SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4229042617> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W4229042617 abstract "Congenital disorders of glycosylation (CDG) are inherited metabolic diseases characterized by mutations in enzymes involved in different steps of protein glycosylation, leading to aberrant synthesis, attachment or processing of glycans. Recently, immunological dysfunctions in several CDG types have been increasingly documented. Despite these observations, detailed studies on immune cell dysfunction in PMM2-CDG and other CDG types are still scarce. Studying PMM2-CDG patient immune cells is challenging due to limited availability of patient material, which is a result of the low incidence of the disease and the often young age of the subjects. Dedicated immune cell models, mimicking PMM2-CDG, could circumvent many of these problems and facilitate research into the mechanisms of immune dysfunction. Here we provide initial observations about the immunophenotype and the phagocytic function of primary PMM2-CDG monocytes. Furthermore, we assessed the suitability of two different glycosylation-impaired human monocyte models: tunicamycin-treated THP-1 monocytes and PMM2 knockdown THP-1 monocytes induced by shRNAs. We found no significant differences in primary monocyte subpopulations of PMM2-CDG patients as compared to healthy individuals but we did observe anomalous surface glycosylation patterns in PMM2-CDG patient monocytes as determined using fluorescent lectin binding. We also looked at the capacity of monocytes to bind and internalize fungal particles and found a slightly increased uptake of C. albicans by PMM2-CDG monocytes as compared to healthy monocytes. Tunicamycin-treated THP-1 monocytes showed a highly decreased uptake of fungal particles, accompanied by a strong decrease in glycosylation levels and a high induction of ER stress. In contrast and despite a drastic reduction of the PMM2 enzyme activity, PMM2 knockdown THP-1 monocytes showed no changes in global surface glycosylation levels, levels of fungal particle uptake similar to control monocytes, and no ER stress induction. Collectively, these initial observations suggest that the absence of ER stress in PMM2 knockdown THP-1 cells make this model superior over tunicamycin-treated THP-1 cells and more comparable to primary PMM2-CDG monocytes. Further development and exploitation of CDG monocyte models will be essential for future in-depth studies to ultimately unravel the mechanisms of immune dysfunction in CDG." @default.
W4229042617 created "2022-05-08" @default.
W4229042617 creator A5028653276 @default.
W4229042617 creator A5041824888 @default.
W4229042617 creator A5047261726 @default.
W4229042617 creator A5054940822 @default.
W4229042617 creator A5056767820 @default.
W4229042617 creator A5059729488 @default.
W4229042617 creator A5064738584 @default.
W4229042617 creator A5064938102 @default.
W4229042617 creator A5068063896 @default.
W4229042617 date "2022-05-06" @default.
W4229042617 modified "2023-09-29" @default.
W4229042617 title "Evaluation of Cell Models to Study Monocyte Functions in PMM2 Congenital Disorders of Glycosylation" @default.
W4229042617 cites W1492593302 @default.
W4229042617 cites W1527068991 @default.
W4229042617 cites W1563750046 @default.
W4229042617 cites W1663207167 @default.
W4229042617 cites W1697178647 @default.
W4229042617 cites W1977645885 @default.
W4229042617 cites W1984237320 @default.
W4229042617 cites W1987723186 @default.
W4229042617 cites W1990117583 @default.
W4229042617 cites W1999425810 @default.
W4229042617 cites W2010734055 @default.
W4229042617 cites W2024755223 @default.
W4229042617 cites W2034272719 @default.
W4229042617 cites W2046774615 @default.
W4229042617 cites W2048844594 @default.
W4229042617 cites W2067150326 @default.
W4229042617 cites W2071675093 @default.
W4229042617 cites W2086783821 @default.
W4229042617 cites W2087963451 @default.
W4229042617 cites W2105993213 @default.
W4229042617 cites W2111110297 @default.
W4229042617 cites W2127590829 @default.
W4229042617 cites W2128337942 @default.
W4229042617 cites W2134711689 @default.
W4229042617 cites W2147425799 @default.
W4229042617 cites W2147575294 @default.
W4229042617 cites W2167742884 @default.
W4229042617 cites W2169407432 @default.
W4229042617 cites W2171462887 @default.
W4229042617 cites W2184837125 @default.
W4229042617 cites W2278173988 @default.
W4229042617 cites W2296788119 @default.
W4229042617 cites W2324733870 @default.
W4229042617 cites W2431189691 @default.
W4229042617 cites W2473960300 @default.
W4229042617 cites W2474034615 @default.
W4229042617 cites W2530424978 @default.
W4229042617 cites W2547154161 @default.
W4229042617 cites W2559333747 @default.
W4229042617 cites W2597008625 @default.
W4229042617 cites W2606251387 @default.
W4229042617 cites W2616245128 @default.
W4229042617 cites W2725274622 @default.
W4229042617 cites W2726033655 @default.
W4229042617 cites W2759899905 @default.
W4229042617 cites W2762058314 @default.
W4229042617 cites W2765845687 @default.
W4229042617 cites W2769059387 @default.
W4229042617 cites W2783247742 @default.
W4229042617 cites W2793313299 @default.
W4229042617 cites W2894921081 @default.
W4229042617 cites W2899710525 @default.
W4229042617 cites W2955588583 @default.
W4229042617 cites W2967035454 @default.
W4229042617 cites W2977154009 @default.
W4229042617 cites W2989454521 @default.
W4229042617 cites W3021224081 @default.
W4229042617 cites W3039377240 @default.
W4229042617 cites W3089691710 @default.
W4229042617 cites W3193978044 @default.
W4229042617 cites W3196351730 @default.
W4229042617 cites W3196720105 @default.
W4229042617 cites W3197025879 @default.
W4229042617 cites W4220715483 @default.
W4229042617 doi "https://doi.org/10.3389/fimmu.2022.869031" @default.
W4229042617 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35603178" @default.
W4229042617 hasPublicationYear "2022" @default.
W4229042617 type Work @default.
W4229042617 citedByCount "1" @default.
W4229042617 countsByYear W42290426172023 @default.
W4229042617 crossrefType "journal-article" @default.
W4229042617 hasAuthorship W4229042617A5028653276 @default.
W4229042617 hasAuthorship W4229042617A5041824888 @default.
W4229042617 hasAuthorship W4229042617A5047261726 @default.
W4229042617 hasAuthorship W4229042617A5054940822 @default.
W4229042617 hasAuthorship W4229042617A5056767820 @default.
W4229042617 hasAuthorship W4229042617A5059729488 @default.
W4229042617 hasAuthorship W4229042617A5064738584 @default.
W4229042617 hasAuthorship W4229042617A5064938102 @default.
W4229042617 hasAuthorship W4229042617A5068063896 @default.
W4229042617 hasBestOaLocation W42290426171 @default.
W4229042617 hasConcept C104317684 @default.
W4229042617 hasConcept C108625454 @default.
W4229042617 hasConcept C139447449 @default.
W4229042617 hasConcept C203014093 @default.
W4229042617 hasConcept C2776833585 @default.