) analyses. Candidate genes identified by WES were sequenced in an additional cohort of 167 familial or sporadic HMN/CMT2 patients using next-generation sequencing (NGS) panel analysis. RESULTS: Bioinformatic analyses led to the identification of novel or very rare variants in genes, which have not been previously associated with HMN/CMT2 (ARHGEF28, KBTBD13, AGRN and GNE); in genes previously associated with HMN/CMT2 but in combination with different clinical phenotypes (VRK1 and PNKP), and in the SIGMAR1 gene, which has been linked to HMN/CMT2 in only a few cases. These findings were further validated by Sanger sequencing, segregation analyses and functional studies. CONCLUSIONS: These results demonstrate the broad spectrum of clinical phenotypes that can be associated with a specific disease gene, as well as the complexity of the pathogenesis of neuromuscular disorders.

Published

2019

2. Severe West Nile virus and Sars-CoV-2 infections in a patient with thymoma and anti-type I IFN antibodies.

Author

Barzaghi F, Visconti C, Pipitone GB, Bondesan S, Molli G, Giannelli S, Sartirana C, Lampasona V, Bazzigaluppi E, Brigatti C, Gervais A, Bastard P, Din CT, Molinari C, Piemonti L, Casanova JL, Carrera P, Casari G, and Aiuti A

Abstract

The current study aimed to investigate determinants of severity in a previously healthy patient who experienced two life-threatening infections, from West Nile Virus and SARS-CoV2. During COVID19 hospitalization he was diagnosed with a thymoma, retrospectively identified as already present at the time of WNV infection. Heterozygosity for p.Pro554Ser in the TLR3 gene, which increases susceptibility to severe COVID-19, and homozygosity for CCR5 c.554_585del, associated to severe WNV infection, were found. Neutralizing anti-IFN-α and anti-IFN-ω auto-antibodies were detected, likely induced by the underlying thymoma and increasing susceptibility to both severe COVID-19 pneumonia and West Nile encephalitis., (© The Author(s) 2024. Published by Oxford University Press on behalf of Infectious Diseases Society of America.)

Published

2024

3. Germline testing and genetic counseling in biliary tract cancer: an operative proposal to improve the state of art.

Author

Rimini M, Presi S, Pipitone GB, Russo Raucci A, Ratti F, Della Corte A, Pedica F, Vanella G, Tonon G, Burgio V, Vitiello F, Rossari F, Amadeo E, Maria Giulia C, Pecciarini L, Arcidiacono PG, Falcinelli F, Cascinu S, De Cobelli F, Aldrighetti L, Patricelli MG, Carrera P, and Casadei-Gardini A

Subjects

Humans, Biomarkers, Tumor genetics, Phenotype, Predictive Value of Tests, Risk Factors, Biliary Tract Neoplasms genetics, Biliary Tract Neoplasms therapy, Genetic Counseling, Genetic Predisposition to Disease, Genetic Testing, Germ-Line Mutation

Abstract

Introduction: A genetic predisposition seems to be involved in biliary tract cancer, but the prevalence of germline mutations in BTC remains unclear, and the therapeutic role of the germline pathologic variants is still unknown., Area Covered: The aim of the present work is to systematically review the data available on the hereditary predisposition of biliary tract cancer by a specific research on PubMed, in order to highlight the most important critical points and to define the current possible role of germinal testing and genetic counseling in this setting of patients., Expert Opinion: Basing on data already available, we decided to start in our institution a specific genetic protocol focused on biliary tract cancer patients, which includes genetic counseling and, if indicated, germline test. The inclusion criteria are: 1) Patient with personal history of oncologic disease other than BTC, 2) Patient with familiar history of oncologic disease (considering relatives of first and second grade), 3) Patient with ≤ 50 years old, 4) Patient presenting a somatic mutation in genes involved in DNA damage repair pathways and mismatch repair. The aim of the presented protocol is to identify germline pathogenic variants with prophylactic and therapeutic impact, and to collect and integrate a significant amount of clinical, familial, somatic, and genetic data.

Published

2024

4. Behavioral Phenotype, Electroclinical Features, and Treatment Options in Twins with Lrp2 Candidate Variants (Donnay-Barrow/Foar Syndrome).

Author

Mingarelli A, Pipitone GB, Torini G, Patricelli MG, Totaro M, Colonna C, Carrera P, and Raviglione F

Abstract

The LRP2 gene encodes megalin (LRP-2/GP330), a large single-spanning transmembrane glycoprotein that serves as a multiligand endocytotic receptor and mediates the reabsorption of albumin in the proximal renal tubule. LRP2 is implicated in an autosomal recessive disorder characterized by dimorphisms, ocular anomalies, sensorineural deafness, proteinuria, epilepsy, and intellectual disability: a clinical condition called Donnai-Barrow syndrome (DBS) or facio-oculo-acoustico-renal (FOAR) syndrome. Pathogenic variants in LRP2 have been reported in fewer than 60 patients, but a detailed description of seizures, electroencephalographic patterns, imaging findings, behavioral phenotype, and long-term follow-up is still needed. We provide a clinical report of two mono-chorionic twins with LRP2 -related disease manifesting developmental delay, autistic features, seizures, proteinuria, and sleep disorders. By sequencing clinical exome, LRP2 candidate rare variants, c.6815G > A, p. (Arg2272His), inherited from the mother and c.12725A > G, p. (Asp4242Gly), inherited from the father, were identified. During follow-up, at the age of 7, the main clinical features of the patients included insomnia, autistic features, severe psychomotor delay, and absent speech. The patients were under treatment with risperidone, antiseizure medications (ASMs), and supplementation of alpha-lactalbumin for self-injury and sleep disturbance. Our study confirmed the wide spectrum of behavioral and neurological and psychiatric features of this rare condition, suggesting new treatment options., Competing Interests: The authors declare that there are no conflicts of interest., (Copyright © 2023 Alessia Mingarelli et al.)

Published

2023

5. Whole exome data prioritization unveils the hidden weight of Mendelian causes of male infertility. A report from the first Italian cohort.

Author

Quarantani G, Sorgente A, Alfano M, Pipitone GB, Boeri L, Pozzi E, Belladelli F, Pederzoli F, Ferrara AM, Montorsi F, Moles A, Carrera P, Salonia A, and Casari G

Subjects

Humans, Male, Exome genetics, Mutation, Infertility, Male genetics, Infertility, Male diagnosis, Azoospermia genetics, Oligospermia diagnosis

Abstract

Almost 40% of infertile men cases are classified as idiopathic when tested negative to the current diagnostic routine based on the screening of karyotype, Y chromosome microdeletions and CFTR mutations in men with azoospermia or oligozoospermia. Rare monogenic forms of infertility are not routinely evaluated. In this study we aim to investigate the unknown potential genetic causes in couples with pure male idiopathic infertility by applying variant prioritization to whole exome sequencing (WES) in a cohort of 99 idiopathic Italian patients. The ad-hoc manually curated gene library prioritizes genes already known to be associated with more common and rare syndromic and non-syndromic male infertility forms. Twelve monogenic cases (12.1%) were identified in the whole cohort of patients. Of these, three patients had variants related to mild androgen insensitivity syndrome, two in genes related to hypogonadotropic hypogonadism, and six in genes related to spermatogenic failure, while one patient is mutant in PKD1. These results suggest that NGS combined with our manually curated pipeline for variant prioritization and classification can uncover a considerable number of Mendelian causes of infertility even in a small cohort of patients., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Quarantani et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

6. Mutations in MYO9B are associated with Charcot-Marie-Tooth disease type 2 neuropathies and isolated optic atrophy.

Author

Cipriani S, Guerrero-Valero M, Tozza S, Zhao E, Vollmer V, Beijer D, Danzi M, Rivellini C, Lazarevic D, Pipitone GB, Grosz BR, Lamperti C, Marzoli SB, Carrera P, Devoto M, Pisciotta C, Pareyson D, Kennerson M, Previtali SC, Zuchner S, Scherer SS, Manganelli F, Bähler M, and Bolino A

Subjects

Animals, Humans, Mice, Mutation genetics, Pedigree, Phenotype, Proteins, Sciatic Nerve pathology, Charcot-Marie-Tooth Disease genetics, Charcot-Marie-Tooth Disease pathology, Myosins genetics

Abstract

Background and Purpose: Charcot-Marie-Tooth disease (CMT) is a heterogeneous group of disorders caused by mutations in at least 100 genes. However, approximately 60% of cases with axonal neuropathies (CMT2) still remain without a genetic diagnosis. We aimed at identifying novel disease genes responsible for CMT2., Methods: We performed whole exome sequencing and targeted next generation sequencing panel analyses on a cohort of CMT2 families with evidence for autosomal recessive inheritance. We also performed functional studies to explore the pathogenetic role of selected variants., Results: We identified rare, recessive variants in the MYO9B (myosin IX) gene in two families with CMT2. MYO9B has not yet been associated with a human disease. MYO9B is an unconventional single-headed processive myosin motor protein with signaling properties, and, consistent with this, our results indicate that a variant occurring in the MYO9B motor domain impairs protein expression level and motor activity. Interestingly, a Myo9b-null mouse has degenerating axons in sciatic nerves and optic nerves, indicating that MYO9B plays an essential role in both peripheral nervous system and central nervous system axons, respectively. The degeneration observed in the optic nerve prompted us to screen for MYO9B mutations in a cohort of patients with optic atrophy (OA). Consistent with this, we found compound heterozygous variants in one case with isolated OA., Conclusions: Novel or very rare variants in MYO9B are associated with CMT2 and isolated OA., (© 2022 The Authors. European Journal of Neurology published by John Wiley & Sons Ltd on behalf of European Academy of Neurology.)

Published

2023

7. Locally Performed HRD Testing for Ovarian Cancer? Yes, We Can!

Author

Magliacane G, Brunetto E, Calzavara S, Bergamini A, Pipitone GB, Marra G, Redegalli M, Grassini G, Rabaiotti E, Taccagni G, Pecciarini L, Carrera P, Mangili G, Doglioni C, and Cangi MG

Abstract

Assessment of HRD status is now essential for ovarian cancer patient management. A relevant percentage of high-grade serous carcinoma (HGSC) is characterized by HRD, which is caused by genetic alterations in the homologous recombination repair (HRR) pathway. Recent trials have shown that not only patients with pathogenic/likely pathogenic BRCA variants, but also BRCAwt /HRD patients, are sensitive to PARPis and platinum therapy. The most common HRD test is Myriad MyChoice CDx, but there is a pressing need to offer an alternative to outsourcing analysis, which typically requires high costs and lengthy turnaround times. In order to set up a complete in-house workflow for HRD testing, we analyzed a small cohort of HGSC patients using the CE-IVD AmoyDx HRD Focus Panel and compared our results with Myriad's. In addition, to further deepen the mechanisms behind HRD, we analyzed the study cohort by using both a custom NGS panel that analyzed 21 HRR-related genes and FISH analysis to determine the copy numbers of PTEN and EMSY . We found complete concordance in HRD status detected by the Amoy and the Myriad assays, supporting the feasibility of internal HRD testing.

Published

2022

8. NEK1 Variants in a Cohort of Italian Patients With Amyotrophic Lateral Sclerosis.

Author

Riva N, Pozzi L, Russo T, Pipitone GB, Schito P, Domi T, Agosta F, Quattrini A, Carrera P, and Filippi M

Abstract

Introduction: In the last few years, different studies highlighted a significant enrichment of NEK1 loss of function (LoF) variants in amyotrophic lateral sclerosis (ALS), and an additional role for the p.Arg261His missense variant in the disease susceptibility. Several other missense variants have been described so far, whose pathogenic relevance remains however unclear since many of them have been reported in both patients and controls. This study aimed to investigate the presence of NEK1 variants and their correlation with phenotype in a cohort of Italian patients with ALS., Methods: We sequenced a cohort of 350 unrelated Italian patients with ALS by next-generation sequencing (NGS) and then we analyzed the clinical features of NEK1 carriers., Results: We detected 20 different NEK1 rare variants (four LoF and 16 missense) in 33 unrelated patients with sporadic ALS (sALS). The four LoF variants (two frameshift and two splice-site variants) were all novel. The p.Arg261His missense variant was enriched in the patients' cohort ( p < 0.001). Excluding this variant from counting, the difference in the frequency of NEK1 rare missense variants between patients and controls was not statistically significant. NEK1 carriers had a higher frequency of flail arm (FA) phenotype compared with the other patients of the cohort (29.2% vs. 6.4%). Nine NEK1 carriers (37.5%) also harbored variants in other ALS-related genes., Conclusion: This study confirms that NEK1 LoF and p.Arg261. His missense variants are associated with ALS in an Italian ALS cohort and suggests a correlation between the presence of NEK1 variants and FA phenotype., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Riva, Pozzi, Russo, Pipitone, Schito, Domi, Agosta, Quattrini, Carrera and Filippi.)

Published

2022

9. Generation of β Cells from iPSC of a MODY8 Patient with a Novel Mutation in the Carboxyl Ester Lipase (CEL) Gene.

Author

Pellegrini S, Pipitone GB, Cospito A, Manenti F, Poggi G, Lombardo MT, Nano R, Martino G, Ferrari M, Carrera P, Sordi V, and Piemonti L

Subjects

Adult, Cell Differentiation genetics, Cells, Cultured, DNA Mutational Analysis, Diabetes Mellitus, Type 2 genetics, Genetic Techniques, Heterozygote, Humans, Induced Pluripotent Stem Cells pathology, Insulin-Secreting Cells pathology, Male, Mutation, Primary Cell Culture, Diabetes Mellitus, Type 2 pathology, Induced Pluripotent Stem Cells physiology, Insulin-Secreting Cells physiology, Lipase genetics

Abstract

Context: Maturity-onset diabetes of the young (MODY) 8 is a rare form of monogenic diabetes characterized by a mutation in CEL (carboxyl ester lipase) gene, which leads to exocrine pancreas dysfunction, followed by β cell failure. Induced pluripotent stem cells can differentiate into functional β cells. Thus, β cells from MODY8 patients can be generated in vitro and used for disease modelling and cell replacement therapy., Methods: A genetic study was performed in a patient suspected of monogenic diabetes., Results: A novel heterozygous pathogenic variant in CEL (c.1818delC) was identified in the proband, allowing diagnosis of MODY8. Three MODY8-iPSC (induced pluripotent stem cell) clones were reprogrammed from skin fibroblasts of the patient, and their pluripotency and genomic stability confirmed. All 3 MODY8-iPSC differentiated into β cells following developmental stages. MODY8-iPSC-derived β cells were able to secrete insulin upon glucose dynamic perifusion. The CEL gene was not expressed in iPSCs nor during any steps of endocrine differentiation., Conclusion: iPSC lines from a MODY8 patient with a novel pathogenic variant in the CEL gene were generated; they are capable of differentiation into endocrine cells, and β cell function is preserved in mutated cells. These results set the basis for in vitro modelling of the disease and potentially for autologous β cell replacement., (© The Author(s) 2021. Published by Oxford University Press on behalf of the Endocrine Society. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2021

10. Current scenario of the genetic testing for rare neurological disorders exploiting next generation sequencing.

Author

Di Resta C, Pipitone GB, Carrera P, and Ferrari M

Abstract

Next generation sequencing is currently a cornerstone of genetic testing in routine diagnostics, allowing for the detection of sequence variants with so far unprecedented large scale, mainly in genetically heterogenous diseases, such as neurological disorders. It is a fast-moving field, where new wet enrichment protocols and bioinformatics tools are constantly being developed to overcome initial limitations. Despite the as yet undiscussed advantages, however, there are still some challenges in data analysis and the interpretation of variants. In this review, we address the current state of next generation sequencing diagnostic testing for inherited human disorders, particularly giving an overview of the available high-throughput sequencing approaches; including targeted, whole-exome and whole-genome sequencing; and discussing the main critical aspects of the bioinformatic process, from raw data analysis to molecular diagnosis., Competing Interests: None

Published

2021

11. Burden of Rare Variants in ALS and Axonal Hereditary Neuropathy Genes Influence Survival in ALS: Insights from a Next Generation Sequencing Study of an Italian ALS Cohort.

Author

Scarlino S, Domi T, Pozzi L, Romano A, Pipitone GB, Falzone YM, Mosca L, Penco S, Lunetta C, Sansone V, Tremolizzo L, Fazio R, Agosta F, Filippi M, Carrera P, Riva N, and Quattrini A

Subjects

Adult, Aged, Aged, 80 and over, Cohort Studies, Female, High-Throughput Nucleotide Sequencing, Humans, Italy, Kaplan-Meier Estimate, Male, Middle Aged, Motor Neuron Disease mortality, Muscular Atrophy, Spinal mortality, Polymorphism, Single Nucleotide, Prognosis, Amyotrophic Lateral Sclerosis genetics, Amyotrophic Lateral Sclerosis mortality, Motor Neuron Disease genetics, Muscular Atrophy, Spinal genetics

Abstract

Although the genetic architecture of amyotrophic lateral sclerosis (ALS) is incompletely understood, recent findings suggest a complex model of inheritance in ALS, which is consistent with a multistep pathogenetic process. Therefore, the aim of our work is to further explore the architecture of ALS using targeted next generation sequencing (NGS) analysis, enriched in motor neuron diseases (MND)-associated genes which are also implicated in axonal hereditary motor neuropathy (HMN), in order to investigate if disease expression, including the progression rate, could be influenced by the combination of multiple rare gene variants. We analyzed 29 genes in an Italian cohort of 83 patients with both familial and sporadic ALS. Overall, we detected 43 rare variants in 17 different genes and found that 43.4% of the ALS patients harbored a variant in at least one of the investigated genes. Of note, 27.9% of the variants were identified in other MND- and HMN-associated genes. Moreover, multiple gene variants were identified in 17% of the patients. The burden of rare variants is associated with reduced survival and with the time to reach King stage 4, i.e., the time to reach the need for percutaneous endoscopic gastrostomy (PEG) positioning or non-invasive mechanical ventilation (NIMV) initiation, independently of known negative prognostic factors. Our data contribute to a better understanding of the molecular basis of ALS supporting the hypothesis that rare variant burden could play a role in the multistep model of disease and could exert a negative prognostic effect. Moreover, we further extend the genetic landscape of ALS to other MND-associated genes traditionally implicated in degenerative diseases of peripheral axons, such as HMN and CMT2., Competing Interests: The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.

Published

2020

12. Expanding the spectrum of genes responsible for hereditary motor neuropathies.

Author

Previtali SC, Zhao E, Lazarevic D, Pipitone GB, Fabrizi GM, Manganelli F, Mazzeo A, Pareyson D, Schenone A, Taroni F, Vita G, Bellone E, Ferrarini M, Garibaldi M, Magri S, Padua L, Pennisi E, Pisciotta C, Riva N, Scaioli V, Scarlato M, Tozza S, Geroldi A, Jordanova A, Ferrari M, Molineris I, Reilly MM, Comi G, Carrera P, Devoto M, and Bolino A

Subjects

Adult, Aged, Agrin genetics, Charcot-Marie-Tooth Disease physiopathology, Computational Biology, DNA Repair Enzymes genetics, Female, High-Throughput Nucleotide Sequencing, Humans, Intracellular Signaling Peptides and Proteins genetics, Male, Middle Aged, Multienzyme Complexes genetics, Muscle Proteins genetics, Muscular Atrophy, Spinal physiopathology, Pedigree, Phosphotransferases (Alcohol Group Acceptor) genetics, Protein Serine-Threonine Kinases genetics, Receptors, sigma genetics, Rho Guanine Nucleotide Exchange Factors genetics, Exome Sequencing, Sigma-1 Receptor, Charcot-Marie-Tooth Disease genetics, Muscular Atrophy, Spinal genetics

Abstract

Background: Inherited peripheral neuropathies (IPNs) represent a broad group of genetically and clinically heterogeneous disorders, including axonal Charcot-Marie-Tooth type 2 (CMT2) and hereditary motor neuropathy (HMN). Approximately 60%-70% of cases with HMN/CMT2 still remain without a genetic diagnosis. Interestingly, mutations in HMN/CMT2 genes may also be responsible for motor neuron disorders or other neuromuscular diseases, suggesting a broad phenotypic spectrum of clinically and genetically related conditions. Thus, it is of paramount importance to identify novel causative variants in HMN/CMT2 patients to better predict clinical outcome and progression., Methods: We designed a collaborative study for the identification of variants responsible for HMN/CMT2. We collected 15 HMN/CMT2 families with evidence for autosomal recessive inheritance, who had tested negative for mutations in 94 known IPN genes, who underwent whole-exome sequencing (WES) analyses. Candidate genes identified by WES were sequenced in an additional cohort of 167 familial or sporadic HMN/CMT2 patients using next-generation sequencing (NGS) panel analysis., Results: Bioinformatic analyses led to the identification of novel or very rare variants in genes, which have not been previously associated with HMN/CMT2 ( ARHGEF28 , KBTBD13 , AGRN and GNE ); in genes previously associated with HMN/CMT2 but in combination with different clinical phenotypes ( VRK1 and PNKP ), and in the SIGMAR1 gene, which has been linked to HMN/CMT2 in only a few cases. These findings were further validated by Sanger sequencing, segregation analyses and functional studies., Conclusions: These results demonstrate the broad spectrum of clinical phenotypes that can be associated with a specific disease gene, as well as the complexity of the pathogenesis of neuromuscular disorders., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2019. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2019

13. ADCY10 frameshift variant leading to severe recessive asthenozoospermia and segregating with absorptive hypercalciuria.

Author

Akbari A, Pipitone GB, Anvar Z, Jaafarinia M, Ferrari M, Carrera P, and Totonchi M

Subjects

Adult, Asthenozoospermia diagnosis, Calcium urine, Consanguinity, Cyclic CMP analogs & derivatives, Cyclic CMP pharmacology, DNA Mutational Analysis, Frameshift Mutation, Homozygote, Humans, Hypercalciuria diagnosis, Hypercalciuria urine, Iran, Karyotyping, Kidney Calculi diagnosis, Kidney Calculi urine, Male, Pedigree, Sperm Motility drug effects, Sperm Motility genetics, Treatment Outcome, Adenylyl Cyclases genetics, Asthenozoospermia genetics, Hypercalciuria genetics, Kidney Calculi genetics

Abstract

Study Question: Can whole exome sequencing (WES) reveal a novel pathogenic variant in asthenozoospermia in a multiplex family including multiple patients?, Summary Answer: Patients were discovered to be homozygous for a rare 2-bp deletion in the ADCY10 coding region (c.1205&#95;1206del, rs779944215)., What Is Known Already: ADCY10 encodes for soluble adenylyl cyclase (sAC), which is the predominant adenylate cyclase in sperm. It is already established that proper sAC activity and a constant supply of cAMP are crucial to sperm motility regulation, and knockout mouse models have been reported as severely asthenozoospermic. ADCY10 is a susceptibility gene for dominant absorptive hypercalciuria (OMIM#143870); however, no ADCY10 variations have been confirmed to cause human asthenozoospermia to date., Study Design, Size, Duration: This was a retrospective genetics study of a highly consanguineous pedigree of asthenozoospermia. The subject family was recruited in Iran in 2016., Participants/materials, Setting, Methods: The two patients were diagnosed as asthenozoospermic through careful clinical investigations. Both patients, respective parents, and an unaffected brother were subjected to WES. The discovered variant was validated by Sanger sequencing and segregated with the phenotype. To confirm the pathogenicity of the variant, sperm samples from both patients, 10 normozoospermic men and 10 asthenozoospermic patients not representing the variation, were treated with a cAMP analogue dissolved in human tubal fluid medium, followed by computer-assisted sperm analysis and statistical analyses., Main Results and the Role of Chance: The discovered homozygous variant occurs at 10 amino acids upstream of the ADCY10 nucleotide binding site leading to a premature termination (p.His402Argfs*41). Treatment of the patients' sperm samples with a cell-permeable cAMP analogue resulted in a significant increase in sperm motility, indicating the pathogenic role of the variant. Moreover, absorptive hypercalciuria, segregating within the family, was also associated with the same variant following a dominant inheritance., Limitations, Reasons for Caution: Though nonsense-mediated decay is highly likely to occur in the mutated transcripts, we were not able to confirm this due to low RNA levels in mature sperm., Wider Implications of the Findings: Our finding enlarges the phenotypic spectrum associated with the ADCY10 gene, previously described as a susceptibility gene for dominant absorptive hypercalciuria., Study Funding/competing Interest(s): This study was supported by grants from the Royan Institute, Tehran, Iran, and San Raffaele Hospital, Milan, Italy. The authors have no conflict of interest., Trial Registration Number: N/A., (© The Author(s) 2019. Published by Oxford University Press on behalf of the European Society of Human Reproduction and Embryology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2019

14. Integration of multigene panels for the diagnosis of hereditary retinal disorders using Next Generation Sequencing and bioinformatics approaches.

Author

Di Resta C, Spiga I, Presi S, Merella S, Pipitone GB, Manitto MP, Querques G, Parodi MB, Ferrari M, and Carrera P

Abstract

In recent years, Next-Generation Sequencing (NGS) opened a new way for the study of pathogenic mechanisms and for molecular diagnosis of inherited disorders. In the present work, we focused our attention on the inherited retinal dystrophies (IRDs), a group of specific disorders of the retina, displaying a very high clinical and genetic heterogeneity, whose genetic diagnosis is not easily feasible. It represents a paradigmatic example for the integration of clinical and molecular examination toward precision medicine. In this paper, we discuss the use of targeted NGS resequencing of selected gene panels in a cohort of patients affected by IRDs. We tested the hypothesis to apply a selective approach based on a careful clinical examination. By this approach we reached a 66% overall detection rate for pathogenic variants, with a 52% diagnostic yield. Reduction of the efforts for validation and classification of variants is a clear advantage for the management of genetic testing in a clinical setting.

Published

2018