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1. GeoFUSE: A High-Efficiency Surrogate Model for Seawater Intrusion Prediction and Uncertainty Reduction

Author

Jiang, Su, Liu, Chuyang, and Dwivedi, Dipankar

Subjects
Computer Science - Machine Learning
Abstract

Seawater intrusion into coastal aquifers poses a significant threat to groundwater resources, especially with rising sea levels due to climate change. Accurate modeling and uncertainty quantification of this process are crucial but are often hindered by the high computational costs of traditional numerical simulations. In this work, we develop GeoFUSE, a novel deep-learning-based surrogate framework that integrates the U-Net Fourier Neural Operator (U-FNO) with Principal Component Analysis (PCA) and Ensemble Smoother with Multiple Data Assimilation (ESMDA). GeoFUSE enables fast and efficient simulation of seawater intrusion while significantly reducing uncertainty in model predictions. We apply GeoFUSE to a 2D cross-section of the Beaver Creek tidal stream-floodplain system in Washington State. Using 1,500 geological realizations, we train the U-FNO surrogate model to approximate salinity distribution and accumulation. The U-FNO model successfully reduces the computational time from hours (using PFLOTRAN simulations) to seconds, achieving a speedup of approximately 360,000 times while maintaining high accuracy. By integrating measurement data from monitoring wells, the framework significantly reduces geological uncertainty and improves the predictive accuracy of the salinity distribution over a 20-year period. Our results demonstrate that GeoFUSE improves computational efficiency and provides a robust tool for real-time uncertainty quantification and decision making in groundwater management. Future work will extend GeoFUSE to 3D models and incorporate additional factors such as sea-level rise and extreme weather events, making it applicable to a broader range of coastal and subsurface flow systems.

Published
2024

2. Assessment of visual function in blind mice and monkeys with subretinally implanted nanowire arrays as artificial photoreceptors

Author

Yang, Ruyi, Zhao, Peng, Wang, Liyang, Feng, Chenli, Peng, Chen, Wang, Zhexuan, Zhang, Yingying, Shen, Minqian, Shi, Kaiwen, Weng, Shijun, Dong, Chunqiong, Zeng, Fu, Zhang, Tianyun, Chen, Xingdong, Wang, Shuiyuan, Wang, Yiheng, Luo, Yuanyuan, Chen, Qingyuan, Chen, Yuqing, Jiang, Chengyong, Jia, Shanshan, Yu, Zhaofei, Liu, Jian, Wang, Fei, Jiang, Su, Xu, Wendong, Li, Liang, Wang, Gang, Mo, Xiaofen, Zheng, Gengfeng, Chen, Aihua, Zhou, Xingtao, Jiang, Chunhui, Yuan, Yuanzhi, Yan, Biao, and Zhang, Jiayi

Published
2024
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3. On Uniqueness of Steady 1-D Shock Solutions in a Finite Nozzle via Asymptotic Analysis for Physical Parameters

Author

Fang, Beixiang, Jiang, Su, and Sun, Piye

Subjects
Mathematics - Analysis of PDEs
Abstract

In this paper, we study the uniqueness of the steady 1-D shock solutions for the inviscid compressible Euler system in a finite nozzle via asymptotic analysis for physical parameters. The parameters for the heat conductivity and the temperature-depending viscosity are investigated for both barotropic gases and polytropic gases. It finally turns out that the hypotheses on the physical effects have significant influences on the asymptotic behaviors as the parameters vanish. In particular, the positions of the shock front for the limit shock solution( if exists ) are different for different hypotheses. Hence, it seems impossible to figure out a criterion selecting the unique shock solution within the framework of the inviscid Euler flows., Comment: 48 pages, 2 figures

Published
2023

4. History Matching for Geological Carbon Storage using Data-Space Inversion with Spatio-Temporal Data Parameterization

Author

Jiang, Su and Durlofsky, Louis J.

Subjects
Computer Science - Machine Learning
Abstract

History matching based on monitoring data will enable uncertainty reduction, and thus improved aquifer management, in industrial-scale carbon storage operations. In traditional model-based data assimilation, geomodel parameters are modified to force agreement between flow simulation results and observations. In data-space inversion (DSI), history-matched quantities of interest, e.g., posterior pressure and saturation fields conditioned to observations, are inferred directly, without constructing posterior geomodels. This is accomplished efficiently using a set of O(1000) prior simulation results, data parameterization, and posterior sampling within a Bayesian setting. In this study, we develop and implement (in DSI) a deep-learning-based parameterization to represent spatio-temporal pressure and CO2 saturation fields at a set of time steps. The new parameterization uses an adversarial autoencoder (AAE) for dimension reduction and a convolutional long short-term memory (convLSTM) network to represent the spatial distribution and temporal evolution of the pressure and saturation fields. This parameterization is used with an ensemble smoother with multiple data assimilation (ESMDA) in the DSI framework to enable posterior predictions. A realistic 3D system characterized by prior geological realizations drawn from a range of geological scenarios is considered. A local grid refinement procedure is introduced to estimate the error covariance term that appears in the history matching formulation. Extensive history matching results are presented for various quantities, for multiple synthetic true models. Substantial uncertainty reduction in posterior pressure and saturation fields is achieved in all cases. The framework is applied to efficiently provide posterior predictions for a range of error covariance specifications. Such an assessment would be expensive using a model-based approach.

Published
2023

5. Therapeutic effect of evodiamine on atopic dermatitis in rat models

Author

JIANG Su, LYU Xinxiang, CUI Yanhong, LYU Liting, LI Dongxia

Subjects
evodiamine, camp/pka/creb signaling pathway, atopic dermatitis, inflammation, Medicine
Abstract

Objective To evaluate the therapeutic effect of evodiamine (Evo) on atopic dermatitis (AD) in rat models by regulating the cyclic adenosine monophosphate (cAMP)/protein kinase A (PKA)/cAMP response element binding protein (CREB) signaling pathway. Methods A rat model of AD was established by administration of multiple doses of 2,4-dinitrochlorobenzene (DNCB).The animals were randomly divided into AD group, Evo-low-dose (Evo-L, 5 mg/kg) group, Evo-high-dose (Evo-H, 10 mg/kg) group, Evo-H+H-89 (5 mg/kg) group and dexamethasone (0.1 mg/kg) group. Normal rats were used as the control group and then the degree of skin damage of rats in each group was scored. Abdominal blood was taken to detect the levels of interleukin-4 (IL-4), cAMP, and tumor necrosis factor-α(TNF-α) in serum; Skin lesion tissue was collected to detect pathological change, counting of mast cells, PKA/CREB related protein expression and expression of IL-4 and TNF-α mRNA in the tissue. Results Compared with control group, the level of cAMP in serum, the expression of p-PKA/PKA, and p-CREB/CREB in skin lesions of AD group were reduced, the severity score of skin lesions, level of IL-4 and TNF-α, epidermal thickness, number of mast cells and mRNA expression of IL-4 and TNF-α in skin lesion tissues were all significantly increased (P<0.05). Compared with AD group, the level of cAMP in serum, the expression of p-PKA/PKA, and p-CREB/CREB in skin lesions in Evo-L group, Evo-H group, and dexamethasone group were increased, the severity score of skin lesions, level of IL-4 and TNF-α, epidermal thickness, number of mast cells, and mRNA expression of IL-4 and TNF-α in skin lesion tissues all reduced (P<0.05). Compared with the Evo-H group, the level of cAMP in serum, the expression of p-PKA/PKA, and p-CREB/CREB in skin lesions in Evo-H+H-89 group was reduced and the severity score of skin lesion, level of IL-4 and TNF-α, epidermal thickness, number of mast cells, and mRNA expression of IL-4 and TNF-α in skin lesion tissues significantly increased(P<0.05). Conclusions Evo inhibits inflammatory response and pathological damage through regulation of cAMP/PKA/CREB signaling pathway in AD rat models.

Published
2024
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6. Surrogate Model for Geological CO2 Storage and Its Use in Hierarchical MCMC History Matching

Author

Han, Yifu, Hamon, Francois P., Jiang, Su, and Durlofsky, Louis J.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Physics - Geophysics
Abstract

Deep-learning-based surrogate models show great promise for use in geological carbon storage operations. In this work we target an important application - the history matching of storage systems characterized by a high degree of (prior) geological uncertainty. Toward this goal, we extend the recently introduced recurrent R-U-Net surrogate model to treat geomodel realizations drawn from a wide range of geological scenarios. These scenarios are defined by a set of metaparameters, which include the horizontal correlation length, mean and standard deviation of log-permeability, permeability anisotropy ratio, and constants in the porosity-permeability relationship. An infinite number of realizations can be generated for each set of metaparameters, so the range of prior uncertainty is large. The surrogate model is trained with flow simulation results, generated using the open-source simulator GEOS, for 2000 random realizations. The flow problems involve four wells, each injecting 1 Mt CO2/year, for 30 years. The trained surrogate model is shown to provide accurate predictions for new realizations over the full range of geological scenarios, with median relative error of 1.3% in pressure and 4.5% in saturation. The surrogate model is incorporated into a hierarchical Markov chain Monte Carlo history matching workflow, where the goal is to generate history matched geomodel realizations and posterior estimates of the metaparameters. We show that, using observed data from monitoring wells in synthetic `true' models, geological uncertainty is reduced substantially. This leads to posterior 3D pressure and saturation fields that display much closer agreement with the true-model responses than do prior predictions.

Published
2023

8. Ameliorative Effect and Underlying Mechanism of Docosahexaenoic Acid-Enriched Phosphatidylserine on Cyclophosphamide-Induced Renal Injury in Mice

Author

ZHANG Yuanlei, ZHANG Honglei, DONG Jiayu, JIANG Su, TANG Yunping

Subjects
cyclophosphamide, docosahexaenoic acid-enriched phosphatidylserine, kidney injury, metabolomics, ameliorative effect, Food processing and manufacture, TP368-456
Abstract

Objective: To investigate the protective effect and mechanism of docosahexaenoic acid-enriched phosphatidylserine (DHA-PS) against cyclophosphamide (CTX)-induced renal injury in mice. Methods: Thirty-two male institute of cancer research (ICR) mice were randomly divided into four groups: control (CON), model (MOD), 50 mg/kg mb DHA-PS (50 DHA-PS), and 100 mg/kg mb DHA-PS (100 DHA-PS), with eight mice in each group. The renal injury model was established by intraperitoneal injection of 80 mg/kg mb CTX. Five days later, the mice in the MOD and DHA-PS groups were gavaged for 7 days with an equal volume of physiological saline and DHA-PS, respectively and then sacrificed. Kidney indexes, serum biochemical indicators, the levels of renal oxidative stress and inflammatory factors, histopathological changes, and non-targeted metabolomics of renal tissues were evaluated. Results: Compared with the MOD group, DHA-PS significantly decreased kidney indexes, creatinine, blood urea nitrogen, cystatin C, and kidney injury molecule-1 levels (P < 0.05), increased the activities of antioxidant enzymes such as superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), and catalase (CAT) (P < 0.05), reduced the content of malondialdehyde (MDA) (P < 0.05), downregulated the expression of pro-inflammatory cytokines including interleukin (IL)-6, IL-1β, tumor necrosis factor-α (P < 0.05), and upregulated the level of the anti-inflammatory cytokine IL-10 (P < 0.05). Staining results showed a significant restoration of kidney tissue structure in the DHA-PS group. Additionally, the results of renal tissue metabolomics indicated that DHA-PS mitigated CTX-induced metabolic disorders in mouse kidneys mainly by affecting glycerophospholipid metabolism, purine metabolism, and their metabolites. Conclusion: DHA-PS can alleviate CTX-induced renal injury in mice through reducing oxidative stress and inflammatory response, and regulating the glycerophospholipid and purine metabolism pathways.

Published
2024
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9. Comparative transcriptomic profiles of Paulownia catalpifolia under different degrees of chilling stress during the seedling stage

Author

Baojun Liu, Jiang Su, Chuanming Fu, Kanghua Xian, Jinxiang He, and Ningzhen Huang

Subjects
Paulownia catalpifolia, Chilling stress, Transcriptomic profile, Physiologic index, Differentially expressed genes, Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Paulownia, an ecologically and economically valuable plant species native to China, is notable for its excellent timber quality and strong adaptability. Among them, Paulownia catalpifolia displays the ability to survive in cold climate, a trait associated with northern China. Yet, the molecular information for its cold-tolerance has not been explored. This study was to investigate the changes in physiological indices and transcript levels of P. catalpifolia following cold exposure, which could provide evidence for revealing whether there were differences in the genetic basis of inducing physiological perturbations between moderate low temperature (MLT) and extreme low temperature (ELT). Results The detection of physiological indices under diverse degrees of chilling stress showed similar patterns of alteration. Enhanced accumulation of osmoregulatory substances, such as soluble sugar and soluble protein, were more conducive under ELT compared to MLT in P. catalpifolia. Moreover, we observed leaf wilting symptoms distinctly after exposure to ELT for 48 h, while this effect was not obvious after MLT exposure for 48 h. Comparative transcriptomic analysis between MLT and ELT demonstrated 13,688 differentially expressed genes (DEGs), most of them appeared after 12 h and 48 h of treatment. GO and KEGG analyses elucidated prominent enrichment in aromatic-L-amino-acid decarboxylase activity term and carbohydrate metabolism pathways. Therefore, it was speculated that the DEGs involved in the above processes might be related to the difference in the contents of soluble protein and soluble sugar between MLT and ELT. Time series clustering analyses further highlighted several key genes engaged in the ‘Glycosyltransferases’, ‘Galactose metabolism’ and ‘Starch and sucrose metabolism’ pathways as well as the ‘tyrosine decarboxylase activity’ term. For instance, cellulose synthase-like A (CLSA2/9), raffinose synthase (RafS2), β-amylase (BAM1) and tyrosine/DOPA decarboxylase (TYDC1/2/5) genes, diverging in their expression trends between MLT and ELT, might significantly affect the soluble sugar and soluble protein abundance within P. catalpifolia. Conclusion Between MLT and ELT treatments, partial overlaps in response pathways of P. catalpifolia were identified, while several genes regulating the accumulation of osmotic adjustment substances had disparate expression patterns. These findings could provide a novel physiological and molecular perspective for P. catalpifolia to adapt to complex low temperature habitats.

Published
2024
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10. Use of Multifidelity Training Data and Transfer Learning for Efficient Construction of Subsurface Flow Surrogate Models

Author

Jiang, Su and Durlofsky, Louis J.

Subjects
Computer Science - Machine Learning, Physics - Geophysics
Abstract

Data assimilation presents computational challenges because many high-fidelity models must be simulated. Various deep-learning-based surrogate modeling techniques have been developed to reduce the simulation costs associated with these applications. However, to construct data-driven surrogate models, several thousand high-fidelity simulation runs may be required to provide training samples, and these computations can make training prohibitively expensive. To address this issue, in this work we present a framework where most of the training simulations are performed on coarsened geomodels. These models are constructed using a flow-based upscaling method. The framework entails the use of a transfer-learning procedure, incorporated within an existing recurrent residual U-Net architecture, in which network training is accomplished in three steps. In the first step. where the bulk of the training is performed, only low-fidelity simulation results are used. The second and third steps, in which the output layer is trained and the overall network is fine-tuned, require a relatively small number of high-fidelity simulations. Here we use 2500 low-fidelity runs and 200 high-fidelity runs, which leads to about a 90% reduction in training simulation costs. The method is applied for two-phase subsurface flow in 3D channelized systems, with flow driven by wells. The surrogate model trained with multifidelity data is shown to be nearly as accurate as a reference surrogate trained with only high-fidelity data in predicting dynamic pressure and saturation fields in new geomodels. Importantly, the network provides results that are significantly more accurate than the low-fidelity simulations used for most of the training. The multifidelity surrogate is also applied for history matching using an ensemble-based procedure, where accuracy relative to reference results is again demonstrated.

Published
2022
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15. Deep Learning-Accelerated 3D Carbon Storage Reservoir Pressure Forecasting Based on Data Assimilation Using Surface Displacement from InSAR

Author

Tang, Hewei, Fu, Pengcheng, Jo, Honggeun, Jiang, Su, Sherman, Christopher S., Hamon, François, Azzolina, Nicholas A., and Morris, Joseph P.

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning, Physics - Geophysics
Abstract

Fast forecasting of reservoir pressure distribution in geologic carbon storage (GCS) by assimilating monitoring data is a challenging problem. Due to high drilling cost, GCS projects usually have spatially sparse measurements from wells, leading to high uncertainties in reservoir pressure prediction. To address this challenge, we propose to use low-cost Interferometric Synthetic-Aperture Radar (InSAR) data as monitoring data to infer reservoir pressure build up. We develop a deep learning-accelerated workflow to assimilate surface displacement maps interpreted from InSAR and to forecast dynamic reservoir pressure. Employing an Ensemble Smoother Multiple Data Assimilation (ES-MDA) framework, the workflow updates three-dimensional (3D) geologic properties and predicts reservoir pressure with quantified uncertainties. We use a synthetic commercial-scale GCS model with bimodally distributed permeability and porosity to demonstrate the efficacy of the workflow. A two-step CNN-PCA approach is employed to parameterize the bimodal fields. The computational efficiency of the workflow is boosted by two residual U-Net based surrogate models for surface displacement and reservoir pressure predictions, respectively. The workflow can complete data assimilation and reservoir pressure forecasting in half an hour on a personal computer.

Published
2022

16. Comprehensive multi-omics analysis reveals the core role of glycerophospholipid metabolism in rheumatoid arthritis development

Author

Congcong Jian, Lingli Wei, Tong Wu, Shilin Li, Tingting Wang, Jianghua Chen, Shengjia Chang, Jie Zhang, Binhan He, Jianhong Wu, Jiang Su, Jing Zhu, Min Wu, Yan Zhang, and Fanxin Zeng

Subjects
Rheumatoid arthritis, Multi-omics, New-onset RA, Chronic RA, Diseases of the musculoskeletal system, RC925-935
Abstract

Abstract Objectives Rheumatoid arthritis (RA) is a chronic autoimmune disease with complex causes and recurrent attacks that can easily develop into chronic arthritis and eventually lead to joint deformity. Our study aims to elucidate potential mechanism among control, new-onset RA (NORA) and chronic RA (CRA) with multi-omics analysis. Methods A total of 113 RA patients and 75 controls were included in our study. Plasma and stool samples were obtained for 16S rRNA sequencing, internally transcribed spacer (ITS) sequencing and metabolomics analysis. And PBMCs were obtained for RNA sequencing. We used three models, logistic regression, least absolute shrinkage and selection operator (LASSO), and random forest, respectively, to distinguish NORA from CRA, and finally we validated model performance using an external cohort of 26 subjects. Results Our results demonstrated intestinal flora disturbance in RA development, with significantly increased abundance of Escherichia-Shigella and Proteobacteria in NORA. We also found that the diversity was significantly reduced in CRA compared to NORA through fungi analysis. Moreover, we identified 29 differential metabolites between NORA and CRA. Pathway enrichment analysis revealed significant dysregulation of glycerophospholipid metabolism and phenylalanine metabolism pathways in RA patients. Next, we identified 40 differentially expressed genes between NORA and CRA, which acetylcholinesterase (ACHE) was the core gene and significantly enriched in glycerophospholipid metabolism pathway. Correlation analysis showed a strong negatively correlation between glycerophosphocholine and inflammatory characteristics. Additionally, we applied three approaches to develop disease classifier models that were based on plasma metabolites and gut microbiota, which effectively distinguished between new-onset and chronic RA patients in both discovery cohort and external validation cohort. Conclusions These findings revealed that glycerophospholipid metabolism plays a crucial role in the development and progression of RA, providing new ideas for early clinical diagnosis and optimizing treatment strategies.

Published
2023
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29. Selection of suitable reference genes in Paulownia fortunei (Seem.) Hemsl. under different tissues and abiotic stresses for qPCR normalization

Author

Jiang Su, Kanghua Xian, Chuanming Fu, Jinxiang He, Baojun Liu, and Ningzhen Huang

Subjects
drought treatment, heavy metal, housekeeping genes, qrt-pcr, salinity treatment, Plant culture, SB1-1110
Abstract

By choosing appropriate candidate reference genes (CRGs) and standardizing qPCR data, more accurate experimental data can be obtained. Herein, the expression stability of alpha-tubulin1 (TUA1), beta-tubulin (TUB), beta-tubulin 1 (TUB1), beta-tubulin 5 (TUB5), actin 1 (ACT1), actin 97 (ACT97), molecular chaperone dnaj (DNAJ), adenine phosphoribosyl transferase (APT), and histone H4 (HIS4) genes from Paulownia fortunei (Seem.) Hemsl. under different experimental conditions (different tissues, drought, salinity, Cd, and Cr treatments) was assessed with four statistical tools: RefFinder, BestKeeper, NormFinder, and geNorm. Notably, TUA1 and TUB5 were identified as CRGs for different tissues, ACT97 and TUB1 for drought treatment, ACT97 and APT for salinity treatment, TUB1 and ACT97 for Cd treatment, and DNAJ, TUB1 and TUB5 for Cr treatment. Furthermore, the results of "total" group, V4/V5 > 0.15 and V5/V6 < 0.15 revealed that the CRGs or gene combinations, which could meet all the test conditions, were not easy to identify. To further verify the reliability of CRGs, the expression levels of paulownia fortunei cellulose synthase A catalytic subunit2 (PfCesA2) and paulownia fortunei glutathione reductase (GR) genes were analysed. The expression patterns were different when the unstable CRGs were used for normalization compared to when the stable CRGs and combination were used for normalization. This study will lay a foundation for study on the expression levels of key genes from P. fortunei seedlings.

Published
2023
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42. Data-Space Inversion Using a Recurrent Autoencoder for Time-Series Parameterization

Author

Jiang, Su and Durlofsky, Louis J.

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

Data-space inversion (DSI) and related procedures represent a family of methods applicable for data assimilation in subsurface flow settings. These methods differ from model-based techniques in that they provide only posterior predictions for quantities (time series) of interest, not posterior models with calibrated parameters. DSI methods require a large number of flow simulations to first be performed on prior geological realizations. Given observed data, posterior predictions can then be generated directly. DSI operates in a Bayesian setting and provides posterior samples of the data vector. In this work we develop and evaluate a new approach for data parameterization in DSI. Parameterization reduces the number of variables to determine in the inversion, and it maintains the physical character of the data variables. The new parameterization uses a recurrent autoencoder (RAE) for dimension reduction, and a long-short-term memory (LSTM) network to represent flow-rate time series. The RAE-based parameterization is combined with an ensemble smoother with multiple data assimilation (ESMDA) for posterior generation. Results are presented for two- and three-phase flow in a 2D channelized system and a 3D multi-Gaussian model. The RAE procedure, along with existing DSI treatments, are assessed through comparison to reference rejection sampling (RS) results. The new DSI methodology is shown to consistently outperform existing approaches, in terms of statistical agreement with RS results. The method is also shown to accurately capture derived quantities, which are computed from variables considered directly in DSI. This requires correlation and covariance between variables to be properly captured, and accuracy in these relationships is demonstrated. The RAE-based parameterization developed here is clearly useful in DSI, and it may also find application in other subsurface flow problems.

Published
2020

46. Multi-omics profiling reveals potential alterations in rheumatoid arthritis with different disease activity levels

Author

Jianghua Chen, Shilin Li, Jing Zhu, Wei Su, Congcong Jian, Jie Zhang, Jianhong Wu, Tingting Wang, Weihua Zhang, Fanwei Zeng, Shengjia Chang, Lihua Jia, Jiang Su, Yi Zhao, Jing Wang, and Fanxin Zeng

Subjects
Rheumatoid arthritis, DAS28-ESR, Multi-omics, Lipid metabolism, Whole exome sequencing, Random forest, Diseases of the musculoskeletal system, RC925-935
Abstract

Abstract Background Rheumatoid arthritis (RA) is a chronic, systemic autoimmune inflammatory disease, the pathogenesis of which is not clear. Clinical remission, or decreased disease activity, is the aim of treatment for RA. However, our understanding of disease activity is inadequate, and clinical remission rates for RA are generally poor. In this study, we used multi-omics profiling to study potential alterations in rheumatoid arthritis with different disease activity levels. Methods Fecal and plasma samples from 131 rheumatoid arthritis (RA) patients and 50 healthy subjects were collected for 16S rRNA sequencing, internally transcribed spacer (ITS) sequencing, and liquid chromatography-tandem mass spectrometry (LC–MS/MS). The PBMCS were also collected for RNA sequencing and whole exome sequencing (WES). The disease groups, based on 28 joints and ESR (DAS28), were divided into DAS28L, DAS28M, and DAS28H groups. Three random forest models were constructed and verified with an external validation cohort of 93 subjects. Results Our findings revealed significant alterations in plasma metabolites and gut microbiota in RA patients with different disease activities. Moreover, plasma metabolites, especially lipid metabolites, demonstrated a significant correlation with the DAS28 score and also associations with gut bacteria and fungi. KEGG pathway enrichment analysis of plasma metabolites and RNA sequencing data demonstrated alterations in the lipid metabolic pathway in RA progression. Whole exome sequencing (WES) results have shown that non-synonymous single nucleotide variants (nsSNV) of the HLA-DRB1 and HLA-DRB5 gene locus were associated with the disease activity of RA. Furthermore, we developed a disease classifier based on plasma metabolites and gut microbiota that effectively discriminated RA patients with different disease activity in both the discovery cohort and the external validation cohort. Conclusion Overall, our multi-omics analysis confirmed that RA patients with different disease activity were altered in plasma metabolites, gut microbiota composition, transcript levels, and DNA. Our study identified the relationship between gut microbiota and plasma metabolites and RA disease activity, which may provide a novel therapeutic direction for improving the clinical remission rate of RA.

Published
2023
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