Your search keyword '"J. Hitti"' showing total 6 results

1. Initial Multicenter Experience With Double Nucleoside Therapy for Human Immunodeficiency Virus Infection During Pregnancy

Author

N. S. Silverman, D. H. Watts, J. Hitti, D. M. Money, E. Livingston, J. Axelrod, J. M. Ernest, D. Robbins, and M. M. DiVito

Subjects

Gynecology and obstetrics, RG1-991, Infectious and parasitic diseases, RC109-216

Abstract

Objective: To study maternal and neonatal effects of combination nucleoside analog therapy administered to human immunodeficiency virus (HIV)-infected pregnant women for maternal indications.

Published

1998

2. Towards Uncovering the Role of Incomplete Penetrance in Maculopathies through Sequencing of 105 Disease-Associated Genes

Author

Rebekkah J. Hitti-Malin, Daan M. Panneman, Zelia Corradi, Erica G. M. Boonen, Galuh Astuti, Claire-Marie Dhaenens, Heidi Stöhr, Bernhard H. F. Weber, Dror Sharon, Eyal Banin, Marianthi Karali, Sandro Banfi, Tamar Ben-Yosef, Damjan Glavač, G. Jane Farrar, Carmen Ayuso, Petra Liskova, Lubica Dudakova, Marie Vajter, Monika Ołdak, Jacek P. Szaflik, Anna Matynia, Michael B. Gorin, Kati Kämpjärvi, Miriam Bauwens, Elfride De Baere, Carel B. Hoyng, Catherina H. Z. Li, Caroline C. W. Klaver, Chris F. Inglehearn, Kaoru Fujinami, Carlo Rivolta, Rando Allikmets, Jana Zernant, Winston Lee, Osvaldo L. Podhajcer, Ana Fakin, Jana Sajovic, Alaa AlTalbishi, Sandra Valeina, Gita Taurina, Andrea L. Vincent, Lisa Roberts, Raj Ramesar, Giovanna Sartor, Elena Luppi, Susan M. Downes, L. Ingeborgh van den Born, Terri L. McLaren, John N. De Roach, Tina M. Lamey, Jennifer A. Thompson, Fred K. Chen, Anna M. Tracewska, Smaragda Kamakari, Juliana Maria Ferraz Sallum, Hanno J. Bolz, Hülya Kayserili, Susanne Roosing, and Frans P. M. Cremers

Subjects

maculopathies, macula, retinal, inherited, sequencing, penetrance, Microbiology, QR1-502

Abstract

Inherited macular dystrophies (iMDs) are a group of genetic disorders, which affect the central region of the retina. To investigate the genetic basis of iMDs, we used single-molecule Molecular Inversion Probes to sequence 105 maculopathy-associated genes in 1352 patients diagnosed with iMDs. Within this cohort, 39.8% of patients were considered genetically explained by 460 different variants in 49 distinct genes of which 73 were novel variants, with some affecting splicing. The top five most frequent causative genes were ABCA4 (37.2%), PRPH2 (6.7%), CDHR1 (6.1%), PROM1 (4.3%) and RP1L1 (3.1%). Interestingly, variants with incomplete penetrance were revealed in almost one-third of patients considered solved (28.1%), and therefore, a proportion of patients may not be explained solely by the variants reported. This includes eight previously reported variants with incomplete penetrance in addition to CDHR1:c.783G>A and CNGB3:c.1208G>A. Notably, segregation analysis was not routinely performed for variant phasing—a limitation, which may also impact the overall diagnostic yield. The relatively high proportion of probands without any putative causal variant (60.2%) highlights the need to explore variants with incomplete penetrance, the potential modifiers of disease and the genetic overlap between iMDs and age-related macular degeneration. Our results provide valuable insights into the genetic landscape of iMDs and warrant future exploration to determine the involvement of other maculopathy genes.

Published

2024

3. Cost-effective sequence analysis of 113 genes in 1,192 probands with retinitis pigmentosa and Leber congenital amaurosis

Author

Daan M. Panneman, Rebekkah J. Hitti-Malin, Lara K. Holtes, Suzanne E. de Bruijn, Janine Reurink, Erica G. M. Boonen, Muhammad Imran Khan, Manir Ali, Sten Andréasson, Elfride De Baere, Sandro Banfi, Miriam Bauwens, Tamar Ben-Yosef, Béatrice Bocquet, Marieke De Bruyne, Berta de la Cerda, Frauke Coppieters, Pietro Farinelli, Thomas Guignard, Chris F. Inglehearn, Marianthi Karali, Ulrika Kjellström, Robert Koenekoop, Bart de Koning, Bart P. Leroy, Martin McKibbin, Isabelle Meunier, Konstantinos Nikopoulos, Koji M. Nishiguchi, James A. Poulter, Carlo Rivolta, Enrique Rodríguez de la Rúa, Patrick Saunders, Francesca Simonelli, Yasmin Tatour, Francesco Testa, Alberta A. H. J. Thiadens, Carmel Toomes, Anna M. Tracewska, Hoai Viet Tran, Hiroaki Ushida, Veronika Vaclavik, Virginie J. M. Verhoeven, Maartje van de Vorst, Christian Gilissen, Alexander Hoischen, Frans P. M. Cremers, and Susanne Roosing

Subjects

inherited retinal diseases, targeted gene sequencing, cost-effective, high-throughput, smMIPs, Biology (General), QH301-705.5

Abstract

Introduction: Retinitis pigmentosa (RP) and Leber congenital amaurosis (LCA) are two groups of inherited retinal diseases (IRDs) where the rod photoreceptors degenerate followed by the cone photoreceptors of the retina. A genetic diagnosis for IRDs is challenging since >280 genes are associated with these conditions. While whole exome sequencing (WES) is commonly used by diagnostic facilities, the costs and required infrastructure prevent its global applicability. Previous studies have shown the cost-effectiveness of sequence analysis using single molecule Molecular Inversion Probes (smMIPs) in a cohort of patients diagnosed with Stargardt disease and other maculopathies.Methods: Here, we introduce a smMIPs panel that targets the exons and splice sites of all currently known genes associated with RP and LCA, the entire RPE65 gene, known causative deep-intronic variants leading to pseudo-exons, and part of the RP17 region associated with autosomal dominant RP, by using a total of 16,812 smMIPs. The RP-LCA smMIPs panel was used to screen 1,192 probands from an international cohort of predominantly RP and LCA cases.Results and discussion: After genetic analysis, a diagnostic yield of 56% was obtained which is on par with results from WES analysis. The effectiveness and the reduced costs compared to WES renders the RP-LCA smMIPs panel a competitive approach to provide IRD patients with a genetic diagnosis, especially in countries with restricted access to genetic testing.

Published

2023

4. Clinical, histopathological and genetic characterisation of oculoskeletal dysplasia in the Northern Inuit Dog.

Author

Renata Stavinohova, Claudia Hartley, Louise M Burmeister, Sally L Ricketts, Louise Pettitt, Roser Tetas Pont, Rebekkah J Hitti, Ellen Schofield, James A C Oliver, and Cathryn S Mellersh

Subjects

Medicine, Science

Abstract

Seven Northern Inuit Dogs (NID) were diagnosed by pedigree analysis with an autosomal recessive inherited oculoskeletal dysplasia (OSD). Short-limbed dwarfism, angular limb deformities and a variable combination of macroglobus, cataracts, lens coloboma, microphakia and vitreopathy were present in all seven dogs, while retinal detachment was diagnosed in five dogs. Autosomal recessive OSD caused by COL9A3 and COL9A2 mutations have previously been identified in the Labrador Retriever (dwarfism with retinal dysplasia 1-drd1) and Samoyed dog (dwarfism with retinal dysplasia 2-drd2) respectively; both of those mutations were excluded in all affected NID. Nine candidate genes were screened in whole genome sequence data; only one variant was identified that was homozygous in two affected NID but absent in controls. This variant was a nonsense single nucleotide polymorphism in COL9A3 predicted to result in a premature termination codon and a truncated protein product. This variant was genotyped in a total of 1,232 dogs. All seven affected NID were homozygous for the variant allele (T/T), while 31/116 OSD-unaffected NID were heterozygous for the variant (C/T) and 85/116 were homozygous for the wildtype allele (C/C); indicating a significant association with OSD (p = 1.41x10-11). A subset of 56 NID unrelated at the parent level were analysed to determine an allele frequency of 0.08, estimating carrier and affected rates to be 15% and 0.6% respectively in NID. All 1,109 non-NID were C/C, suggesting the variant is rare or absent in other breeds. Expression of retinal mRNA was similar between an OSD-affected NID and OSD-unaffected non-NID. In conclusion, a nonsense variant in COL9A3 is strongly associated with OSD in NID, and appears to be widespread in this breed.

Published

2019

5. An Inversion Disrupting FAM134B Is Associated with Sensory Neuropathy in the Border Collie Dog Breed

Author

Oliver P. Forman, Rebekkah J. Hitti, Louise Pettitt, Christopher A. Jenkins, Dennis P. O’Brien, G. Diane Shelton, Luisa De Risio, Rodrigo Gutierrez Quintana, Elsa Beltran, and Cathryn Mellersh

Subjects

FAM134B, GWAS, canine, genome sequencing, sensory neuropathy, Genetics, QH426-470

Abstract

Sensory neuropathy in the Border Collie is a severe neurological disorder caused by the degeneration of sensory and, to a lesser extent, motor nerve cells with clinical signs starting between 2 and 7 months of age. Using a genome-wide association study approach with three cases and 170 breed matched controls, a suggestive locus for sensory neuropathy was identified that was followed up using a genome sequencing approach. An inversion disrupting the candidate gene FAM134B was identified. Genotyping of additional cases and controls and RNAseq analysis provided strong evidence that the inversion is causal. Evidence of cryptic splicing resulting in novel exon transcription for FAM134B was identified by RNAseq experiments. This investigation demonstrates the identification of a novel sensory neuropathy associated mutation, by mapping using a minimal set of cases and subsequent genome sequencing. Through mutation screening, it should be possible to reduce the frequency of or completely eliminate this debilitating condition from the Border Collie breed population.

Published

2016

6. A LINE-1 insertion situated in the promoter of IMPG2 is associated with autosomal recessive progressive retinal atrophy in Lhasa Apso dogs

Author

Rebekkah J. Hitti-Malin, Louise M. Burmeister, Sally L. Ricketts, Thomas W. Lewis, Louise Pettitt, Mike Boursnell, Ellen C. Schofield, David Sargan, and Cathryn S. Mellersh

Subjects

Canine, Dog, Progressive retinal atrophy, PRA, Canine retinal degeneration, Inherited, Genetics, QH426-470

Abstract

Abstract Background Canine progressive retinal atrophies are a group of hereditary retinal degenerations in dogs characterised by depletion of photoreceptor cells in the retina, which ultimately leads to blindness. PRA in the Lhasa Apso (LA) dog has not previously been clinically characterised or described in the literature, but owners in the UK are advised to have their dog examined through the British Veterinary Association/ Kennel Club/ International Sheep Dog Society (BVA/KC/ISDS) eye scheme annually, and similar schemes that are in operation in other countries. After the exclusion of 25 previously reported canine retinal mutations in LA PRA-affected dogs, we sought to identify the genetic cause of PRA in this breed. Results Analysis of whole-exome sequencing data of three PRA-affected LA and three LA without signs of PRA did not identify any exonic or splice site variants, suggesting the causal variant was non-exonic. We subsequently undertook a genome-wide association study (GWAS), which identified a 1.3 Mb disease-associated region on canine chromosome 33, followed by whole-genome sequencing analysis that revealed a long interspersed element-1 (LINE-1) insertion upstream of the IMPG2 gene. IMPG2 has previously been implicated in human retinal disease; however, until now no canine PRAs have been associated with this gene. The identification of this PRA-associated variant has enabled the development of a DNA test for this form of PRA in the breed, here termed PRA4 to distinguish it from other forms of PRA described in other breeds. This test has been used to determine the genotypes of over 900 LA dogs. A large cohort of genotyped dogs was used to estimate the allele frequency as between 0.07–0.1 in the UK LA population. Conclusions Through the use of GWAS and subsequent sequencing of a PRA case, we have identified a LINE-1 insertion in the retinal candidate gene IMPG2 that is associated with a form of PRA in the LA dog. Validation of this variant in 447 dogs of 123 breeds determined it was private to LA dogs. We envisage that, over time, the developed DNA test will offer breeders the opportunity to avoid producing dogs affected with this form of PRA.

Published

2020