Cargando…
The TM6SF2 E167K genetic variant induces lipid biosynthesis and reduces apolipoprotein B secretion in human hepatic 3D spheroids
There is a high unmet need for developing treatments for nonalcoholic fatty liver disease (NAFLD), for which there are no approved drugs today. Here, we used a human in vitro disease model to understand mechanisms linked to genetic risk variants associated with NAFLD. The model is based on 3D sphero...
| Autores principales: | , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Nature Publishing Group UK
2019
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6690969/ https://www.ncbi.nlm.nih.gov/pubmed/31406127 http://dx.doi.org/10.1038/s41598-019-47737-w |
| _version_ | 1783443267101130752 |
|---|---|
| author | Prill, Sebastian Caddeo, Andrea Baselli, Guido Jamialahmadi, Oveis Dongiovanni, Paola Rametta, Raffaela Kanebratt, Kajsa P. Pujia, Arturo Pingitore, Piero Mancina, Rosellina Margherita Lindén, Daniel Whatling, Carl Janefeldt, Annika Kozyra, Mikael Ingelman-Sundberg, Magnus Valenti, Luca Andersson, Tommy B. Romeo, Stefano |
| author_facet | Prill, Sebastian Caddeo, Andrea Baselli, Guido Jamialahmadi, Oveis Dongiovanni, Paola Rametta, Raffaela Kanebratt, Kajsa P. Pujia, Arturo Pingitore, Piero Mancina, Rosellina Margherita Lindén, Daniel Whatling, Carl Janefeldt, Annika Kozyra, Mikael Ingelman-Sundberg, Magnus Valenti, Luca Andersson, Tommy B. Romeo, Stefano |
| author_sort | Prill, Sebastian |
| collection | PubMed |
| description | There is a high unmet need for developing treatments for nonalcoholic fatty liver disease (NAFLD), for which there are no approved drugs today. Here, we used a human in vitro disease model to understand mechanisms linked to genetic risk variants associated with NAFLD. The model is based on 3D spheroids from primary human hepatocytes from five different donors. Across these donors, we observed highly reproducible differences in the extent of steatosis induction, demonstrating that inter-donor variability is reflected in the in vitro model. Importantly, our data indicates that the genetic variant TM6SF2 E167K, previously associated with increased risk for NAFLD, induces increased hepatocyte fat content by reducing APOB particle secretion. Finally, differences in gene expression pathways involved in cholesterol, fatty acid and glucose metabolism between wild type and TM6SF2 E167K mutation carriers (N = 125) were confirmed in the in vitro model. Our data suggest that the 3D in vitro spheroids can be used to investigate the mechanisms underlying the association of human genetic variants associated with NAFLD. This model may also be suitable to discover new treatments against NAFLD. |
| format | Online Article Text |
| id | pubmed-6690969 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2019 |
| publisher | Nature Publishing Group UK |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-66909692019-08-15 The TM6SF2 E167K genetic variant induces lipid biosynthesis and reduces apolipoprotein B secretion in human hepatic 3D spheroids Prill, Sebastian Caddeo, Andrea Baselli, Guido Jamialahmadi, Oveis Dongiovanni, Paola Rametta, Raffaela Kanebratt, Kajsa P. Pujia, Arturo Pingitore, Piero Mancina, Rosellina Margherita Lindén, Daniel Whatling, Carl Janefeldt, Annika Kozyra, Mikael Ingelman-Sundberg, Magnus Valenti, Luca Andersson, Tommy B. Romeo, Stefano Sci Rep Article There is a high unmet need for developing treatments for nonalcoholic fatty liver disease (NAFLD), for which there are no approved drugs today. Here, we used a human in vitro disease model to understand mechanisms linked to genetic risk variants associated with NAFLD. The model is based on 3D spheroids from primary human hepatocytes from five different donors. Across these donors, we observed highly reproducible differences in the extent of steatosis induction, demonstrating that inter-donor variability is reflected in the in vitro model. Importantly, our data indicates that the genetic variant TM6SF2 E167K, previously associated with increased risk for NAFLD, induces increased hepatocyte fat content by reducing APOB particle secretion. Finally, differences in gene expression pathways involved in cholesterol, fatty acid and glucose metabolism between wild type and TM6SF2 E167K mutation carriers (N = 125) were confirmed in the in vitro model. Our data suggest that the 3D in vitro spheroids can be used to investigate the mechanisms underlying the association of human genetic variants associated with NAFLD. This model may also be suitable to discover new treatments against NAFLD. Nature Publishing Group UK 2019-08-12 /pmc/articles/PMC6690969/ /pubmed/31406127 http://dx.doi.org/10.1038/s41598-019-47737-w Text en © The Author(s) 2019 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/. |
| spellingShingle | Article Prill, Sebastian Caddeo, Andrea Baselli, Guido Jamialahmadi, Oveis Dongiovanni, Paola Rametta, Raffaela Kanebratt, Kajsa P. Pujia, Arturo Pingitore, Piero Mancina, Rosellina Margherita Lindén, Daniel Whatling, Carl Janefeldt, Annika Kozyra, Mikael Ingelman-Sundberg, Magnus Valenti, Luca Andersson, Tommy B. Romeo, Stefano The TM6SF2 E167K genetic variant induces lipid biosynthesis and reduces apolipoprotein B secretion in human hepatic 3D spheroids |
| title | The TM6SF2 E167K genetic variant induces lipid biosynthesis and reduces apolipoprotein B secretion in human hepatic 3D spheroids |
| title_full | The TM6SF2 E167K genetic variant induces lipid biosynthesis and reduces apolipoprotein B secretion in human hepatic 3D spheroids |
| title_fullStr | The TM6SF2 E167K genetic variant induces lipid biosynthesis and reduces apolipoprotein B secretion in human hepatic 3D spheroids |
| title_full_unstemmed | The TM6SF2 E167K genetic variant induces lipid biosynthesis and reduces apolipoprotein B secretion in human hepatic 3D spheroids |
| title_short | The TM6SF2 E167K genetic variant induces lipid biosynthesis and reduces apolipoprotein B secretion in human hepatic 3D spheroids |
| title_sort | tm6sf2 e167k genetic variant induces lipid biosynthesis and reduces apolipoprotein b secretion in human hepatic 3d spheroids |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6690969/ https://www.ncbi.nlm.nih.gov/pubmed/31406127 http://dx.doi.org/10.1038/s41598-019-47737-w |
| work_keys_str_mv | AT prillsebastian thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT caddeoandrea thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT baselliguido thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT jamialahmadioveis thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT dongiovannipaola thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT ramettaraffaela thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT kanebrattkajsap thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT pujiaarturo thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT pingitorepiero thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT mancinarosellinamargherita thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT lindendaniel thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT whatlingcarl thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT janefeldtannika thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT kozyramikael thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT ingelmansundbergmagnus thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT valentiluca thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT anderssontommyb thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT romeostefano thetm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT prillsebastian tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT caddeoandrea tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT baselliguido tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT jamialahmadioveis tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT dongiovannipaola tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT ramettaraffaela tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT kanebrattkajsap tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT pujiaarturo tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT pingitorepiero tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT mancinarosellinamargherita tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT lindendaniel tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT whatlingcarl tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT janefeldtannika tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT kozyramikael tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT ingelmansundbergmagnus tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT valentiluca tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT anderssontommyb tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids AT romeostefano tm6sf2e167kgeneticvariantinduceslipidbiosynthesisandreducesapolipoproteinbsecretioninhumanhepatic3dspheroids |