Dysregulation of mannose-6-phosphate–dependent cholesterol homeostasis in acinar cells mediates pancreatitis
Olga A. Mareninova, … , Ilya Gukovsky, Anna S. Gukovskaya
Olga A. Mareninova, … , Ilya Gukovsky, Anna S. Gukovskaya
Published June 15, 2021
Citation Information: J Clin Invest. 2021;131(15):e146870. https://doi.org/10.1172/JCI146870.
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Dysregulation of mannose-6-phosphate–dependent cholesterol homeostasis in acinar cells mediates pancreatitis

Abstract

Disordered lysosomal/autophagy pathways initiate and drive pancreatitis, but the underlying mechanisms and links to disease pathology are poorly understood. Here, we show that the mannose-6-phosphate (M6P) pathway of hydrolase delivery to lysosomes critically regulates pancreatic acinar cell cholesterol metabolism. Ablation of the Gnptab gene encoding a key enzyme in the M6P pathway disrupted acinar cell cholesterol turnover, causing accumulation of nonesterified cholesterol in lysosomes/autolysosomes, its depletion in the plasma membrane, and upregulation of cholesterol synthesis and uptake. We found similar dysregulation of acinar cell cholesterol, and a decrease in GNPTAB levels, in both WT experimental pancreatitis and human disease. The mechanisms mediating pancreatic cholesterol dyshomeostasis in Gnptab–/– and experimental models involve a disordered endolysosomal system, resulting in impaired cholesterol transport through lysosomes and blockage of autophagic flux. By contrast, in Gnptab–/– liver the endolysosomal system and cholesterol homeostasis were largely unaffected. Gnptab–/– mice developed spontaneous pancreatitis. Normalization of cholesterol metabolism by pharmacologic means alleviated responses of experimental pancreatitis, particularly trypsinogen activation, the disease hallmark. The results reveal the essential role of the M6P pathway in maintaining exocrine pancreas homeostasis and function, and implicate cholesterol disordering in the pathogenesis of pancreatitis.

Authors

Olga A. Mareninova, Eszter T. Vegh, Natalia Shalbueva, Carli J.M. Wightman, Dustin L. Dillon, Sudarshan Malla, Yan Xie, Toshimasa Takahashi, Zoltan Rakonczay Jr., Samuel W. French, Herbert Y. Gaisano, Fred S. Gorelick, Stephen J. Pandol, Steven J. Bensinger, Nicholas O. Davidson, David W. Dawson, Ilya Gukovsky, Anna S. Gukovskaya

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Figure 1

Gnptab ablation perturbs the endolysosomal system in the exocrine pancreas.

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Gnptab ablation perturbs the endolysosomal system in the exocrine pancr...
Characteristics of the endolysosomal system were measured in WT and Gnptab–/– (KO) pancreatic (A, B, D, and E) tissue, (C) acinar cells, and (FN) subcellular fractions. (A and DF) IB analysis of organellar markers/mediators. In this and other figures, ERK1/2 or GAPDH is the loading control; each lane on tissue IB represents an individual mouse; black line (as in F) indicates lanes are on the same gel but not contiguous. Ub, ubiquitylated proteins. (B) Immunofluorescence analysis of indicated proteins. In this and other figures, nuclei are stained with DAPI (or NucRed); DIC denotes differential interference contrast microscopy, displaying zymogen granule area in acinar cells. Scale bars: 10 μm. (C) Acidic organelles stained using LysoTracker. (D and E) IB showing CatB and CatL pro-form, single-chain (sc), and mature/double-chain (dc) forms. (FN) Protein levels of indicated markers/mediators (IB) and cathepsin activities (enzymatic assays) were measured in 3 subcellular pancreas fractions (see Methods): Z, enriched in zymogen granules; L, enriched in LE/Ly (in WT); and C, cytosol containing. The sum of band intensities for indicated proteins or cathepsin activities in all 3 fractions was taken as 100%. In F, # indicates that protein load of KO samples was 5 times less than WT. Values are mean ± SEM; each symbol represents an individual mouse (n = 3–6 mice per condition). *P < 0.05, **P < 0.01, ***P < 0.001 vs. WT tissue (D and E) or corresponding WT fraction (GN). #P < 0.01 (G and H) or P < 0.001 (J and K) vs. the other two fractions. Significance was determined by 2-tailed Student’s t test (D and E) or 1-way ANOVA followed by Tukey’s multiple comparison test (GN).