Superfund Publications

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PubMed Central ID: 
Lowey, B., Whiteley, A. T., Keszei, A., Morehouse, B. R., Mathews, I. T., Antine, S. P., Cabrera, V. J., Kashin, D., Niemann, P., Jain, M., Schwede, F., Mekalanos, J. J., Shao, S., Lee, A., & Kranzusch, P. J. (2020). CBASS Immunity Uses CARF-Related Effectors to Sense 3'-5'- and 2'-5'-Linked Cyclic Oligonucleotide Signals and Protect Bacteria from Phage Infection. Cell, 182(1), 38–49.e17. https://doi.org/10.1016/j.cell.2020.05.019
PubMedID: 32544385
PubMed Central ID: 
Long, M. T., Gandhi, S., & Loomba, R. (2020). Advances in non-invasive biomarkers for the diagnosis and monitoring of non-alcoholic fatty liver disease. Metabolism: clinical and experimental, 111S, 154259. https://doi.org/10.1016/j.metabol.2020.154259
PubMedID: 32387227
PubMed Central ID: 
Dufour, J. F., Caussy, C., & Loomba, R. (2020). Combination therapy for non-alcoholic steatohepatitis: rationale, opportunities and challenges. Gut, 69(10), 1877–1884. https://doi.org/10.1136/gutjnl-2019-319104
PubMedID: 32381514
PubMed Central ID: 

He F, Antonucci L, Karin M. NRF2 as a regulator of cell metabolism and inflammation in cancer. Carcinogenesis. 2020 Jun 17;41(4):405-416. doi: 10.1093/carcin/bgaa039.

PubMedID: 32347301
PubMed Central ID: 
Gou, L. T., Lim, D. H., Ma, W., Aubol, B. E., Hao, Y., Wang, X., Zhao, J., Liang, Z., Shao, C., Zhang, X., Meng, F., Li, H., Zhang, X., Xu, R., Li, D., Rosenfeld, M. G., Mellon, P. L., Adams, J. A., Liu, M. F., & Fu, X. D. (2020). Initiation of Parental Genome Reprogramming in Fertilized Oocyte by Splicing Kinase SRPK1-Catalyzed Protamine Phosphorylation. Cell, 180(6), 1212–1227.e14. https://doi.org/10.1016/j.cell.2020.02.020
PubMedID: 32169215
PubMed Central ID: 

He F, Antonucci L, Yamachika S, Zhang Z, Taniguchi K, Umemura A, Hatzivassiliou G, Roose-Girma M, Reina-Campos M, Molina AD, Diaz-Meco MT, Moscat J, Sun B, Karin M. (2020) NRF2 Activates Growth Factor Genes and Downstream AKT Signaling to Induce Mouse and Human Hepatomegaly. Journal of Hepatology, Accepted.
doi: 10.1016/j.jhep.2020.01.023

PubMedID: 32105670
PubMed Central ID: 
He, F., Antonucci, L., Yamachika, S., Zhang, Z., Taniguchi, K., Umemura, A., Hatzivassiliou, G., Roose-Girma, M., Reina-Campos, M., Duran, A., Diaz-Meco, M. T., Moscat, J., Sun, B., & Karin, M. (2020). NRF2 activates growth factor genes and downstream AKT signaling to induce mouse and human hepatomegaly. Journal of hepatology, 72(6), 1182–1195. https://doi.org/10.1016/j.jhep.2020.01.023
PubMedID: 32105670

Quinn R.A., Melnik A.V., Vrbanac A., Fu T., Patras K.A., Christy M.P., Bodai Z., Belda-Ferre P., Tripathi A., Chung L.K., Downes M., Welch R.D., Quinn M., Humphrey G., Panitchpakdi M., Weldon K.C., Aksenov A., da Silva R., Avila-Pacheco J., Clish C., Bae S., Mallick H., Franzosa E.A., Lloyd-Price J., Bussell R., Thron T., Nelson A.T., Wang M., Leszczynski E., Vargas F., Gauglitz J.M., Meehan M.J., Gentry E., Arthur T.D., Komor A.C., Poulsen O., Boland B.S., Chang J.T., Sandborn W.J., Lim M., Garg N., Lumeng J.C., Xavier R.J., Kazmierczak B.I., Jain R., Egan M., Rhee K.E., Ferguson D., Raffatellu M., Vlamakis H., Haddad G.G., Siegel D., Huttenhower C., Mazmanian S.K., Evans R.M., Nizet V., Knight R., Dorrestein P.C.  (2020) Global chemical effects of the microbiome include new bile-acid conjugations. Nature 579, 123–129. doi: 10.1038/s41586-020-2047-9

PubMedID: 32103176
PubMed Central ID: 
Quinn RA, Melnik AV, Vrbanac A, Fu T, Patras KA, Christy MP, Bodai Z, Belda-Ferre P, Tripathi A, Chung LK, Downes M, Welch RD, Quinn M, Humphrey G, Panitchpakdi M, Weldon KC, Aksenov A, da Silva R, Avila-Pacheco J, Clish C, Bae S, Mallick H, Franzosa EA, Lloyd-Price J, Bussell R, Thron T, Nelson AT, Wang M, Leszczynski E, Vargas F, Gauglitz JM, Meehan MJ, Gentry E, Arthur TD, Komor AC, Poulsen O, Boland BS, Chang JT, Sandborn WJ, Lim M, Garg N, Lumeng JC, Xavier RJ, Kazmierczak BI, Jain R, Egan M, Rhee KE, Ferguson D, Raffatellu M, Vlamakis H, Haddad GG, Siegel D, Huttenhower C, Mazmanian SK, Evans RM, Nizet V, Knight R, Dorrestein PC. Global chemical effects of the microbiome include new bile-acid conjugations. Nature. 2020 Mar;579(7797):123-129. doi: 10.1038/s41586-020-2047-9. Epub 2020 Feb 26.
PubMedID: 32103176
PubMed Central ID: 
Han, A., Byra, M., Heba, E., Andre, M. P., Erdman, J. W., Jr, Loomba, R., Sirlin, C. B., & O'Brien, W. D., Jr (2020). Noninvasive Diagnosis of Nonalcoholic Fatty Liver Disease and Quantification of Liver Fat with Radiofrequency Ultrasound Data Using One-dimensional Convolutional Neural Networks. Radiology, 295(2), 342–350. https://doi.org/10.1148/radiol.2020191160
PubMedID: 32096706
PubMed Central ID: 
Han, A., Byra, M., Heba, E., Andre, M. P., Erdman, J. W., Jr, Loomba, R., Sirlin, C. B., & O'Brien, W. D., Jr (2020). Noninvasive Diagnosis of Nonalcoholic Fatty Liver Disease and Quantification of Liver Fat with Radiofrequency Ultrasound Data Using One-dimensional Convolutional Neural Networks. Radiology, 295(2), 342–350. https://doi.org/10.1148/radiol.2020191160
PubMedID: 32096706
PubMed Central ID: 

Xu J, Ma HY, Liu X, Rosenthal S, Baglieri J, McCubbin R, Sun M, Koyama Y, Geoffroy CG, Saijo K, Shang L, Nishio T, Maricic I, Kreifeldt M, Kusumanchi P, Roberts A, Zheng B, Kumar V, Zengler K, Pizzo DP, Hosseini M, Contet C, Glass CK, Liangpunsakul S, Tsukamoto H, Gao B, Karin M, Brenner DA, Koob GF, Kisseleva T. Blockade of IL-17 signaling reverses alcohol-induced liver injury and excessive alcohol drinking in mice. JCI Insight. 2020 Feb 13;5(3):e131277. doi: 10.1172/jci.insight.131277.

PubMedID: 32051339
PubMed Central ID: 
Xu J, Ma HY, Liu X, Rosenthal S, Baglieri J, McCubbin R, Sun M, Koyama Y, Geoffroy CG, Saijo K, Shang L, Nishio T, Maricic I, Kreifeldt M, Kusumanchi P, Roberts A, Zheng B, Kumar V, Zengler K, Pizzo DP, Hosseini M, Contet C, Glass CK, Liangpunsakul S, Tsukamoto H, Gao B, Karin M, Brenner DA, Koob GF, Kisseleva T. Blockade of IL-17 signaling reverses alcohol-induced liver injury and excessive alcohol drinking in mice. JCI Insight. 2020 Feb 13;5(3):e131277. doi: 10.1172/jci.insight.131277.
PubMedID: 32051339
PubMed Central ID: 
Xu J, Ma HY, Liu X, Rosenthal S, Baglieri J, McCubbin R, Sun M, Koyama Y, Geoffroy CG, Saijo K, Shang L, Nishio T, Maricic I, Kreifeldt M, Kusumanchi P, Roberts A, Zheng B, Kumar V, Zengler K, Pizzo DP, Hosseini M, Contet C, Glass CK, Liangpunsakul S, Tsukamoto H, Gao B, Karin M, Brenner DA, Koob GF, Kisseleva T. Blockade of IL-17 signaling reverses alcohol-induced liver injury and excessive alcohol drinking in mice. JCI Insight. 2020 Feb 13;5(3):e131277. doi: 10.1172/jci.insight.131277.
PubMedID: 32051339
PubMed Central ID: 
Mennillo, E., Yang, X., Paszek, M., Auwerx, J., Benner, C., & Chen, S. (2020). NCoR1 Protects Mice From Dextran Sodium Sulfate-Induced Colitis by Guarding Colonic Crypt Cells From Luminal Insult. Cellular and molecular gastroenterology and hepatology, 10(1), 133–147. https://doi.org/10.1016/j.jcmgh.2020.01.014
PubMedID: 32044398
PubMed Central ID: 
Mennillo, E., Yang, X., Paszek, M., Auwerx, J., Benner, C., & Chen, S. (2020). NCoR1 Protects Mice From Dextran Sodium Sulfate-Induced Colitis by Guarding Colonic Crypt Cells From Luminal Insult. Cellular and molecular gastroenterology and hepatology, 10(1), 133–147. https://doi.org/10.1016/j.jcmgh.2020.01.014
PubMedID: 32044398
PubMed Central ID: 
Mennillo, E., Yang, X., Paszek, M., Auwerx, J., Benner, C., & Chen, S. (2020). NCoR1 Protects Mice From Dextran Sodium Sulfate-Induced Colitis by Guarding Colonic Crypt Cells From Luminal Insult. Cellular and molecular gastroenterology and hepatology, 10(1), 133–147. https://doi.org/10.1016/j.jcmgh.2020.01.014
PubMedID: 32044398

Zhao P, Sun X, Chaggan C, Liao Z, In Wong K, He F, Singh S, Loomba, R, Karin M, Witztum JL, Saltiel AR. (2020) An AMPK-caspase-6 axis controls liver damage in nonalcoholic steatohepatitis. Science. Feb 7; 367(6478):652-660.
doi: 10.1126/science.aay0542

PubMedID: 32029622
PubMed Central ID: 
Zhao, P., Sun, X., Chaggan, C., Liao, Z., In Wong, K., He, F., Singh, S., Loomba, R., Karin, M., Witztum, J. L., & Saltiel, A. R. (2020). An AMPK-caspase-6 axis controls liver damage in nonalcoholic steatohepatitis. Science (New York, N.Y.), 367(6478), 652–660. https://doi.org/10.1126/science.aay0542
PubMedID: 32029622
PubMed Central ID: 
Han, A., Zhang, Y. N., Boehringer, A. S., Montes, V., Andre, M. P., Erdman, J. W., Jr, Loomba, R., Valasek, M. A., Sirlin, C. B., & O'Brien, W. D., Jr (2020). Assessment of Hepatic Steatosis in Nonalcoholic Fatty Liver Disease by Using Quantitative US. Radiology, 295(1), 106–113. https://doi.org/10.1148/radiol.2020191152
PubMedID: 32013792
PubMed Central ID: 
Han, A., Zhang, Y. N., Boehringer, A. S., Montes, V., Andre, M. P., Erdman, J. W., Jr, Loomba, R., Valasek, M. A., Sirlin, C. B., & O'Brien, W. D., Jr (2020). Assessment of Hepatic Steatosis in Nonalcoholic Fatty Liver Disease by Using Quantitative US. Radiology, 295(1), 106–113. https://doi.org/10.1148/radiol.2020191152
PubMedID: 32013792
PubMed Central ID: 
Loomba, R., Lim, J. K., Patton, H., & El-Serag, H. B. (2020). AGA Clinical Practice Update on Screening and Surveillance for Hepatocellular Carcinoma in Patients With Nonalcoholic Fatty Liver Disease: Expert Review. Gastroenterology, 158(6), 1822–1830. https://doi.org/10.1053/j.gastro.2019.12.053
PubMedID: 32006545
PubMed Central ID: 

Hansmann, E., Mennillo, E., Yoda, E., Verreault, M., Barbier, O., Chen, S.J., Tukey, R.H. (2020) Differential role of LXRa and LXRß in the regulation of UDP-glucuronosyltransferase 1A1 in humanized UGT1 mice. Drug Metab Dispos. Jan 24.
doi: 10.1124/dmd.119.090068

PubMedID: 31980500
PubMed Central ID: 
Hansmann, E., Mennillo, E., Yoda, E., Verreault, M., Barbier, O., Chen, S., & Tukey, R. H. (2020). Differential Role of Liver X Receptor (LXR) α and LXRβ in the Regulation of UDP-Glucuronosyltransferase 1A1 in Humanized UGT1 Mice. Drug metabolism and disposition: the biological fate of chemicals, 48(4), 255–263. https://doi.org/10.1124/dmd.119.090068
PubMedID: 31980500
PubMed Central ID: 
Cooper, A. M., Felix, D., Alcantara, F., Zaslavsky, I., Work, A., Watson, P. L., Pezzoli, K., Yu, Q., Zhu, D., Scavo, A. J., Zarabi, Y., & Schroeder, J. I. (2020). Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community garden. Plant direct, 4(1), e00198. https://doi.org/10.1002/pld3.198
PubMedID: 31956855
PubMed Central ID: 
Cooper, A. M., Felix, D., Alcantara, F., Zaslavsky, I., Work, A., Watson, P. L., Pezzoli, K., Yu, Q., Zhu, D., Scavo, A. J., Zarabi, Y., & Schroeder, J. I. (2020). Monitoring and mitigation of toxic heavy metals and arsenic accumulation in food crops: A case study of an urban community garden. Plant direct, 4(1), e00198. https://doi.org/10.1002/pld3.198
PubMedID: 31956855
PubMed Central ID: 
Stender, S., & Loomba, R. (2020). PNPLA3 Genotype and Risk of Liver and All-Cause Mortality. Hepatology (Baltimore, Md.), 71(3), 777–779. https://doi.org/10.1002/hep.31113
PubMedID: 31954067
PubMed Central ID: 

Dhar, D., Baglieri, J., Kisseleva, T. and Brenner, D.A. (2020) Mechanisms of liver fibrosis and its role in cancer. Exp Biol Med (Maywood). Jan 10:1535370219898141. doi: 10.1177/1535370219898141

PubMedID: 31924111
PubMed Central ID: 

Ma HY, Yamamoto G, Xu J, Liu X, Karin D, Kim JY, Alexandrov LB, Koyama Y, Nishio T, Benner C, Heinz S, Rosenthal SB, Liang S, Sun M, Karin G, Zhao P, Brodt P, Mckillop IH, Quehenberger O, Dennis E, Saltiel A, Tsukamoto H, Gao B, Karin M, Brenner DA, Kisseleva T. (2019) IL-17 signaling in steatotic hepatocytes and macrophages promotes hepatocellular carcinoma in alcohol-related liver disease. J Hepatol. Dec 31.
doi: 10.1016/j.jhep.2019.12.016

PubMedID: 31899206
PubMed Central ID: 

Takahashi, Y., Zhang, J., Hsu, P.K., Ceciliato, P.H.O., Zhang, L., Dubeaux, G., Munemasa, S., Ge, C., Zhao, Y., Hauser, F., Schroeder, J.I. (2020) MAP3Kinase-Dependent SnRK2-kinase activation is required for abscisic acid signal transduction and rapid osmotic stress response. Nat Commun. 2020 Jan 2;11(1):12. doi: 10.1038/s41467-019-13875-y

PubMedID: 31896774
PubMed Central ID: 
Takahashi, Y., Zhang, J., Hsu, P. K., Ceciliato, P., Zhang, L., Dubeaux, G., Munemasa, S., Ge, C., Zhao, Y., Hauser, F., & Schroeder, J. I. (2020). MAP3Kinase-dependent SnRK2-kinase activation is required for abscisic acid signal transduction and rapid osmotic stress response. Nature communications, 11(1), 12. https://doi.org/10.1038/s41467-019-13875-y
PubMedID: 31896774
PubMed Central ID: 
Balakrishnan, M., & Loomba, R. (2020). The Role of Noninvasive Tests for Differentiating NASH From NAFL and Diagnosing Advanced Fibrosis Among Patients With NAFLD. Journal of clinical gastroenterology, 54(2), 107–113. https://doi.org/10.1097/MCG.0000000000001284
PubMedID: 31789757
PubMed Central ID: 
Balakrishnan, M., & Loomba, R. (2020). The Role of Noninvasive Tests for Differentiating NASH From NAFL and Diagnosing Advanced Fibrosis Among Patients With NAFLD. Journal of clinical gastroenterology, 54(2), 107–113. https://doi.org/10.1097/MCG.0000000000001284
PubMedID: 31789757
PubMed Central ID: 

Sun, X., Seidman, J.S., Zhao, P., Troutman, T.D., Spann, N.J., Que, X., Zhou, F., Liao, Z., Pasillas, M., Yang, X., Magida, J.A., Kisseleva, T., Brenner, D.A.,Downes, M., Evans, R.M., Saltiel, A.R., Tsimikas, S., Glass, C.K., Witztum, J.L. (2020) Neutralization of Oxidized Phospholipids Ameliorates Non-alcoholic Steatohepatitis. Cell Metab. Jan 7;31(1):189-206.e8.
doi: 10.1016/j.cmet.2019.10.014

PubMedID: 31761566
PubMed Central ID: 
Sun, X., Seidman, J. S., Zhao, P., Troutman, T. D., Spann, N. J., Que, X., Zhou, F., Liao, Z., Pasillas, M., Yang, X., Magida, J. A., Kisseleva, T., Brenner, D. A., Downes, M., Evans, R. M., Saltiel, A. R., Tsimikas, S., Glass, C. K., & Witztum, J. L. (2020). Neutralization of Oxidized Phospholipids Ameliorates Non-alcoholic Steatohepatitis. Cell metabolism, 31(1), 189–206.e8. https://doi.org/10.1016/j.cmet.2019.10.014
PubMedID: 31761566

Pandolfi, E.C., Breuer, J.A., Nguyen Huu, V.A., Talluri, T., Nguyen, D., Lee, J.S., Hu, R., Bharti, K., Skowronska-Krawczyk, D., Gorman, M.R., Mellon, P.L., Hoffmann, H.M. (2019) The Homeodomain Transcription Factors Vax1 and Six6 Are Required for SCN Development and Function. Mol Neurobiol. doi: 10.1007/s12035-019-01781-9. (https://link.springer.com/article/10.1007%2Fs12035-019-01781-9) [Epub ahead of print]

PubMedID: 31705443
PubMed Central ID: 

Paszek, M., Tukey, R.H. (2020) NRF2-Independent Regulation of Intestinal Constitutive Androstane Receptor by the Pro-Oxidants Cadmium and Isothiocyanate in hUGT1 Mice. Drug Metab Dispos. Jan; 48(1):25-30.
doi: 10.1124/dmd.119.089508.

PubMedID: 31704714
PubMed Central ID: 
Paszek, M., & Tukey, R. H. (2020). NRF2-Independent Regulation of Intestinal Constitutive Androstane Receptor by the Pro-Oxidants Cadmium and Isothiocyanate in hUGT1 Mice. Drug metabolism and disposition: the biological fate of chemicals, 48(1), 25–30. https://doi.org/10.1124/dmd.119.089508
PubMedID: 31704714
PubMed Central ID: 
Paszek, M., & Tukey, R. H. (2020). NRF2-Independent Regulation of Intestinal Constitutive Androstane Receptor by the Pro-Oxidants Cadmium and Isothiocyanate in hUGT1 Mice. Drug metabolism and disposition: the biological fate of chemicals, 48(1), 25–30. https://doi.org/10.1124/dmd.119.089508
PubMedID: 31704714
PubMed Central ID: 

Bailey-Serres J, Parker JE, Ainsworth EA, Oldroyd GED, Schroeder JI. (2019) Genetic strategies for improving crop yields. Nature. Nov;575(7781):109-118. doi: 10.1038/s41586-019-1679-0

PubMedID: 31695205
PubMed Central ID: 

Cai, D., Wang, J., Gao, B., Li, J., Wu, F., Zou, J.X., Xu, J., Jiang, Y., Zou, H., Huang, Z., Borowsky, A.D., Bold, R.J., Lara, P.N., Li, J.J., Chen, X., Lam, K.S., To, K.F., Kung, H.J., Fiehn, O., Zhao, R., Evans, R.M., Chen, H.W. (2019) RORy is a targetable master regulator of cholesterol biosynthesis in a cancer subtype. Nat Commun. Oct 11;10(1):4621.
doi: 10.1038/s41467-019-12529-3

PubMedID: 31604910
PubMed Central ID: 
Cai D, Wang J, Gao B, Li J, Wu F, Zou JX, Xu J, Jiang Y, Zou H, Huang Z, Borowsky AD, Bold RJ, Lara PN, Li JJ, Chen X, Lam KS, To KF, Kung HJ, Fiehn O, Zhao R, Evans RM, Chen HW. RORγ is a targetable master regulator of cholesterol biosynthesis in a cancer subtype. Nat Commun. 2019 Oct 11;10(1):4621. doi: 10.1038/s41467-019-12529-3.
PubMedID: 31604910
PubMed Central ID: 

Pai, R.K., Kleiner, D.E., Hart, J., Adeyi, O.A., Clouston, A.D., Behling, C.A., Jain, D., Kakar, S., Brahmania, M., Burgart, L., Batts, K.P., Valasek, M.A., Torbenson, M.S., Guindi, M., Wang, H.L., Ajmera, V., Adams, L.A., Parker, C.E., Feagan, B.G., Loomba, R., Jairath, V. (2019) Standardising the interpretation of liver biopsies in non-alcoholic fatty liver disease clinical trials. Aliment Pharmacol Ther. 50(10):1100-1111. doi: 10.1111/apt.15503. (https://onlinelibrary.wiley.com/doi/full/10.1111/apt.15503) Epub 2019 Oct 3.

PubMedID: 31583739
PubMed Central ID: 
Pai, R. K., Kleiner, D. E., Hart, J., Adeyi, O. A., Clouston, A. D., Behling, C. A., Jain, D., Kakar, S., Brahmania, M., Burgart, L., Batts, K. P., Valasek, M. A., Torbenson, M. S., Guindi, M., Wang, H. L., Ajmera, V., Adams, L. A., Parker, C. E., Feagan, B. G., Loomba, R., … Jairath, V. (2019). Standardising the interpretation of liver biopsies in non-alcoholic fatty liver disease clinical trials. Alimentary pharmacology & therapeutics, 50(10), 1100–1111. https://doi.org/10.1111/apt.15503
PubMedID: 31583739
PubMed Central ID: 

Ajmera VH, Liu A, Singh S, Yachoa G, Ramey M, Bhargava M, Zamani A, Lopez S, Mangla N, Bettencourt R, Rizo E, Valasek M, Behling C, Richards L, Sirlin C, Loomba R. (2019) Clinical utility of an increase in magnetic resonance elastography in predicting fibrosis progression in NAFLD. Hepatology. Sep 25. doi: 10.1002/hep.30974


PubMedID: 31556124
PubMed Central ID: 
Ajmera, V. H., Liu, A., Singh, S., Yachoa, G., Ramey, M., Bhargava, M., Zamani, A., Lopez, S., Mangla, N., Bettencourt, R., Rizo, E., Valasek, M., Behling, C., Richards, L., Sirlin, C., & Loomba, R. (2020). Clinical Utility of an Increase in Magnetic Resonance Elastography in Predicting Fibrosis Progression in Nonalcoholic Fatty Liver Disease. Hepatology (Baltimore, Md.), 71(3), 849–860. https://doi.org/10.1002/hep.30974
PubMedID: 31556124
PubMed Central ID: 

Loomba, R., Adams, L.A. (2019) The 20% Rule of NASH Progression: The Natural History of Advanced Fibrosis and Cirrhosis Caused by NASH. Hepatology. Dec;70(6):1885-1888.  doi: 10.1002/hep.30946

PubMedID: 31520407
PubMed Central ID: 
Loomba, R., & Adams, L. A. (2019). The 20% Rule of NASH Progression: The Natural History of Advanced Fibrosis and Cirrhosis Caused by NASH. Hepatology (Baltimore, Md.), 70(6), 1885–1888. https://doi.org/10.1002/hep.30946
PubMedID: 31520407
PubMed Central ID: 
Loomba, R., Seguritan, V., Li, W., Long, T., Klitgord, N., Bhatt, A., Dulai, P. S., Caussy, C., Bettencourt, R., Highlander, S. K., Jones, M. B., Sirlin, C. B., Schnabl, B., Brinkac, L., Schork, N., Chen, C. H., Brenner, D. A., Biggs, W., Yooseph, S., Venter, J. C., … Nelson, K. E. (2019). Gut Microbiome-Based Metagenomic Signature for Non-invasive Detection of Advanced Fibrosis in Human Nonalcoholic Fatty Liver Disease. Cell metabolism, 30(3), 607. https://doi.org/10.1016/j.cmet.2019.08.002
PubMedID: 31484056
PubMed Central ID: 

Chang, C., Loo, C.S., Zhao, X., Solt, L.A., Liang, Y., Bapat, S.P., Cho, H., Kamenecka, T.M., Leblanc, M., Atkins, A.R., Yu, R.T., Downes, M., Burris, T.P., Evans, R.M., Zheng, Y. (2019) The nuclear receptor REV-ERBα modulates Th17 cell-mediated autoimmune disease. Proc Natl Acad Sci U S A. Sep 10;116(37):18528-18536. doi: 10.1073/pnas.1907563116.

PubMedID: 31455731

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