Your search keyword '"Šín M"' showing total 18 results

1. AGPAT2 interaction with CDP-diacylglycerol synthases promotes the flux of fatty acids through the CDP-diacylglycerol pathway

Author

Hoi Yin Mak, Qian Ouyang, Sergey Tumanov, Jiesi Xu, Ping Rong, Feitong Dong, Sin Man Lam, Xiaowei Wang, Ivan Lukmantara, Ximing Du, Mingming Gao, Andrew J. Brown, Xin Gong, Guanghou Shui, Roland Stocker, Xun Huang, Shuai Chen, and Hongyuan Yang

Subjects

Science

Abstract

AGPATs (1-acylglycerol-3-phosphate O-acyltransferases) catalyze the acylation of lysophosphatidic acid to form phosphatidic acid (PA), a key step in the synthesis of all glycerolipids. Here, the authors show that AGPAT2 and CDP-DAG synthases (CDS1 and CDS2) form functional complexes that promote further conversion of PA along the CDP-DAG pathway of phospholipid synthesis.

Published

2021

2. Prokineticin-2 prevents neuronal cell deaths in a model of traumatic brain injury

Author

Zhongyuan Bao, Yinlong Liu, Binglin Chen, Zong Miao, Yiming Tu, Chong Li, Honglu Chao, Yangfan Ye, Xiupeng Xu, Guangchi Sun, Pengzhan Zhao, Ning Liu, Yan Liu, Xiaoming Wang, Sin Man Lam, Valerian E. Kagan, Hülya Bayır, and Jing Ji

Subjects

Science

Abstract

Prokineticin-2 (Prok2) is a secreted protein involved in many physiological processes. Here, the authors show that Prok2 prevents neuronal cell ferroptosis after traumatic brain injury and its administration before cortical injury reduces neuronal degeneration, and motor and cognitive impairments.

Published

2021

3. Cryo-EM structure of trimeric Mycobacterium smegmatis succinate dehydrogenase with a membrane-anchor SdhF

Author

Hongri Gong, Yan Gao, Xiaoting Zhou, Yu Xiao, Weiwei Wang, Yanting Tang, Shan Zhou, Yuying Zhang, Wenxin Ji, Lu Yu, Changlin Tian, Sin Man Lam, Guanghou Shui, Luke W. Guddat, Luet-Lok Wong, Quan Wang, and Zihe Rao

Subjects

Science

Abstract

Diheme-containing succinate:menaquinone oxidoreductases (Sdh) are members of the complex II superfamily. Here, the authors present the 2.8 Å cryo-EM structure of Mycobacterium smegmatis Sdh2, which reveals membrane-anchored SdhF as a component of the complex and they discuss the electron/proton transfer pathway in the Sdh2 trimer.

Published

2020

4. Convergent genomic signatures of flight loss in birds suggest a switch of main fuel

Author

Shengkai Pan, Yi Lin, Qiong Liu, Jinzhi Duan, Zhenzhen Lin, Yusong Wang, Xueli Wang, Sin Man Lam, Zhen Zou, Guanghou Shui, Yu Zhang, Zhengwang Zhang, and Xiangjiang Zhan

Subjects

Science

Abstract

Flight loss has occurred numerous times in bird evolution. Here, the authors examine convergent sites in the exonic and intronic sequences of 48 bird genomes, finding amino-acid changes in two genes, ATGL and ACOT7, with potential implications for a change in metabolism rather than anatomy.

Published

2019

5. Tip60-mediated lipin 1 acetylation and ER translocation determine triacylglycerol synthesis rate

Author

Terytty Yang Li, Lintao Song, Yu Sun, Jingyi Li, Cong Yi, Sin Man Lam, Dijin Xu, Linkang Zhou, Xiaotong Li, Ying Yang, Chen-Song Zhang, Changchuan Xie, Xi Huang, Guanghou Shui, Shu-Yong Lin, Karen Reue, and Sheng-Cai Lin

Subjects

Science

Abstract

The acetyltransferase Tip60 mediates signaling pathways by acetylating non-histone proteins. Here the authors show that fatty acids induce Tip60–dependent acetylation of phosphatidic acid phosphatase lipin1 which, then, translocates to the ER and generates diacylglycerols for triglyceride synthesis.

Published

2018

6. Author Correction: Cryo-EM structure of trimeric Mycobacterium smegmatis succinate dehydrogenase with a membrane-anchor SdhF

Author

Hongri Gong, Yan Gao, Xiaoting Zhou, Yu Xiao, Weiwei Wang, Yanting Tang, Shan Zhou, Yuying Zhang, Wenxin Ji, Lu Yu, Changlin Tian, Sin Man Lam, Guanghou Shui, Luke W. Guddat, Luet-Lok Wong, Quan Wang, and Zihe Rao

Subjects

Science

Abstract

A Correction to this paper has been published: https://doi.org/10.1038/s41467-021-21616-3

Published

2021

7. Comparative plasma lipidome between human and cynomolgus monkey: are plasma polar lipids good biomarkers for diabetic monkeys?

Author

Guanghou Shui, Jeffrey William Stebbins, Buu Duyen Lam, Wei Fun Cheong, Sin Man Lam, Francine Gregoire, Jun Kusonoki, and Markus R Wenk

Subjects

Medicine, Science

Abstract

BACKGROUND: Non-human primates (NHP) are now being considered as models for investigating human metabolic diseases including diabetes. Analyses of cholesterol and triglycerides in plasma derived from NHPs can easily be achieved using methods employed in humans. Information pertaining to other lipid species in monkey plasma, however, is lacking and requires comprehensive experimental analysis. METHODOLOGIES/PRINCIPAL FINDINGS: We examined the plasma lipidome from 16 cynomolgus monkey, Macaca fascicularis, using liquid chromatography coupled with mass spectrometry (LC/MS). We established novel analytical approaches, which are based on a simple gradient elution, to quantify polar lipids in plasma including (i) glycerophospholipids (phosphatidylcholine, PC; phosphatidylethanolamine, PE; phosphatidylinositol, PI; phosphatidylglycerol, PG; phosphatidylserine, PS; phosphatidic acid, PA); (ii) sphingolipids (sphingomyelin, SM; ceramide, Cer; Glucocyl-ceramide, GluCer; ganglioside mannoside 3, GM3). Lipidomic analysis had revealed that the plasma of human and cynomolgus monkey were of similar compositions, with PC, SM, PE, LPC and PI constituting the major polar lipid species present. Human plasma contained significantly higher levels of plasmalogen PE species (p

Published

2011

8. Concordant inter-laboratory derived concentrations of ceramides in human plasma reference materials via authentic standards

Author

Federico Torta, Nils Hoffmann, Bo Burla, Irina Alecu, Makoto Arita, Takeshi Bamba, Steffany A. L. Bennett, Justine Bertrand-Michel, Britta Brügger, Mónica P. Cala, Dolores Camacho-Muñoz, Antonio Checa, Michael Chen, Michaela Chocholoušková, Michelle Cinel, Emeline Chu-Van, Benoit Colsch, Cristina Coman, Lisa Connell, Bebiana C. Sousa, Alex M. Dickens, Maria Fedorova, Finnur Freyr Eiríksson, Hector Gallart-Ayala, Mohan Ghorasaini, Martin Giera, Xue Li Guan, Mark Haid, Thomas Hankemeier, Amy Harms, Marcus Höring, Michal Holčapek, Thorsten Hornemann, Chunxiu Hu, Andreas J. Hülsmeier, Kevin Huynh, Christina M. Jones, Julijana Ivanisevic, Yoshihiro Izumi, Harald C. Köfeler, Sin Man Lam, Mike Lange, Jong Cheol Lee, Gerhard Liebisch, Katrice Lippa, Andrea F. Lopez-Clavijo, Malena Manzi, Manuela R. Martinefski, Raviswamy G. H. Math, Satyajit Mayor, Peter J. Meikle, María Eugenia Monge, Myeong Hee Moon, Sneha Muralidharan, Anna Nicolaou, Thao Nguyen-Tran, Valerie B. O’Donnell, Matej Orešič, Arvind Ramanathan, Fabien Riols, Daisuke Saigusa, Tracey B. Schock, Heidi Schwartz-Zimmermann, Guanghou Shui, Madhulika Singh, Masatomo Takahashi, Margrét Thorsteinsdóttir, Noriyuki Tomiyasu, Anthony Tournadre, Hiroshi Tsugawa, Victoria J. Tyrrell, Grace van der Gugten, Michael O. Wakelam, Craig E. Wheelock, Denise Wolrab, Guowang Xu, Tianrun Xu, John A. Bowden, Kim Ekroos, Robert Ahrends, and Markus R. Wenk

Subjects

Science

Abstract

Abstract In this community effort, we compare measurements between 34 laboratories from 19 countries, utilizing mixtures of labelled authentic synthetic standards, to quantify by mass spectrometry four clinically used ceramide species in the NIST (National Institute of Standards and Technology) human blood plasma Standard Reference Material (SRM) 1950, as well as a set of candidate plasma reference materials (RM 8231). Participants either utilized a provided validated method and/or their method of choice. Mean concentration values, and intra- and inter-laboratory coefficients of variation (CV) were calculated using single-point and multi-point calibrations, respectively. These results are the most precise (intra-laboratory CVs ≤ 4.2%) and concordant (inter-laboratory CVs < 14%) community-derived absolute concentration values reported to date for four clinically used ceramides in the commonly analyzed SRM 1950. We demonstrate that calibration using authentic labelled standards dramatically reduces data variability. Furthermore, we show how the use of shared RM can correct systematic quantitative biases and help in harmonizing lipidomics. Collectively, the results from the present study provide a significant knowledge base for translation of lipidomic technologies to future clinical applications that might require the determination of reference intervals (RIs) in various human populations or might need to estimate reference change values (RCV), when analytical variability is a key factor for recall during multiple testing of individuals.

Published

2024

9. Lipid droplets sequester palmitic acid to disrupt endothelial ciliation and exacerbate atherosclerosis in male mice

Author

Yanjie Tan, Zhenzhou Huang, Yi Jin, Jiaying Wang, Hongjun Fan, Yangyang Liu, Liang Zhang, Yue Wu, Peiwei Liu, Tianliang Li, Jie Ran, He Tian, Sin Man Lam, Min Liu, Jun Zhou, and Yunfan Yang

Subjects

Science

Abstract

Abstract Disruption of ciliary homeostasis in vascular endothelial cells has been implicated in the development of atherosclerosis. However, the molecular basis for the regulation of endothelial cilia during atherosclerosis remains poorly understood. Herein, we provide evidence in male mice that the accumulation of lipid droplets in vascular endothelial cells induces ciliary loss and contributes to atherosclerosis. Triglyceride accumulation in vascular endothelial cells differentially affects the abundance of free fatty acid species in the cytosol, leading to stimulated lipid droplet formation and suppressed protein S-palmitoylation. Reduced S-palmitoylation of ciliary proteins, including ADP ribosylation factor like GTPase 13B, results in the loss of cilia. Restoring palmitic acid availability, either through pharmacological inhibition of stearoyl-CoA desaturase 1 or a palmitic acid-enriched diet, significantly restores endothelial cilia and mitigates the progression of atherosclerosis. These findings thus uncover a previously unrecognized role of lipid droplets in regulating ciliary homeostasis and provide a feasible intervention strategy for preventing and treating atherosclerosis.

Published

2024

10. TMEM16F Expressed in Kupffer Cells Regulates Liver Inflammation and Metabolism to Protect Against Listeria Monocytogenes

Author

Jianlong Tang, Hua Song, Shimin Li, Sin Man Lam, Jieming Ping, Mengyun Yang, Na Li, Teding Chang, Ze Yu, Weixiang Liu, Yan Lu, Min Zhu, Zhaohui Tang, Zheng Liu, Yusong R. Guo, Guanghou Shui, André Veillette, Zhutian Zeng, and Ning Wu

Subjects

inflammation, kupffer cell, lipid scrambling, listeria monocytogenes, macrophage, plasma membrane integrity, Science

Abstract

Abstract Infection by bacteria leads to tissue damage and inflammation, which need to be tightly controlled by host mechanisms to avoid deleterious consequences. It is previously reported that TMEM16F, a calcium‐activated lipid scramblase expressed in various immune cell types including T cells and neutrophils, is critical for the control of infection by bacterium Listeria monocytogenes (Lm) in vivo. This function correlated with the capacity of TMEM16F to repair the plasma membrane (PM) damage induced in T cells in vitro, by the Lm toxin listeriolysin O (LLO). However, whether the protective effect of TMEM16F on Lm infection in vivo is mediated by an impact in T cells, or in other cell types, is not determined. Herein, the immune cell types and mechanisms implicated in the protective effect of TMEM16F against Lm in vivo are elucidated. Cellular protective effects of TMEM16F correlated with its capacity of lipid scrambling and augment PM fluidity. Using cell type‐specific TMEM16F‐deficient mice, the indication is obtained that TMEM16F expressed in liver Kupffer cells (KCs), but not in T cells or B cells, is key for protection against Listeria in vivo. In the absence of TMEM16F, Listeria induced PM rupture and fragmentation of KCs in vivo. KC death associated with greater liver damage, inflammatory changes, and dysregulated liver metabolism. Overall, the results uncovered that TMEM16F expressed in Kupffer cells is crucial to protect the host against Listeria infection. This influence is associated with the capacity of Kupffer cell‐expressed TMEM16F to prevent excessive inflammation and abnormal liver metabolism.

Published

2024

11. Prevalence and factors associated with diabetes-related distress in type 2 diabetes patients: a study in Hong Kong primary care setting

Author

Man Ho Wong, Sin Man Kwan, Man Chi Dao, Sau Nga Fu, and Wan Luk

Subjects

Type 2 diabetes, Diabetes-related distress, Emotional burden, Chinese version of the diabetes distress scale (CDDS-15), Diabetes care, Medicine, Science

Abstract

Abstract Diabetes-related distress (DRD) refers to the psychological distress specific to living with diabetes. DRD can lead to negative clinical consequences such as poor self-management. By knowing the local prevalence and severity of DRD, primary care teams can improve the DRD evaluation in our daily practice. This was a cross-sectional study conducted in 3 General Out-patient Clinics (GOPCs) from 1 December 2021 to 31 May 2022. A random sample of adult Chinese subjects with T2DM, who regularly followed up in the selected clinic in the past 12 months, were included. DRD was measured by the validated 15-item Chinese version of the Diabetes Distress Scale (CDDS-15). An overall mean score ≥ 2.0 was considered clinically significant. The association of DRD with selected clinical and personal factors was investigated. The study recruited 362 subjects (mean age 64.2 years old, S.D. 9.5) with a variable duration of living with T2DM (median duration 7.0 years, IQR 10.0). The response rate was 90.6%. The median HbA1c was 6.9% (IQR 0.9). More than half (59.4%) of the subjects reported a clinically significant DRD. Younger subjects were more likely to have DRD (odds ratio of 0.965, 95% CI 0.937–0.994, p = 0.017). Patients with T2DM in GOPCs commonly experience clinically significant DRD, particularly in the younger age group. The primary care clinicians could consider integrating the evaluation of DRD as a part of comprehensive diabetes care.

Published

2024

12. Skeletal muscle-secreted DLPC orchestrates systemic energy homeostasis by enhancing adipose browning

Author

Xiaodi Hu, Mingwei Sun, Qian Chen, Yixia Zhao, Na Liang, Siyuan Wang, Pengbin Yin, Yuanping Yang, Sin Man Lam, Qianying Zhang, Alimujiang Tudiyusufu, Yingying Gu, Xin Wan, Meihong Chen, Hu Li, Xiaofei Zhang, Guanghou Shui, Suneng Fu, Licheng Zhang, Peifu Tang, Catherine C. L. Wong, Yong Zhang, and Dahai Zhu

Subjects

Science

Abstract

Abstract MyoD is a skeletal muscle-specifically expressed transcription factor and plays a critical role in regulating myogenesis during muscle development and regeneration. However, whether myofibers-expressed MyoD exerts its metabolic function in regulating whole body energy homeostasis in vivo remains largely unknown. Here, we report that genetic deletion of Myod in male mice enhances the oxidative metabolism of muscle and, intriguingly, renders the male mice resistant to high fat diet-induced obesity. By performing lipidomic analysis in muscle-conditioned medium and serum, we identify 1,2-dilinoleoyl-sn-glycero-3-phosphocholine (DLPC) as a muscle-released lipid that is responsible for MyoD-orchestrated body energy homeostasis in male Myod KO mice. Functionally, the administration of DLPC significantly ameliorates HFD-induced obesity in male mice. Mechanistically, DLPC is found to induce white adipose browning via lipid peroxidation-mediated p38 signaling in male mice. Collectively, our findings not only uncover a novel function of MyoD in controlling systemic energy homeostasis through the muscle-derived lipokine DLPC but also suggest that the DLPC might have clinical potential for treating obesity in humans.

Published

2023

13. Multi-omics profiling reveals rhythmic liver function shaped by meal timing

Author

Rongfeng Huang, Jianghui Chen, Meiyu Zhou, Haoran Xin, Sin Man Lam, Xiaoqing Jiang, Jie Li, Fang Deng, Guanghou Shui, Zhihui Zhang, and Min-Dian Li

Subjects

Science

Abstract

Abstract Post-translational modifications (PTMs) couple feed-fast cycles to diurnal rhythms. However, it remains largely uncharacterized whether and how meal timing organizes diurnal rhythms beyond the transcriptome. Here, we systematically profile the daily rhythms of the proteome, four PTMs (phosphorylation, ubiquitylation, succinylation and N-glycosylation) and the lipidome in the liver from young female mice subjected to either day/sleep time-restricted feeding (DRF) or night/wake time-restricted feeding (NRF). We detect robust daily rhythms among different layers of omics with phosphorylation the most nutrient-responsive and succinylation the least. Integrative analyses reveal that clock regulation of fatty acid metabolism represents a key diurnal feature that is reset by meal timing, as indicated by the rhythmic phosphorylation of the circadian repressor PERIOD2 at Ser971 (PER2-pSer971). We confirm that PER2-pSer971 is activated by nutrient availability in vivo. Together, this dataset represents a comprehensive resource detailing the proteomic and lipidomic responses by the liver to alterations in meal timing.

Published

2023

14. The ER calcium channel Csg2 integrates sphingolipid metabolism with autophagy

Author

Shiyan Liu, Mutian Chen, Yichang Wang, Yuqing Lei, Ting Huang, Yabin Zhang, Sin Man Lam, Huihui Li, Shiqian Qi, Jia Geng, and Kefeng Lu

Subjects

Science

Abstract

Abstract Sphingolipids are ubiquitous components of membranes and function as bioactive lipid signaling molecules. Here, through genetic screening and lipidomics analyses, we find that the endoplasmic reticulum (ER) calcium channel Csg2 integrates sphingolipid metabolism with autophagy by regulating ER calcium homeostasis in the yeast Saccharomyces cerevisiae. Csg2 functions as a calcium release channel and maintains calcium homeostasis in the ER, which enables normal functioning of the essential sphingolipid synthase Aur1. Under starvation conditions, deletion of Csg2 causes increases in calcium levels in the ER and then disturbs Aur1 stability, leading to accumulation of the bioactive sphingolipid phytosphingosine, which specifically and completely blocks autophagy and induces loss of starvation resistance in cells. Our findings indicate that calcium homeostasis in the ER mediated by the channel Csg2 translates sphingolipid metabolism into autophagy regulation, further supporting the role of the ER as a signaling hub for calcium homeostasis, sphingolipid metabolism and autophagy.

Published

2023

15. Maternal High Fat Diet in Lactation Impacts Hypothalamic Neurogenesis and Neurotrophic Development, Leading to Later Life Susceptibility to Obesity in Male but Not Female Mice

Author

Yanchao Xu, Dengbao Yang, Lu Wang, Elżbieta Król, Mohsen Mazidi, Li Li, Yi Huang, Chaoqun Niu, Xue Liu, Sin Man Lam, Guanghou Shui, Alex Douglas, and John R. Speakman

Subjects

hypothalamic reprogramming, lactation, maternal high‐fat diet, neurogenesis, sex‐differential offspring obesity, Science

Abstract

Abstract Early life nutrition can reprogram development and exert long‐term consequences on body weight regulation. In mice, maternal high‐fat diet (HFD) during lactation predisposed male but not female offspring to diet‐induced obesity when adult. Molecular and cellular changes in the hypothalamus at important time points are examined in the early postnatal life in relation to maternal diet and demonstrated sex‐differential hypothalamic reprogramming. Maternal HFD in lactation decreased the neurotropic development of neurons formed at the embryo stage (e12.5) and impaired early postnatal neurogenesis in the hypothalamic regions of both males and females. Males show a larger increased ratio of Neuropeptide Y (NPY) to Pro‐opiomelanocortin (POMC) neurons in early postnatal neurogenesis, in response to maternal HFD, setting an obese tone for male offspring. These data provide insights into the mechanisms by which hypothalamic reprograming by early life overnutrition contributes to the sex‐dependent susceptibility to obesity in adult life in mice.

Published

2023

16. Erratum to 'Lipidome Atlas of the Developing Heart Uncovers Dynamic Membrane Lipid Attributes Underlying Cardiac Structural and Metabolic Maturation'

Author

Huan Miao, Bowen Li, Zehua Wang, Jinming Mu, Yanlin Tian, Binhua Jiang, Shaohua Zhang, Xia Gong, Guanghou Shui, and Sin Man Lam

Subjects

Science

Published

2023

17. Lipidome Atlas of the Developing Heart Uncovers Dynamic Membrane Lipid Attributes Underlying Cardiac Structural and Metabolic Maturation

Author

Huan Miao, Bowen Li, Zehua Wang, Jinming Mu, Yanlin Tian, Binhua Jiang, Shaohua Zhang, Xia Gong, Guanghou Shui, and Sin Man Lam

Subjects

Science

Abstract

Precise metabolic rewiring during heart organogenesis underlies normal cardiac development. Herein, we utilized high-coverage, quantitative lipidomic approaches to construct lipidomic atlases of whole hearts (861 lipids; 31 classes) and mitochondria (587 lipids; 27 classes) across prenatal and postnatal developmental stages in mice. We uncovered the progressive formation of docosahexaenoyl-phospholipids and enhanced remodeling of C18:2, C20:3, and C20:4 fatty acyl moieties into cardiolipins as cardiac development progresses. A preferential flow of ceramides toward sphingomyelin biosynthesis over complex glycosphingolipid formation was also noted. Using maSigPro and GPclust algorithms, we identified a repertoire of 448 developmentally dynamic lipids and mapped their expression patterns to a library of 550 biologically relevant developmentally dynamic genes. Our combinatorial transcriptomics and lipidomics approaches identified Hadha, Lclat1, and Lpcat3 as candidate molecular drivers governing the dynamic remodeling of cardiolipins and phospholipids, respectively, in heart development. Our analyses revealed that postnatal cardiolipin remodeling in the heart constitutes a biphasic process, which first accumulates polyunsaturated C78-cardiolipins prior to tetralinoleoyl cardiolipin forming the predominant species. Multiomics analyses supplemented with transmission electron microscopy imaging uncovered enhanced mitochondria–lipid droplet contacts mediated by perilipin-5. Our combinatorial analyses of multiomics data uncovered an association between mitochondrial-resident, docosahexaenoic acid-phospholipids and messenger RNA levels of proton-transporting adenosine triphosphate synthases on inner mitochondrial membranes, which adds credence to the membrane pacemaker theory of metabolism. The current findings offer lipid-centric biological insights potentially important to understanding the molecular basis of cardiac metabolic flexibility and disease pathology.

Published

2022

18. Meibum lipid composition in Asians with dry eye disease.

Author

Sin Man Lam, Louis Tong, Siew Sian Yong, Bowen Li, Shyam S Chaurasia, Guanghou Shui, and Markus R Wenk

Subjects

Medicine, Science

Abstract

Previous lipidomic analyses of the human meibum had largely focused on individuals from non-Asian populations, despite the higher prevalence of dysfunctional tear syndrome (DTS) observed across Asia. Information pertaining to the alterations in lipid profiles in relation to DTS onset and progression is also lacking and warrants comprehensive experimental analysis.We examined the meibum lipidome of 27 DTS patients and 10 control subjects for a total of 256 lipid species from 12 major lipid classes, including cholesteryl ester (CE), wax ester (WE), triacylglyceride (TAG), (O-acyl)-ω-hydroxy fatty acid (OAHFA), glycerophospholipids (phosphatidylcholine, PC; phosphatidylethanolamine, PE; phosphatidylinositol, PI; phosphatidylglycerol, PG) and sphingolipids (sphingomyelin, SM; ceramide, Cer; glucosylceramide, GluCer; dihexosylceramide, DihexCer). Neutral lipids were analysed using high-performance liquid-chromatography coupled with mass spectrometry (HPLC/MS) and tandem mass spectrometry (MS/MS) was used for the qualitative and quantitative analysis of polar lipid species. DTS patients were classified into three severity groups (i.e. mild, moderate and severe) based on the ocular surface disease index (OSDI). A significantly lower level of TAG (p

Published

2011