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Impaired neurodevelopmental genes in Slovenian autistic children elucidate the comorbidity of autism with other developmental disorders
Danijela Krgović, Mario Gorenjak, Nika Rihar, Iva Opalič, Špela Stangler Herodež, Hojka Gregorič Kumperščak, Peter Dovč, Nadja Kokalj-Vokač, 2022, original scientific article

Abstract: Autism spectrum disorders (ASD) represent a phenotypically heterogeneous group of patients that strongly intertwine with other neurodevelopmental disorders (NDDs), with genetics playing a significant role in their etiology. Whole exome sequencing (WES) has become predominant in molecular diagnostics for ASD by considerably increasing the diagnostic yield. However, the proportion of undiagnosed patients still remains high due to complex clinical presentation, reduced penetrance, and lack of segregation analysis or clinical information. Thus, reverse phenotyping, where we first identified a possible genetic cause and then determine its clinical relevance, has been shown to be a more efficient approach. WES was performed on 147 Slovenian pediatric patients with suspected ASD. Data analysis was focused on identifying ultrarare or “single event” variants in ASD-associated genes and further expanded to NDD-associated genes. Protein function and gene prioritization were performed on detected clinically relevant variants to determine their role in ASD etiology and phenotype. Reverse phenotyping revealed a pathogenic or likely pathogenic variant in ASD-associated genes in 20.4% of patients, with subsequent segregation analysis indicating that 14 were de novo variants and 1 was presumed compound heterozygous. The diagnostic yield was further increased by 2.7% by the analysis of ultrarare or “single event” variants in all NDD-associated genes. Protein function analysis established that genes in which variants of unknown significance (VUS) were detected were predominantly the cause of intellectual disability (ID), and in most cases, features of ASD as well. Using such an approach, variants in rarely described ASD-associated genes, such as SIN3B, NR4A2, and GRIA1, were detected. By expanding the analysis to include functionally similar NDD genes, variants in KCNK9, GNE, and other genes were identified. These would probably have been missed by classic genotype–phenotype analysis. Our study thus demonstrates that in patients with ASD, analysis of ultrarare or “single event” variants obtained using WES with the inclusion of functionally similar genes and reverse phenotyping obtained a higher diagnostic yield despite limited clinical data. The present study also demonstrates that most of the causative genes in our cohort were involved in the syndromic form of ASD and confirms their comorbidity with other developmental disorders.
Keywords: reverse phenotyping, single event variants, NDD-associated genes, GRIA1 gene, NR4A2 gene, SIN3B gene, autism, child
Published in DKUM: 12.12.2024; Views: 0; Downloads: 5
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Phenotyping of mammalian CHO cell line in fed-batch bioprocess by intensified and classical procedure : master's thesis
Matic Košir, 2023, master's thesis

Abstract: Nowadays, pharmaceutical industry is striving to find more biologically relevant solutions and to move from synthetic to biological products. Biopharmaceuticals represent an emerging sector in the pharmaceutical industry and are useful for a wide range of indications, including oncology and rheumatology. The development and optimisation of bioprocesses at laboratory scale is crucial for process understanding and translation into production. Bioprocess development often begins with comparison of several potential clones to be characterized, tested in low-volume cultures with different media or other variables, and then evaluated for growth, productivity, and consistency. The purpose of this master's thesis is to review changes in growth curves, substrate consumption, yield, and product quality of a mammalian cell line when substituting glucose as the main carbon source with alternative energy sources. This master thesis presents an attempt to adapt a mammalian CHO cell line to alternative energy sources. A comparison of the cultivation with maintenance of the CHO mammalian cell line by an intensified and a classical process is also shown. Substrate requirements at different time points of the process were monitored using phenotypic microarrays. Based on the obtained and analyzed results of the phenotypic microarrays, we tried to optimize the cell culture supplementation strategy. We have tried to use small molecules to facilitate adaptation to alternative energy sources. Our results showed that growing CHO cell culture on an alternative energy source-maltose and cell reprogramming with small molecules affects the quality of the product. Trends in cell growth, substrate consumption, by-product excretion and final product concentration are similar between the reference cell cultures and those pre-treated with small molecules. We found that adapting a mammalian CHO cell line to an alternative energy source is a challenging process that would need to be carried out over a long period of time.
Keywords: CHO cells, bioprocess, phenotyping, alternative energy sources, glycan mapping
Published in DKUM: 05.10.2023; Views: 356; Downloads: 89
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