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6. FOXO inhibition rescues α-defensin expression in human intestinal organoids.

Author

Eng, Serena J., Nonnecke, Eric B., de Lorimier, Arthur J., Ali, Mohamed R., Tsolis, Renée M., Bevins, Charles L., and Ashwood, Paul

Subjects
*GENE expression, *WNT signal transduction, *ORGANOIDS, *INTESTINES, *SMALL intestine
Abstract

To mediate critical host-microbe interactions in the human small intestine, Paneth cells constitutively produce abundant levels of a-defensins and other antimicrobials. We report that the expression profile of these antimicrobials is dramatically askew in human small intestinal organoids (enteroids) as compared to that in paired tissue from which they are derived, with a reduction of α-defensins to nearly undetectable levels. Murine enteroids, however, recapitulate the expression profile of Paneth cell α-defensins seen in tissue. WNT/TCF signaling has been found to be instrumental in the regulation of α-defensins, yet in human enteroids exogenous stimulation of WNT signaling appears insufficient to rescue α-defensin expression. By stark contrast, forkhead box O (FOXO) inhibitor AS1842856 induced the expression of α-defensin mRNA in enteroids by >100,000-fold, restoring DEFA5 and DEFA6 to levels comparable to those found in primary human tissue. These results newly identify FOXO signaling as a pathway of biological and potentially therapeutic relevance for the regulation of human Paneth cell α-defensins in health and disease. [ABSTRACT FROM AUTHOR]

Published
2023
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7. Characterization of an intelectin-1 (Itln1) knockout mouse model

Author

Nonnecke, Eric B., Castillo, Patricia A., Akahoshi, Douglas T., Goley, Stephanie M., Bevins, Charles L., and Lönnerdal, Bo

Subjects
Knockout, IBD, Lieberkuhn, Immunology, Inbred C57BL, GPI-Linked Proteins, Cardiovascular, Autoimmune Disease, Oral and gastrointestinal, Lieberkühn, Mice, Lectins, Genetics, Animals, Humans, 2.1 Biological and endogenous factors, Immunology and Allergy, Obesity, tm1a, Aetiology, innate immunity, Metabolic and endocrine, Nutrition, Cancer, omentin, adipokine, Animal, Prevention, Inflammatory Bowel Disease, Colitis, Stroke, Medical Microbiology, Disease Models, Cytokines, lectin, mucosal immunity, Digestive Diseases, Genome-Wide Association Study, Biotechnology
Abstract

Intelectins are carbohydrate-binding proteins implicated in innate immunity and highly conserved across chordate evolution, including both ascidians and humans. Human intelectin-1 (ITLN1) is highly abundant within the intestinal mucosa and binds microbial but not host glycans. Genome-wide association studies identified SNPs in ITLN1 that are linked to susceptibility for Crohn’s disease. Moreover, ITLN1 has been implicated in the pathophysiology of obesity and associated metabolic disease. To gain insight on biological activities of human ITLN1 in vivo, we developed a C57BL/6 mouse model genetically targeting the gene encoding the functional mouse ortholog. In wild-type C57BL/6 mice, both mRNA and protein analysis showed high expression of Itln1 in the small intestine, but manifold lower levels in colon and other extraintestinal tissues. Whereas intestinal expression of human ITLN1 localizes to goblet cells, our data confirm that mouse Itln1 is expressed in Paneth cells. Compared to wild-type littermate controls, mice homozygous for the Itln1 hypomorphic trapping allele had reduced expression levels of Itln1 expression (~10,000-fold). The knockout mice exhibited increased susceptibility in an acute model of experimentally induced colitis with 2% w/v dextran sulfate sodium (DSS). In a model of chronic colitis using a lower dose of DSS (1.5% w/v), which enabled a detailed view of disease activity across a protracted period, no differences were observed in body weight, fecal texture, hemoccult scores, food/water intake, or colon length at necropsy, but there was a statistically significant genotype over time effect for the combined fecal scores of disease activity. In model of diet-induced obesity, using two western-style diets, which varied in amounts of sugar (as sucrose) and saturated fat (as lard), mice with Itln1 expression ablated showed no increased susceptibility, in terms of weight gain, food intake, plasma markers of obesity compared to wildtype littermates. While the mouse genetic knockout model for Itln1 holds promise for elucidating physiological function(s) for mammalian intelectins, results reported here suggest that Itln1, a Paneth cell product in C57BL/6 mice, likely plays a minor role in the pathophysiology of chemically induced colitis or diet-induced obesity.

Published
2022
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8. Trace Element Interactions, Inflammatory Signaling, and Male Sex Implicated in Reduced Growth Following Excess Oral Iron Supplementation in Pre-Weanling Rats.

Author

McMillen, Shasta A., Nonnecke, Eric B., and Lönnerdal, Bo

Abstract

Iron supplements are frequently provided to infants in high-income countries despite low incidence of iron deficiency. There is growing concern regarding adverse health and development outcomes of excess iron provision in early life. Excess iron may directly damage developing organs through the formation of reactive oxygen species, alter systemic inflammatory signaling, and/or dysregulate trace mineral metabolism. To better characterize the in vivo effects of excess iron on development, we utilized a pre-weanling rat pup model. Lewis rat litters were culled to eight pups (four males and four females) and randomly assigned to daily supplementation groups receiving either vehicle control (CON; 10% w/v sucrose solution) or ferrous sulfate (FS) iron at one of the following doses: 10, 30, or 90 mg iron/kg body weight—FS-10, FS-30, and FS-90, respectively—from postnatal day (PD) 2 through 9. FS-90 litters, but not FS-30 or FS-10, failed to thrive compared to CON litters and had smaller brains on PD 10. Among the groups, FS-90 liver iron levels were highest, as were white blood cell counts. Compared to CON, circulating MCP-1 and liver zinc were increased in FS-90 pups, whereas liver copper was decreased. Growth defects due to excess FS provision in pre-weanling rats may be related to liver injury, inflammation, and altered trace mineral metabolism. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Human intelectin‐2 (ITLN2) is selectively expressed by secretory Paneth cells.

Author

Nonnecke, Eric B., Castillo, Patricia A., Johansson, Malin E. V., Hollox, Edward J., Shen, Bo, Lönnerdal, Bo, and Bevins, Charles L.

Abstract

Intelectins (intestinal lectins) are highly conserved across chordate evolution and have been implicated in various human diseases, including Crohn's disease (CD). The human genome encodes two intelectin genes, intelectin‐1 (ITLN1) and intelectin‐2 (ITLN2). Other than its high sequence similarity with ITLN1, little is known about ITLN2. To address this void in knowledge, we report that ITLN2 exhibits discrete, yet notable differences from ITLN1 in primary structure, including a unique amino terminus, as well as changes in amino acid residues associated with the glycan‐binding activity of ITLN1. We identified that ITLN2 is a highly abundant Paneth cell‐specific product, which localizes to secretory granules, and is expressed as a multimeric protein in the small intestine. In surgical specimens of ileal CD, ITLN2 mRNA levels were reduced approximately five‐fold compared to control specimens. The ileal expression of ITLN2 was unaffected by previously reported disease‐associated variants in ITLN2 and CD‐associated variants in neighboring ITLN1 as well as NOD2 and ATG16L1. ITLN2 mRNA expression was undetectable in control colon tissue; however, in both ulcerative colitis (UC) and colonic CD, metaplastic Paneth cells were found to express ITLN2. Together, the data reported establish the groundwork for understanding ITLN2 function(s) in the intestine, including its possible role in CD. [ABSTRACT FROM AUTHOR]

Published
2022
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10. Tu1174 NOVEL ELISAS FOR INTRALUMINAL MARKERS COULD DIFFERENTIATE INTESTINAL TRANSPLANT REJECTION FROM INTESTINAL INFECTION AND OTHER FORMS OF INFLAMMATION.

Author

Hong, Julie S., Shamim, Abrar, Atta, Hussein, Nonnecke, Eric B., Merl, Sarah, Patwardhan, Satyajit, Jordache, Philip, Chen, Bryan, Almesallmy, Ahmed, Gunes, Esad, Manell, Elin, Chauhan, Ishit, Muntnich, Constanza Bay, Rey, Adriana Prada, Lu, Wuyuan, Shen, Bo, Dionigi, Beatrice, Kiran, Ravi P., Kato, Tomoaki, and Martinez, Mercedes

Published
2024
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11. T-cell derived acetylcholine aids host defenses during enteric bacterial infection with Citrobacter rodentium.

Author

Ramirez, Valerie T., Godinez, Dayn Romero, Brust-Mascher, Ingrid, Nonnecke, Eric B., Castillo, Patricia A., Gardner, Mariana Barboza, Tu, Diane, Sladek, Jessica A., Miller, Elaine Nicole, Lebrilla, Carlito B., Bevins, Charles L., Gareau, Melanie G., and Reardon, Colin

Subjects
T cells, ACETYLCHOLINE, BACTERIAL diseases, NEUROTRANSMITTERS, NITRIC-oxide synthases
Abstract

The regulation of mucosal immune function is critical to host protection from enteric pathogens but is incompletely understood. The nervous system and the neurotransmitter acetylcholine play an integral part in host defense against enteric bacterial pathogens. Here we report that acetylcholine producing-T-cells, as a non-neuronal source of ACh, were recruited to the colon during infection with the mouse pathogen Citrobacter rodentium. These ChAT+ T-cells did not exclusively belong to one Th subset and were able to produce IFNγ, IL-17A and IL-22. To interrogate the possible protective effect of acetylcholine released from these cells during enteric infection, T-cells were rendered deficient in their ability to produce acetylcholine through a conditional gene knockout approach. Significantly increased C. rodentium burden was observed in the colon from conditional KO (cKO) compared to WT mice at 10 days post-infection. This increased bacterial burden in cKO mice was associated with increased expression of the cytokines IL-1β, IL-6, and TNFα, but without significant changes in T-cell and ILC associated IL-17A, IL-22, and IFNγ, or epithelial expression of antimicrobial peptides, compared to WT mice. Despite the increased expression of pro-inflammatory cytokines during C. rodentium infection, inducible nitric oxide synthase (Nos2) expression was significantly reduced in intestinal epithelial cells of ChAT T-cell cKO mice 10 days post-infection. Additionally, a cholinergic agonist enhanced IFNγ-induced Nos2 expression in intestinal epithelial cell in vitro. These findings demonstrated that acetylcholine, produced by specialized T-cells that are recruited during C. rodentium infection, are a key mediator in host-microbe interactions and mucosal defenses. [ABSTRACT FROM AUTHOR]

Published
2019
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12. Obesogenic diets alter metabolism in mice.

Author

Showalter, Megan R., Nonnecke, Eric B., Linderholm, A. L., Cajka, Tomas, Sa, Michael R., Lönnerdal, Bo, Kenyon, Nicholas J., and Fiehn, Oliver

Subjects
*OBESITY treatment, *LIPID metabolism, *DIETARY supplements, *METABOLOMICS, *NUTRITIONAL requirements
Abstract

Obesity and accompanying metabolic disease is negatively correlated with lung health yet the exact mechanisms by which obesity affects the lung are not well characterized. Since obesity is associated with lung diseases as chronic bronchitis and asthma, we designed a series of experiments to measure changes in lung metabolism in mice fed obesogenic diets. Mice were fed either control or high fat/sugar diet (45%kcal fat/17%kcal sucrose), or very high fat diet (60%kcal fat/7% sucrose) for 150 days. We performed untargeted metabolomics by GC-TOFMS and HILIC-QTOFMS and lipidomics by RPLC-QTOFMS to reveal global changes in lung metabolism resulting from obesity and diet composition. From a total of 447 detected metabolites, we found 91 metabolite and lipid species significantly altered in mouse lung tissues upon dietary treatments. Significantly altered metabolites included complex lipids, free fatty acids, energy metabolites, amino acids and adenosine and NAD pathway members. While some metabolites were altered in both obese groups compared to control, others were different between obesogenic diet groups. Furthermore, a comparison of changes between lung, kidney and liver tissues indicated few metabolic changes were shared across organs, suggesting the lung is an independent metabolic organ. These results indicate obesity and diet composition have direct mechanistic effects on composition of the lung metabolome, which may contribute to disease progression by lung-specific pathways. [ABSTRACT FROM AUTHOR]

Published
2018
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13. Gut Microbiome Alterations following Postnatal Iron Supplementation Depend on Iron Form and Persist into Adulthood.

Author

McMillen, Shasta, Thomas, Sydney, Liang, Emily, Nonnecke, Eric B., Slupsky, Carolyn, and Lönnerdal, Bo

Abstract

The gut microbiota is implicated in the adverse developmental outcomes of postnatal iron supplementation. To generate hypotheses on how changes to the gut microbiota by iron adversely affect development, and to determine whether the form of iron influences microbiota outcomes, we characterized gut microbiome and metabolome changes in Sprague-Dawley rat pups given oral supplements of ferrous sulfate (FS), ferrous bis-glycinate chelate (FC), or vehicle control (CON) on postnatal day (PD) 2–14. Iron supplementation reduced microbiome alpha-diversity (p < 0.0001) and altered short-chain fatty acids (SCFAs) and trimethylamine (TMA) in a form-dependent manner. To investigate the long-term effects of iron provision in early life, an additional cohort was supplemented with FS, FC, or CON until PD 21 and then weaned onto standard chow. At ~8 weeks of age, young adult (YA) rats that received FS exhibited more diverse microbiomes compared to CON (p < 0.05), whereas FC microbiomes were less diverse (p < 0.05). Iron provision resulted in over ten-fold reduced abundance of Lactobacilli in pre-weanling and YA animals provided iron in early life (p < 0.0001). Our results suggest that in pre-weanling rats, supplemental iron form can generate differential effects on the gut microbiota and microbial metabolism that persist into adulthood. [ABSTRACT FROM AUTHOR]

Published
2022
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15. Creatine supplementation exacerbates hyperhomocysteinemia in folate-deficient rats.

Author

Nonnecke, Eric B. and Schalinske, Kevin L.

Subjects
*CREATINE, *HOMOCYSTEINE, *RATS, *FOLIC acid, *BIOSYNTHESIS, *PHOSPHOCREATINE
Abstract

Hyperhomocysteinemia is considered an independent risk factor for cardiovascular disease. S-adenosylmethionine (SAM) is the methyl group donor for most biological methylations. The product of this reaction, S-adenosylhomocysteine, is converted to homocysteine (Hcy), which must be either remethylated back to methionine or irreversibly catabolized. Thus, Hcy pools reflect a balance between production and metabolism. Biosynthesis of phosphocreatine (PCr) from guanidinoacetate (GAA) is a transmethylation reaction that uses a major proportion of SAM-derived methyl groups, thereby contributing significantly to Hcy production. Therefore, dietary supplementation with PCr should decrease the demand on SAM for GAA synthesis, thereby lowering Hcy. We examined the effects of PCr supplementation on elevated Hcy levels during folate deficiency. Folate deficiency was induced in half of the rats (n = 12) by feeding a folate-free diet for 6 wk. During the last 4 wk, half of the folate-adequate and folate-deficient rats were fed a diet containing 4g PCr/kg. As expected, folate deficiency increased total plasma Hcy concentrations by 105%. Although PCr supplementation had no significant effect on Hcy in folate-adequate rats, it further increased Hcy concentrations 39% in folate-deficient rats. Taken together, these results indicate that dietary PCr supplementation exacerbates Hcy pools in folate deficiency. [ABSTRACT FROM AUTHOR]

Published
2007

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