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CLUH functions as a negative regulator of inflammation in human macrophages and determines ulcerative colitis pathogenesis
Shaziya Khan, Desh Raj, Shikha Sahu, Anam Naseer, Nishakumari C. Singh, Sunaina Kumari, Sharmeen Ishteyaque, Jyotsna Sharma, Promila Lakra, Madhav N. Mugale, Arun Kumar Trivedi, Mrigank Srivastava, Tulika Chandra, Vivek Bhosale, Manoj Kumar Barthwal, Shashi Kumar Gupta, Kalyan Mitra, Aamir Nazir, Uday C. Ghoshal, Amit Lahiri
Shaziya Khan, Desh Raj, Shikha Sahu, Anam Naseer, Nishakumari C. Singh, Sunaina Kumari, Sharmeen Ishteyaque, Jyotsna Sharma, Promila Lakra, Madhav N. Mugale, Arun Kumar Trivedi, Mrigank Srivastava, Tulika Chandra, Vivek Bhosale, Manoj Kumar Barthwal, Shashi Kumar Gupta, Kalyan Mitra, Aamir Nazir, Uday C. Ghoshal, Amit Lahiri
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Research Article Gastroenterology

CLUH functions as a negative regulator of inflammation in human macrophages and determines ulcerative colitis pathogenesis

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Abstract

Altered mitochondrial function without a well-defined cause has been documented in patients with ulcerative colitis (UC). In our efforts to understand UC pathogenesis, we observed reduced expression of clustered mitochondrial homolog (CLUH) only in the active UC tissues compared with the unaffected areas from the same patient and healthy controls. Stimulation with bacterial Toll-like receptor (TLR) ligands similarly reduced CLUH expression in human primary macrophages. Further, CLUH negatively regulated secretion of proinflammatory cytokines IL-6 and TNF-α and rendered a proinflammatory niche in TLR ligand–stimulated macrophages. CLUH was further found to bind to mitochondrial fission protein dynamin related protein 1 (DRP1) and regulated DRP1 transcription in human macrophages. In the TLR ligand–stimulated macrophages, absence of CLUH led to enhanced DRP1 availability for mitochondrial fission, and a smaller dysfunctional mitochondrial pool was observed. Mechanistically, this fissioned mitochondrial pool in turn enhanced mitochondrial ROS production and reduced mitophagy and lysosomal function in CLUH-knockout macrophages. Remarkably, our studies in the mouse model of colitis with CLUH knockdown displayed exacerbated disease pathology. Taken together, this is the first report to our knowledge explaining the role of CLUH in UC pathogenesis, by means of regulating inflammation via maintaining mitochondrial-lysosomal functions in the human macrophages and intestinal mucosa.

Authors

Shaziya Khan, Desh Raj, Shikha Sahu, Anam Naseer, Nishakumari C. Singh, Sunaina Kumari, Sharmeen Ishteyaque, Jyotsna Sharma, Promila Lakra, Madhav N. Mugale, Arun Kumar Trivedi, Mrigank Srivastava, Tulika Chandra, Vivek Bhosale, Manoj Kumar Barthwal, Shashi Kumar Gupta, Kalyan Mitra, Aamir Nazir, Uday C. Ghoshal, Amit Lahiri

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Figure 3

LPS treatment leads to CLUH-mediated early mitochondrial fission, mitoROS production, mtDNA release, and mitochondrial dysfunction.

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LPS treatment leads to CLUH-mediated early mitochondrial fission, mitoRO...
Human MDMs were transfected with scrambled or CLUH siRNA for 24 hours and treated with 100 ng/mL LPS for 6 hours and assessed for (A) mitochondrion-associated protein expression such as COX IV, DLST, TOM20, VDAC, and SDHA using GAPDH or β-Actin as a loading control (n = 1; with similar result observed in an additional n = 3 donors). Full-length CLUH plasmid (pEGFP-N1 vector) was also ectopically expressed in the CLUH-knockdown cells to rescue CLUH-knockdown condition. These cells were next treated with 100 ng/mL LPS for 6 hours and (B) stained with MTCO2 (red) as mitochondrial marker and DAPI (blue) to stain nucleus. Representative images of confocal microscopy and zoomed images are shown. Total original magnification, 63×. (C) Summarized number of elongated, tubular, and fragmented mitochondria from 1 experiment is shown. A total of 50–100 cells were acquired in 3 independent experiments. (C) l-Lactate activity and (D) mitochondrial citrate released into cytosol were estimated (pooled data from n = 6 and n = 8 samples, respectively, are shown). (E) Mitochondrial ROS (mitoROS) production (n = 12 donors); similar results were seen in an additional n = 9. (F) Mitochondrial DNA (mtDNA) release in the cytosol (n = 5; with similar results of an additional n = 3 donors). (G) mRNA expression of mitochondrial fission protein Drp1 after normalization with GAPDH (n = 3; with similar result for an additional n = 6 donors). Mean ± SEM; *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001 as determined by 2-tailed t test for E and F and 1-way ANOVA for the rest of the figures. “EV” denotes empty vector.

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