SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3036227905> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W3036227905 abstract "Abstract Background Fragile X syndrome (FXS), a neurodevelopmental disorder, is a leading monogenetic cause of intellectual disability and autism spectrum disorder. Notwithstanding the extensive studies using rodent and other pre-clinical models of FXS, which have provided detailed mechanistic insights into the pathophysiology of this disorder, it is only relatively recently that human stem cell-derived neurons have been employed as a model system to further our understanding of the pathophysiological events that may underlie FXS. Our study assesses the physiological properties of human pluripotent stem cell-derived cortical neurons lacking fragile X mental retardation protein (FMRP). Methods Electrophysiological whole-cell voltage- and current-clamp recordings were performed on two control and three FXS patient lines of human cortical neurons derived from induced pluripotent stem cells. In addition, we also describe the properties of an isogenic pair of lines in one of which FMR1 gene expression has been silenced. Results Neurons lacking FMRP displayed bursts of spontaneous action potential firing that were more frequent but shorter in duration compared to those recorded from neurons expressing FMRP. Inhibition of large conductance Ca 2+ -activated K + currents and the persistent Na + current in control neurons phenocopies action potential bursting observed in neurons lacking FMRP, while in neurons lacking FMRP pharmacological potentiation of voltage-dependent Na + channels phenocopies action potential bursting observed in control neurons. Notwithstanding the changes in spontaneous action potential firing, we did not observe any differences in the intrinsic properties of neurons in any of the lines examined. Moreover, we did not detect any differences in the properties of miniature excitatory postsynaptic currents in any of the lines. Conclusions Pharmacological manipulations can alter the action potential burst profiles in both control and FMRP-null human cortical neurons, making them appear like their genetic counterpart. Our studies indicate that FMRP targets that have been found in rodent models of FXS are also potential targets in a human-based model system, and we suggest potential mechanisms by which activity is altered." @default.
W3036227905 created "2020-06-25" @default.
W3036227905 creator A5000059723 @default.
W3036227905 creator A5016051433 @default.
W3036227905 creator A5017285977 @default.
W3036227905 creator A5017662410 @default.
W3036227905 creator A5020726016 @default.
W3036227905 creator A5028661050 @default.
W3036227905 creator A5046588353 @default.
W3036227905 creator A5053564990 @default.
W3036227905 creator A5058412862 @default.
W3036227905 creator A5062181327 @default.
W3036227905 creator A5065393484 @default.
W3036227905 creator A5076105306 @default.
W3036227905 creator A5081949745 @default.
W3036227905 creator A5084280682 @default.
W3036227905 creator A5088083791 @default.
W3036227905 creator A5090029863 @default.
W3036227905 date "2020-06-19" @default.
W3036227905 modified "2023-09-30" @default.
W3036227905 title "Cortical neurons derived from human pluripotent stem cells lacking FMRP display altered spontaneous firing patterns" @default.
W3036227905 cites W1502442875 @default.
W3036227905 cites W1621052465 @default.
W3036227905 cites W1936031301 @default.
W3036227905 cites W1942513578 @default.
W3036227905 cites W1967086564 @default.
W3036227905 cites W1967128964 @default.
W3036227905 cites W1979770818 @default.
W3036227905 cites W1984618862 @default.
W3036227905 cites W1992696632 @default.
W3036227905 cites W2004777099 @default.
W3036227905 cites W2014081519 @default.
W3036227905 cites W2014981794 @default.
W3036227905 cites W2016282959 @default.
W3036227905 cites W2016961314 @default.
W3036227905 cites W2017535499 @default.
W3036227905 cites W2019929645 @default.
W3036227905 cites W2034460847 @default.
W3036227905 cites W2036324252 @default.
W3036227905 cites W2048047187 @default.
W3036227905 cites W2050674195 @default.
W3036227905 cites W2052326665 @default.
W3036227905 cites W2073347350 @default.
W3036227905 cites W2078717408 @default.
W3036227905 cites W2079522006 @default.
W3036227905 cites W2087965324 @default.
W3036227905 cites W2092456666 @default.
W3036227905 cites W2095722684 @default.
W3036227905 cites W2100435163 @default.
W3036227905 cites W2112137180 @default.
W3036227905 cites W2117874342 @default.
W3036227905 cites W2147113624 @default.
W3036227905 cites W2153646819 @default.
W3036227905 cites W2155867724 @default.
W3036227905 cites W2157195988 @default.
W3036227905 cites W2162507760 @default.
W3036227905 cites W2174029440 @default.
W3036227905 cites W2175771810 @default.
W3036227905 cites W2205198819 @default.
W3036227905 cites W2267814186 @default.
W3036227905 cites W2326108456 @default.
W3036227905 cites W2360045337 @default.
W3036227905 cites W2399161531 @default.
W3036227905 cites W2502065076 @default.
W3036227905 cites W2522195826 @default.
W3036227905 cites W2599755818 @default.
W3036227905 cites W2755329110 @default.
W3036227905 cites W2785267239 @default.
W3036227905 cites W2793060768 @default.
W3036227905 cites W2793322854 @default.
W3036227905 cites W2835282389 @default.
W3036227905 cites W2900432346 @default.
W3036227905 cites W2913615752 @default.
W3036227905 cites W2949543832 @default.
W3036227905 cites W2981625031 @default.
W3036227905 cites W2982046601 @default.
W3036227905 cites W2997591219 @default.
W3036227905 doi "https://doi.org/10.1186/s13229-020-00351-4" @default.
W3036227905 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7304215" @default.
W3036227905 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32560741" @default.
W3036227905 hasPublicationYear "2020" @default.
W3036227905 type Work @default.
W3036227905 sameAs 3036227905 @default.
W3036227905 citedByCount "11" @default.
W3036227905 countsByYear W30362279052020 @default.
W3036227905 countsByYear W30362279052022 @default.
W3036227905 countsByYear W30362279052023 @default.
W3036227905 crossrefType "journal-article" @default.
W3036227905 hasAuthorship W3036227905A5000059723 @default.
W3036227905 hasAuthorship W3036227905A5016051433 @default.
W3036227905 hasAuthorship W3036227905A5017285977 @default.
W3036227905 hasAuthorship W3036227905A5017662410 @default.
W3036227905 hasAuthorship W3036227905A5020726016 @default.
W3036227905 hasAuthorship W3036227905A5028661050 @default.
W3036227905 hasAuthorship W3036227905A5046588353 @default.
W3036227905 hasAuthorship W3036227905A5053564990 @default.
W3036227905 hasAuthorship W3036227905A5058412862 @default.
W3036227905 hasAuthorship W3036227905A5062181327 @default.
W3036227905 hasAuthorship W3036227905A5065393484 @default.
W3036227905 hasAuthorship W3036227905A5076105306 @default.