Your search keyword '"Tan, Xiao-Di"' showing total 25 results

1. A novel mouse model of hepatocyte-specific apoptosis-induced myeloid cell-dominant sterile liver injury and repair response.

Author

Bu, Heng-Fu, Subramanian, Saravanan, Chou, Pauline M., Liu, Fangyi, Sun, Leyu, Geng, Hua, Wang, Xiao, Liao, Jie, Du, Chao, Hu, Joyce, Tan, Stephanie C., Nathan, Nirmal, Yang, Guang-Yu, and Tan, Xiao-Di

Subjects

MYELOID cells, LIVER cells, LIVER regeneration, HEPATITIS, WOUND healing

Abstract

Apoptosis, inflammation, and wound healing are critical pathophysiological events associated with various liver diseases. Currently, there is a lack of in vivo approaches to study hepatocyte apoptosis-induced liver injury and repair. To address this critical knowledge gap, we developed a unique genetically modified mouse model, namely, 3-Transgene (Tg) with inducible Hepatocyte-Specific Apoptosis Phenotype (3xTg-iHAP) in this study. The 3xTg-iHAP mice possess three transgenes including Alb-Cre, Rosa26-rtTA, and tetO-Fasl on a B6 background. These mice are phenotypically normal, viable, and fertile. After subcutaneous administration of a single dose of doxycycline (5 mg/kg, Dox) to 3xTg-iHAP mice, we observed a complete histological spectrum of sterile liver wound-healing responses: asymptomatic hepatocyte apoptosis at 8 h, necrotic liver injury and sterile inflammation at 48 h, followed by hepatocyte mitosis and regeneration within 7 days. During the injury phase, the mice exhibited an increase in the biomarkers of alanine aminotransferase (ALT), chemokine (C-X-C motif) ligand 1 (CXCL1), and IL-6 in peripheral blood, as well as α-smooth muscle actin (α-SMA) protein in liver tissues. Conversely, the mice displayed a decrease in these markers in the recovery phase. Remarkably, this model shows that the sterile liver injury following elevated hepatocyte apoptosis is associated with an increase in myeloid cells in the liver. Within 7 days post-Dox administration, the liver of Dox-treated 3xTg-iHAP mice displays a normal histological structure, indicating the completion of wound healing. Together, we established a novel mouse model of injury and regeneration induced by hepatocyte apoptosis. This tool provides a robust in vivo platform for studying the pathophysiology of sterile liver inflammation, regeneration, and new therapeutic interventions for liver diseases. NEW & NOTEWORTHY: Bu et al. present a triple-transgenic mouse model, namely, 3xTg-iHAP mice that are engineered to explore hepatocyte apoptosis-triggered sterile liver injury and regeneration. This model demonstrates a full spectrum of liver wound-healing responses from asymptomatic apoptosis to injury, myeloid cell-dominant sterile inflammation, and repair after induction of hepatocyte-specific apoptosis. The robust nature of this model makes it an invaluable in vivo tool for studying sterile liver inflammation, regeneration, and new therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

2. B Cell Lymphocytosis in Juvenile Dermatomyositis.

Author

Costin, Christopher, Khojah, Amer, Ochfeld, Elisa, Morgan, Gabrielle, Subramanian, Saravanan, Klein-Gitelman, Marisa, Tan, Xiao-Di, and Pachman, Lauren M.

Subjects

B cells, DERMATOMYOSITIS, LYMPHOCYTOSIS, INTERSTITIAL lung diseases

Abstract

In this study, we determined if B lymphocytosis may serve as a JDM biomarker for disease activity. Children with untreated JDM were divided into two groups based on age-adjusted B cell percentage (determined through flow cytometry): 90 JDM in the normal B cell group and 45 in the high B cell group. We compared through T-testing the age, sex, ethnicity, duration of untreated disease (DUD), disease activity scores for skin (sDAS), muscle (mDAS), total (tDAS), CMAS, and neopterin between these two groups. The patients in the high B cell group had a higher tDAS (p = 0.009), mDAS (p = 0.021), and neopterin (p = 0.0365). Secondary analyses included B cell values over time and BAFF levels in matched patients with JM (juvenile myositis) and concurrent interstitial lung disease (ILD); JM alone and healthy controls Patient B cell percentage and number was significantly higher after 3–6 months of therapy and then significantly lower on completion of therapy (p =< 0.0001). The JM groups had higher BAFF levels than controls 1304 vs. 692 ng/mL (p = 0.0124). This study supports B cell lymphocytosis as a JDM disease-activity biomarker and bolsters the basis for B cell-directed therapies in JDM. [ABSTRACT FROM AUTHOR]

Published

2023

3. The expression and function of growth hormone secretagogue receptor in immune cells: A current perspective.

Author

Noh, Ji Yeon, Herrera, Matthew, Patil, Bhimanagouda S, Tan, Xiao-Di, Wright, Gus A, and Sun, Yuxiang

Published

2022

4. Macrophage-derived IGF-1 protects the neonatal intestine against necrotizing enterocolitis by promoting microvascular development.

Author

Yan, Xiaocai, Managlia, Elizabeth, Zhao, You-Yang, Tan, Xiao-Di, and De Plaen, Isabelle G.

Subjects

ENTEROCOLITIS, PREMATURE infants, INTESTINES, INTESTINAL diseases, PERINATAL period, ENDOTHELIAL cells

Abstract

Necrotizing enterocolitis (NEC) is a deadly bowel necrotic disease of premature infants. Low levels of plasma IGF-1 predispose premature infants to NEC. While increasing evidence suggests that defective perinatal intestinal microvascular development plays a role in NEC, the involved mechanism remains incompletely understood. We report here that serum and intestinal IGF-1 are developmentally regulated during the perinatal period in mice and decrease during experimental NEC. Neonatal intestinal macrophages produce IGF-1 and promote endothelial cell sprouting in vitro via IGF-1 signaling. In vivo, in the neonatal intestine, macrophage-derived IGF-1 promotes VEGF expression and endothelial cell proliferation and protects against experimental NEC. Exogenous IGF-1 preserves intestinal microvascular density and protects against experimental NEC. In human NEC tissues, villous endothelial cell proliferation and IGF-1- producing macrophages are decreased compared to controls. Together, our results suggest that defective IGF-1-production by neonatal macrophages impairs neonatal intestinal microvascular development and predisposes the intestine to necrotizing enterocolitis. This study highlights the impact of macrophage-derived IGF-1 on the microvascular development in the neonatal intestine and a resulting protective effect against necrotizing enterocolitis. [ABSTRACT FROM AUTHOR]

Published

2022

5. SARS-CoV-2 ORF8 Forms Intracellular Aggregates and Inhibits IFNγ-Induced Antiviral Gene Expression in Human Lung Epithelial Cells.

Author

Geng, Hua, Subramanian, Saravanan, Wu, Longtao, Bu, Heng-Fu, Wang, Xiao, Du, Chao, De Plaen, Isabelle G., and Tan, Xiao-Di

Subjects

EPITHELIAL cells, SARS-CoV-2, COVID-19, GENE expression, N-terminal residues

Abstract

Infection with the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) causes COVID-19, a disease that involves significant lung tissue damage. How SARS-CoV-2 infection leads to lung injury remains elusive. The open reading frame 8 (ORF8) protein of SARS-CoV-2 (ORF8SARS-CoV-2) is a unique accessory protein, yet little is known about its cellular function. We examined the cellular distribution of ORF8SARS-CoV-2 and its role in the regulation of human lung epithelial cell proliferation and antiviral immunity. Using live imaging and immunofluorescent staining analyses, we found that ectopically expressed ORF8SARS-CoV-2 forms aggregates in the cytosol and nuclear compartments of lung epithelial cells. Using in silico bioinformatic analysis, we found that ORF8SARS-CoV-2 possesses an intrinsic aggregation characteristic at its N-terminal residues 1-18. Cell culture did not reveal any effects of ORF8SARS-CoV-2 expression on lung epithelial cell proliferation and cell cycle progression, suggesting that ORF8SARS-CoV-2 aggregates do not affect these cellular processes. Interestingly, ectopic expression of ORF8SARS-CoV-2 in lung epithelial cells suppressed basal expression of several antiviral molecules, including DHX58, ZBP1, MX1, and MX2. In addition, expression of ORF8SARS-CoV-2 attenuated the induction of antiviral molecules by IFNγ but not by IFNβ in lung epithelial cells. Taken together, ORF8SARS-CoV-2 is a unique viral accessory protein that forms aggregates when expressing in lung epithelial cells. It potently inhibits the expression of lung cellular anti-viral proteins at baseline and in response to IFNγ in lung epithelial cells, which may facilitate SARS-CoV-2 escape from the host antiviral innate immune response during early viral infection. In addition, it seems that formation of ORF8SARS-CoV-2 aggregate is independent from the viral infection. Thus, it would be interesting to examine whether any COVID-19 patients exhibit persistent ORF8 SARS-CoV-2 expression after recovering from SARS-CoV-2 infection. If so, the pathogenic effect of prolonged ORF8SARS-CoV-2 expression and its association with post-COVID symptoms warrant investigation in the future. [ABSTRACT FROM AUTHOR]

Published

2021

6. Author Correction: BDNF contributes to IBS-like colonic hypersensitivity via activating the enteroglia-nerve unit.

Author

Wang, Peng, Du, Chao, Chen, Fei-Xue, Li, Chang-Qing, Yu, Yan-Bo, Han, Ting, Akhtar, Suhail, Zuo, Xiu-Li, Tan, Xiao-Di, and Li, Yan-Qing

Subjects

BRAIN-derived neurotrophic factor, ALLERGIES

Abstract

(*, IBS-D FSN vs. control FSN in BDNF+/- mice; #, IBS-D FSN in BDNF+/+ mice vs. in BDNF+/- mice; †control FSN in BDNF+/+ mice vs. in BDNF+/- mice). (B) TrkB/Fc significantly suppressed the effect of IBS-D FSN at 30, 45 and 60 mmHg (*, IBS-D FSN vs. control; #, IBS-D FSN vs. [Extracted from the article]

Published

2021

7. BDNF contributes to IBS-like colonic hypersensitivity via activating the enteroglia-nerve unit.

Author

Wang, Peng, Du, Chao, Chen, Fei-Xue, Li, Chang-Qing, Yu, Yan-Bo, Han, Ting, Akhtar, Suhail, Zuo, Xiu-Li, Tan, Xiao-Di, and Li, Yan-Qing

Subjects

GLIAL fibrillary acidic protein, BRAIN-derived neurotrophic factor, VISCERAL pain, SUBSTANCE P receptors, IRRITABLE colon, SUBSTANCE P

Abstract

The over-expressed colonic brain-derived neurotrophic factor (BDNF) has been reported to be associated with abdominal pain in patients with irritable bowel syndrome (IBS). However, the neuropathological mechanism is unclear. We here investigated the involvement of enteroglial cells (EGCs) and enteric nerves in IBS-like visceral hypersensitivity. We showed that glial fibrillary acidic protein (GFAP), tyrosine receptor kinase B (TrkB) and substance P (SP) were significantly increased in the colonic mucosa of IBS patients. The upregulation of those proteins was also observed in the colon of mice with visceral hypersensitivity, but not in the colon of BDNF+/− mice. Functionally, TrkB or EGC inhibitors, or BDNF knockdown significantly suppressed visceral hypersensitivity in mice. Using the EGC cell line, we found that recombinant human BDNF (r-HuBDNF) could directly activate EGCs via the TrkB-phospholipase Cγ1 pathway, thereby inducing a significant upregulation of SP. Moreover, supernatants from r-HuBDNF-activated EGC culture medium, rather than r-HuBDNF alone, triggered markedly augmented discharges in isolated intestinal mesenteric afferent nerves. r-HuBDNF alone could cause mesenteric afferent mechanical hypersensitivity independently and this effect was synergistically enhanced by activated EGCs. We conclude that EGC-enteric nerve unit may be involved in IBS-like visceral hypersensitivity and this process is likely initiated by BDNF-TrkB pathway activation. [ABSTRACT FROM AUTHOR]

Published

2016

8. Can Rodent Model of Acetic Acid-Induced Colitis be Used to Study the Pathogenesis of Colitis-Associated Intestinal Fibrosis?

Author

Subramanian, Saravanan, Du, Chao, and Tan, Xiao-Di

Subjects

COLITIS, INFLAMMATORY bowel diseases, FIBROSIS, RODENTS, INTESTINES, PATHOGENESIS

Abstract

Emerging evidence indicates a need for improved experimental colitis models related to bowel inflammation and fibrosis in order to expand our understanding of various pathophysiological aspects in human IBD [[6]]. The TNBS-induced model displays T-cell dependent colonic inflammation that results in Th1 to Th2 cytokine switch-mediated fibrosis [[8]], while DSS-induced colonic inflammation and its associated fibrosis are observed in T cell and B cell-deficient mice [[10]]. [Extracted from the article]

Published

2022

9. Role of MFG-E8 in Protection of Intestinal Epithelial Barrier Function and Attenuation of Intestinal Inflammation.

Author

Akhtar, Suhail, Wang, Xiao, Bu, Heng-Fu, and Tan, Xiao-Di

Published

2014

10. Molecular Mechanisms Underlying the Regulation of the MFG-E8 Gene Promoter Activity in Physiological and Inflammatory Conditions.

Author

Wang, Xiao, Bu, Heng ‐ Fu, Liu, Shirley XL, De Plaen, Isabelle G., and Tan, Xiao ‐ Di

Published

2015

11. Intestinal Vascular Endothelial Growth Factor Is Decreased in Necrotizing Enterocolitis.

Author

Sabnis, animesh, Carrasco, Rosa, Liu, Shirley X.L., Yan, Xiaocai, Managlia, Elizabeth, Chou, Pauline M., Tan, Xiao-Di, and De Plaen, Isabelle G.

Subjects

ENDOTHELIAL growth factors, NEONATAL necrotizing enterocolitis, VASCULAR endothelial growth factors, LABORATORY mice, VACCINATION, HYPOXEMIA, EPITHELIAL cells

Abstract

Background: Decreased intestinal perfusion may contribute to the development of necrotizing enterocolitis (NEC). Vascular endothelial growth factor (VEGF) is an angiogenic protein necessary for the development and maintenance of capillary networks. Whether VEGF is dysregulated in NEC remains unknown. Objectives: The objective of this study was to determine whether intestinal VEGF expression is altered in a neonatal mouse model of NEC and in human NEC patients. Methods: We first assessed changes of intestinal VEGF mRNA and protein in a neonatal mouse NEC model before significant injury occurs. We then examined whether exposure to formula feeding, bacterial inoculation, cold stress and/or intermittent hypoxia affected intestinal VEGF expression. Last, we visualized VEGF protein in intestinal tissues of murine and human NEC and control cases by immunohistochemistry. Results: Intestinal VEGF protein and mRNA were significantly decreased in pups exposed to the NEC protocol compared to controls. Hypoxia, cold stress and commensal bacteria, when administered together, significantly downregulated intestinal VEGF expression, while they had no significant effect when given alone. VEGF was localized to a few single intestinal epithelial cells and some cells of the lamina propria and myenteric plexus. VEGF staining was decreased in murine and human NEC intestines when compared to control tissues. Conclusion: Intestinal VEGF protein is reduced in human and experimental NEC. Decreased VEGF production might contribute to NEC pathogenesis. © 2015 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2015

12. FOXM1 Promotes Intestinal Vascular Endothelial Cell Proliferation and Protects Neonatal Mice against Necrotizing Enterocolitis.

Author

Yan, Xiaocai, Managlia, Elizabeth, Zhao, You‐Yang, Tan, Xiao‐Di, and De Plaen, Isabelle G.

Published

2022

13. Hyperglycemia and Obesity Play a Different Role in the Pathogenesis of Colitis in Diabetic Mice.

Author

Bu, Heng‐Fu, Subramanian, Saravanan, Geng, Hua, Wang, Xiao, Du, Chao, and Tan, Xiao‐Di

Published

2022

14. Anti‐CD3 mAb Induced Necrotizing Enterocolitis in Formula‐Fed Neonatal Mice through a Gut Microbiome Colonization Dependent Mechanism.

Author

Subramanian, Saravanan, Geng, Hua, Du, Chao, Chou, Pauline M., Bu, Heng‐Fu, Wang, Xiao, De Plaen, Isabelle G., and Tan, Xiao‐Di

Published

2022

15. Luminal-Applied Flagellin Is Internalized by Polarized Intestinal Epithelial Cells and Elicits Immune Responses via the TLR5 Dependent Mechanism.

Author

Eaves-Pyles, Tonyia, Bu, Heng-Fu, Tan, Xiao-di, Cong, Yingzi, Patel, Jignesh, Davey, Robert A., and Strasser, Jane E.

Subjects

FLAGELLIN, EPITHELIAL cells, IMMUNE response, TOLL-like receptors, DEPENDENTS, CARBOXYL group, INTERLEUKIN-8, LYSOSOMES

Abstract

Bacteria release flagellin that elicits innate responses via Toll-like receptor 5 (TLR5). Here, we investigated the fate of apically administrated full length flagellin from virulent and avirulent bacteria, along with truncated recombinant flagellin proteins in intestinal epithelial cells and cellular responses. Flagellin was internalized by intestinal epithelial cell (IEC) monolayers of IEC-18. Additionally, apically applied flagellin was internalized by polarized human Caco-2BBe and T-84 cells in a TLR5 dependent mechanism. More, flagellin exposure did not affect the integrity of intestinal monolayers. With immunofluorescent staining, internalized flagellin was detected in both early endosomes as well as lysosomes. We found that apical exposure of polarized Caco-2BBe and T-84 to flagellin from purified Salmonella, Escherichia coli O83:H1 (isolate from Crohn's lesion) or avirulent E. coli K12 induced comparable levels of basolateral IL-8 secretion. A recombinant protein representing the conserved amino (N) and carboxyl (C) domains (D) of the flagellin protein (ND1/2ECHCD2/1) induced IL-8 secretion from IEC similar to levels elicited by full-length flagellins. However, a recombinant flagellin protein containing only the D3 hypervariable region elicited no IL-8 secretion in both cell lines compared to un-stimulated controls. Silencing or blocking TLR5 in Caco-2BBe cells resulted in a lack of flagellin internalization and decreased IL-8 secretion. Furthermore, apical exposure to flagellin stimulated transepithelial migration of neutrophils and dendritic cells. The novel findings in this study show that luminal-applied flagellin is internalized by normal IEC via TLR5 and co-localizes to endosomal and lysosomal compartments where it is likely degraded as flagellin was not detected on the basolateral side of IEC cultures. [ABSTRACT FROM AUTHOR]

Published

2011

16. Novel Role of Ghrelin Receptor in Gut Dysbiosis and Experimental Colitis in Aging.

Author

Noh, Ji Yeon, Wu, Chia-Shan, DeLuca, Jennifer A. A., Devaraj, Sridevi, Jayaraman, Arul, Alaniz, Robert C., Tan, Xiao-Di, Allred, Clinton D., and Sun, Yuxiang

Subjects

GUT microbiome, INFLAMMATORY bowel diseases, GHRELIN receptors, COLITIS, DYSBIOSIS

Abstract

Chronic low-grade inflammation is a hallmark of aging, which is now coined as inflamm-aging. Inflamm-aging contributes to many age-associated diseases such as obesity, type 2 diabetes, cardiovascular disease, and inflammatory bowel disease (IBD). We have shown that gut hormone ghrelin, via its receptor growth hormone secretagogue receptor (GHS-R), regulates energy metabolism and inflammation in aging. Emerging evidence suggests that gut microbiome has a critical role in intestinal immunity of the host. To determine whether microbiome is an integral driving force of GHS-R mediated immune-metabolic homeostasis in aging, we assessed the gut microbiome profiles of young and old GHS-R global knockout (KO) mice. While young GHS-R KO mice showed marginal changes in Bacteroidetes and Firmicutes, aged GHS-R KO mice exhibited reduced Bacteroidetes and increased Firmicutes, featuring a disease-susceptible microbiome profile. To further study the role of GHS-R in intestinal inflammation in aging, we induced acute colitis in young and aged GHS-R KO mice using dextran sulfate sodium (DSS). The GHS-R KO mice showed more severe disease activity scores, higher proinflammatory cytokine expression, and decreased expression of tight junction markers. These results suggest that GHS-R plays an important role in microbiome homeostasis and gut inflammation during aging; GHS-R suppression exacerbates intestinal inflammation in aging and increases vulnerability to colitis. Collectively, our finding reveals for the first time that GHS-R is an important regulator of intestinal health in aging; targeting GHS-R may present a novel therapeutic strategy for prevention/treatment of aging leaky gut and inflammatory bowel disease. [ABSTRACT FROM AUTHOR]

Published

2022

17. Endotoxin, but not platelet-activating factor, activates nuclear factor-κB and increases IκBα and IκBβ turnover in enterocytes.

Author

de Plaen, Isabelle G., Qu, Xiao-Wu, Wang, Hao, Tan, Xiao-Di, Wang, Liya, Han, Xin-Bing, Rozenfeld, Ranna A., and Hsueh, Wei

Subjects

ENDOTOXINS, INTESTINAL diseases, NF-kappa B

Abstract

Summary Bacterial endotoxin (lipopolysaccharide; LPS) and platelet-activating factor (PAF) are important triggers of bowel inflammation and injury. We have previously shown that LPS activates the transcription factor nuclear factor (NF)-κB in the intestine, which up-regulates many pro-inflammatory genes. This effect partly depends on neutrophils and endogenous PAF. However, whether LPS and PAF directly activate NF-κB in enterocytes remains controversial. In this study, we first investigated the effect of LPS and PAF on NF-κB activation in IEC-6 (a non-transformed rat small intestinal crypt cell line) cells, by electrophoresis mobility shift assay and supershift, and found that LPS, but not PAF, activates NF-κB mostly as p50–p65 heterodimers. The effect was slower than tumour necrosis factor (TNF). Both LPS and TNF induce the expression of the NF-κB-dependent gene inducible nitric oxide synthase (iNOS), which occurs subsequent to NF-κB activation. We then examined the effect of LPS and TNF on the inhibitory molecules IκBα and IκBβ. We found that TNF causes rapid degradation of IκBα and IκBβ. In contrast, LPS did not change the levels of IκBα and IκBβ up to 4 hr (by Western blot). However, in the presence of cycloheximide, there was a slow reduction of IκBα and IκBβ, which disappeared almost completely at 4 hr. These observations suggest that LPS causes slow degradation and synthesis of IκBα and IκBβ and therefore activates NF-κΒ via at least two mechanisms: initially, through an IκB-independent mechanism, and later, via an increased turnover of the inhibitor IκB. NF-κΒ activation precedes the gene expression of iNOS (assayed by reverse transcription–polymerase chain reaction), suggesting that LPS up-regulates iNOS via this transcription factor. [ABSTRACT FROM AUTHOR]

Published

2002

18. Platelet-activating factor increases mucosal permeability in rat intestine via tyrosine phosphorylation of E-cadherin.

Author

Tan, Xiao-Di, Chang, Hong, Qu, Xiao-Wu, Caplan, Michael, Gonzalez-Crussi, Frank, Hsueh, Wei, Tan, X D, Chang, H, Qu, X W, Caplan, M, Gonzalez-Crussi, F, and Hsueh, W

Published

2000

19. Lipopolysaccharide activates nuclear factor κB in rat intestine: role of endogenous platelet-activating factor and tumour necrosis factor.

Author

De Plaen, Isabelle G, Tan, Xiao-Di, Chang, Hong, Wang, Liya, Remick, Daniel G, and Hsueh, Wei

Published

2000

20. Primary hepatic neuroendocrine carcinoma in a child. Morphologic, immunocytochemical, and molecular biologic studies.

Author

Hsueh, Chuen, Tan, Xiao-Di, Gonzalez-Crussi, F., Hsueh, C, and Tan, X D

Published

1993

21. Neonatal Intestinal Macrophages Promote Microvascular Development through an IGF‐1‐dependent Mechanism and Lack of Macrophage‐derived IGF‐1 Predisposes Newborn Mice to Necrotizing Enterocolitis.

Author

Yan, Xiaocai, Managlia, Elizabeth, Tan, Xiao‐di, and De Plaen, Isabelle

Published

2021

22. MFG-E8 Plays an Important Role in Attenuating Cerulein-Induced Acute Pancreatitis in Mice.

Author

Bu, Heng-Fu, Subramanian, Saravanan, Geng, Hua, Wang, Xiao, Liu, Fangyi, Chou, Pauline M., Du, Chao, De Plaen, Isabelle G., Tan, Xiao-Di, Kalyuzhny, Alexander E., and Basson, Marc

Subjects

PANCREATITIS, MILKFAT, PANCREATIC enzymes, IN situ hybridization, MICE, ENDOTHELIAL cells

Abstract

Milk fat globule-EGF factor 8 (MFG-E8) is a secreted glycoprotein that regulates tissue homeostasis, possesses potent anti-inflammatory properties, and protects against tissue injury. The human pancreas expresses MFG-E8; however, the role of MFG-E8 in the pancreas remains unclear. We examined the expression of MFG-E8 in the pancreas at baseline and during cerulein-induced acute pancreatitis in mice and determined whether MFG-E8 attenuates the progression of pancreatitis, a serious inflammatory condition that can be life-threatening. We administered cerulein to wild-type (WT) and Mfge8 knockout (KO) mice to induce pancreatitis. Immunoblot analysis showed that MFG-E8 is constitutively expressed in the murine pancreas and is increased in mice with cerulein-induced acute pancreatitis. In situ hybridization revealed that ductal epithelial cells in the mouse pancreas express Mfge8 transcripts at baseline. During pancreatitis, Mfge8 transcripts were abundantly expressed in acinar cells and endothelial cells in addition to ductal epithelial cells. Knocking out Mfge8 in mice exacerbated the severity of cerulein-induced acute pancreatitis and delayed its resolution. In contrast, administration of recombinant MFG-E8 attenuated cerulein-induced acute pancreatitis and promoted repair of pancreatic injury in Mfge8 KO mice. Taken together, our study suggests that MFG-E8 protects the pancreas against inflammatory injury and promotes pancreatic tissue repair. MFG-E8 may represent a novel therapeutic target in acute pancreatitis. [ABSTRACT FROM AUTHOR]

Published

2021

23. Spherical nucleic acid targeting microRNA-99b enhances intestinal MFG-E8 gene expression and restores enterocyte migration in lipopolysaccharide-induced septic mice.

Author

Wang, Xiao, Hao, Liangliang, Bu, Heng-Fu, Scott, Alexander W., Tian, Ke, Liu, Fangyi, De Plaen, Isabelle G., Liu, Yulan, Mirkin, Chad A., and Tan, Xiao-Di

Published

2016

24. BDNF contributes to IBS-like colonic hypersensitivity via activating the enteroglia-nerve unit.

Author

Wang, Peng, Du, Chao, Chen, Fei-Xue, Li, Chang-Qing, Yu, Yan-Bo, Han, Ting, Akhtar, Suhail, Zuo, Xiu-Li, Tan, Xiao-Di, and Li, Yan-Qing

Published

2016

25. Neonatal Necrotizing Enterocolitis: Clinical Considerations and Pathogenetic Concepts.

Author

Hsueh, Wei, Caplan, Michael S., Qu, Xiao-Wu, Tan, Xiao-Di, De Plaen, Isabelle G., and Gonzalez-Crussi, F.

Subjects

PREMATURE infants, NEONATAL diseases, NEONATAL intensive care, INFANT mortality, HYPOXEMIA, ENDOTOXINS

Abstract

Necrotizing enterocolitis (NEC), a disease affecting predominantly premature infants, is a leading cause of morbidity and mortality in neonatal intensive care units. Although several predisposing factors have been identified, such as prematurity, enteral feeding, and infection, its pathogenesis remains elusive. In the past 20 years, we have established several animal models of NEC in rats and found several endogenous mediators, especially platelet-activating factor (PAF), which may play a pivotal role in NEC. Injection of PAF induces intestinal necrosis, and PAF antagonists prevent the bowel injury induced by bacterial endotoxin, hypoxia, or challenge with tumor necrosis factor-a (TNF) plus endotoxin in adult rats. The same is true for lesions induced by hypoxia and enteral feeding in neonatal animals. Human patients with NEC show high levels of PAF and decreased plasma PAF-acetylhydrolase, the enzyme degrading PAF. The initial event in our experimental models of NEC is probably polymorphonuclear leukocyte (PMN) activation and adhesion to venules in the intestine, which initiates a local inflammatory reaction involving proinflammatory mediators including TNF, complement, prostaglandins, and leukotriene C4. Subsequent norepinephrine release and mesenteric vasoconstriction result in splanchnic ischemia and reperfusion. Bacterial products (e.g., endotoxin) enter the intestinal tissue during local mucosal barrier breakdown, and endotoxin synergizes with PAF to amplify the inflammation. Reactive oxygen species produced by the activated leukocytes and by intestinal epithelial xanthine oxidase may be the final pathway for tissue injury. Protective mechanisms include nitric oxide produced by the constitutive (mainly neuronal) nitric oxide synthase, and indigenous probiotics such as Bifidobacteria infantis. The former maintains intestinal perfusion and the integrity of the mucosal barrier, and the latter keep virulent bacteria in check. The development of tissue injury depends on the balance between injurious and protective mechanisms. [ABSTRACT FROM AUTHOR]

Published

2003