Blood-derived macrophages prone to accumulate lysosomal lipids trigger oxLDL-dependent murine hepatic inflammation

Tom Houben; Yvonne Oligschlaeger; Albert V. Bitorina; Tim Hendrikx; Sofie M. A. Walenbergh; Marie-Helene Lenders; Marion J. J. Gijbels; Fons Verheyen; Dieter Luetjohann; Marten H. Hofker; Christoph J. Binder; Ronit Shiri-Sverdlov

doi:10.1038/s41598-017-13058-z

Blood-derived macrophages prone to accumulate lysosomal lipids trigger oxLDL-dependent murine hepatic inflammation

Tom Houben, Yvonne Oligschlaeger, Albert V. Bitorina, Tim Hendrikx, Sofie M. A. Walenbergh, Marie-Helene Lenders, Marion J. J. Gijbels, Fons Verheyen, Dieter Luetjohann, Marten H. Hofker, Christoph J. Binder, Ronit Shiri-Sverdlov^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Despite the consistent rise of non-alcoholic steatohepatitis (NASH) worldwide, the mechanisms that govern the inflammatory aspect of this disease remain unknown. Previous research showed an association between hepatic inflammation and lysosomal lipid accumulation in blood-derived hepatic macrophages. Additionally, in vitro findings indicated that lipids, specifically derived from the oxidized low-density lipoprotein (oxLDL) particle, are resistant to removal from lysosomes. On this basis, we investigated whether lysosomal lipid accumulation in blood-derived hepatic macrophages is causally linked to hepatic inflammation and assessed to what extent increasing anti-oxLDL IgM autoantibodies can affect this mechanism. By creating a proof-of-concept mouse model, we demonstrate a causal role for lysosomal lipids in blood-derived hepatic macrophages in mediating hepatic inflammation and initiation of fibrosis. Furthermore, our findings show that increasing anti-oxLDL IgM autoantibody levels reduces inflammation. Hence, therapies aimed at improving lipid-induced lysosomal dysfunction and blocking oxLDL-formation deserve further investigation in the context of NASH.

Original language	English
Article number	12550
Number of pages	9
Journal	Scientific Reports
Volume	7
DOIs	https://doi.org/10.1038/s41598-017-13058-z
Publication status	Published - 2 Oct 2017

Keywords

LOW-DENSITY-LIPOPROTEIN
FATTY LIVER-DISEASE
OXIDATION-SPECIFIC EPITOPES
NONALCOHOLIC STEATOHEPATITIS
OXIDIZED LDL
CELL-DEATH
CHOLESTEROL CRYSTALS
MICE
ATHEROSCLEROSIS
EXPRESSION

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Cite this

Houben, T., Oligschlaeger, Y., Bitorina, A. V., Hendrikx, T., Walenbergh, S. M. A., Lenders, M.-H., Gijbels, M. J. J., Verheyen, F., Luetjohann, D., Hofker, M. H., Binder, C. J., & Shiri-Sverdlov, R. (2017). Blood-derived macrophages prone to accumulate lysosomal lipids trigger oxLDL-dependent murine hepatic inflammation. Scientific Reports, 7, Article 12550. https://doi.org/10.1038/s41598-017-13058-z

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title = "Blood-derived macrophages prone to accumulate lysosomal lipids trigger oxLDL-dependent murine hepatic inflammation",

abstract = "Despite the consistent rise of non-alcoholic steatohepatitis (NASH) worldwide, the mechanisms that govern the inflammatory aspect of this disease remain unknown. Previous research showed an association between hepatic inflammation and lysosomal lipid accumulation in blood-derived hepatic macrophages. Additionally, in vitro findings indicated that lipids, specifically derived from the oxidized low-density lipoprotein (oxLDL) particle, are resistant to removal from lysosomes. On this basis, we investigated whether lysosomal lipid accumulation in blood-derived hepatic macrophages is causally linked to hepatic inflammation and assessed to what extent increasing anti-oxLDL IgM autoantibodies can affect this mechanism. By creating a proof-of-concept mouse model, we demonstrate a causal role for lysosomal lipids in blood-derived hepatic macrophages in mediating hepatic inflammation and initiation of fibrosis. Furthermore, our findings show that increasing anti-oxLDL IgM autoantibody levels reduces inflammation. Hence, therapies aimed at improving lipid-induced lysosomal dysfunction and blocking oxLDL-formation deserve further investigation in the context of NASH.",

keywords = "LOW-DENSITY-LIPOPROTEIN, FATTY LIVER-DISEASE, OXIDATION-SPECIFIC EPITOPES, NONALCOHOLIC STEATOHEPATITIS, OXIDIZED LDL, CELL-DEATH, CHOLESTEROL CRYSTALS, MICE, ATHEROSCLEROSIS, EXPRESSION",

author = "Tom Houben and Yvonne Oligschlaeger and Bitorina, {Albert V.} and Tim Hendrikx and Walenbergh, {Sofie M. A.} and Marie-Helene Lenders and Gijbels, {Marion J. J.} and Fons Verheyen and Dieter Luetjohann and Hofker, {Marten H.} and Binder, {Christoph J.} and Ronit Shiri-Sverdlov",

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Houben, T, Oligschlaeger, Y, Bitorina, AV, Hendrikx, T, Walenbergh, SMA, Lenders, M-H , Gijbels, MJJ, Verheyen, F, Luetjohann, D, Hofker, MH, Binder, CJ & Shiri-Sverdlov, R 2017, 'Blood-derived macrophages prone to accumulate lysosomal lipids trigger oxLDL-dependent murine hepatic inflammation', Scientific Reports, vol. 7, 12550. https://doi.org/10.1038/s41598-017-13058-z

TY - JOUR

T1 - Blood-derived macrophages prone to accumulate lysosomal lipids trigger oxLDL-dependent murine hepatic inflammation

AU - Houben, Tom

AU - Oligschlaeger, Yvonne

AU - Bitorina, Albert V.

AU - Hendrikx, Tim

AU - Walenbergh, Sofie M. A.

AU - Lenders, Marie-Helene

AU - Gijbels, Marion J. J.

AU - Verheyen, Fons

AU - Luetjohann, Dieter

AU - Hofker, Marten H.

AU - Binder, Christoph J.

AU - Shiri-Sverdlov, Ronit

PY - 2017/10/2

Y1 - 2017/10/2

N2 - Despite the consistent rise of non-alcoholic steatohepatitis (NASH) worldwide, the mechanisms that govern the inflammatory aspect of this disease remain unknown. Previous research showed an association between hepatic inflammation and lysosomal lipid accumulation in blood-derived hepatic macrophages. Additionally, in vitro findings indicated that lipids, specifically derived from the oxidized low-density lipoprotein (oxLDL) particle, are resistant to removal from lysosomes. On this basis, we investigated whether lysosomal lipid accumulation in blood-derived hepatic macrophages is causally linked to hepatic inflammation and assessed to what extent increasing anti-oxLDL IgM autoantibodies can affect this mechanism. By creating a proof-of-concept mouse model, we demonstrate a causal role for lysosomal lipids in blood-derived hepatic macrophages in mediating hepatic inflammation and initiation of fibrosis. Furthermore, our findings show that increasing anti-oxLDL IgM autoantibody levels reduces inflammation. Hence, therapies aimed at improving lipid-induced lysosomal dysfunction and blocking oxLDL-formation deserve further investigation in the context of NASH.

AB - Despite the consistent rise of non-alcoholic steatohepatitis (NASH) worldwide, the mechanisms that govern the inflammatory aspect of this disease remain unknown. Previous research showed an association between hepatic inflammation and lysosomal lipid accumulation in blood-derived hepatic macrophages. Additionally, in vitro findings indicated that lipids, specifically derived from the oxidized low-density lipoprotein (oxLDL) particle, are resistant to removal from lysosomes. On this basis, we investigated whether lysosomal lipid accumulation in blood-derived hepatic macrophages is causally linked to hepatic inflammation and assessed to what extent increasing anti-oxLDL IgM autoantibodies can affect this mechanism. By creating a proof-of-concept mouse model, we demonstrate a causal role for lysosomal lipids in blood-derived hepatic macrophages in mediating hepatic inflammation and initiation of fibrosis. Furthermore, our findings show that increasing anti-oxLDL IgM autoantibody levels reduces inflammation. Hence, therapies aimed at improving lipid-induced lysosomal dysfunction and blocking oxLDL-formation deserve further investigation in the context of NASH.

KW - LOW-DENSITY-LIPOPROTEIN

KW - FATTY LIVER-DISEASE

KW - OXIDATION-SPECIFIC EPITOPES

KW - NONALCOHOLIC STEATOHEPATITIS

KW - OXIDIZED LDL

KW - CELL-DEATH

KW - CHOLESTEROL CRYSTALS

KW - MICE

KW - ATHEROSCLEROSIS

KW - EXPRESSION

U2 - 10.1038/s41598-017-13058-z

DO - 10.1038/s41598-017-13058-z

M3 - Article

C2 - 28970532

SN - 2045-2322

VL - 7

JO - Scientific Reports

JF - Scientific Reports

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ER -