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1. The C-terminal peptide of CCL21 drastically augments CCL21 activity through the dendritic cell lymph node homing receptor CCR7 by interaction with the receptor N-terminus

Author

Jørgensen, Astrid Sissel, Brandum, Emma Probst, Mikkelsen, Jeppe Malthe, Orfin, Klaudia A., Boilesen, Ditte Rahbæk, Egerod, Kristoffer Lihme, Moussouras, Natasha A., Vilhardt, Frederik, Kalinski, Pawel, Basse, Per, Chen, Yen-Hsi, Yang, Zhang, Dwinell, Michael B., Volkman, Brian F., Veldkamp, Christopher T., Holst, Peter Johannes, Lahl, Katharina, Goth, Christoffer Knak, Rosenkilde, Mette Marie, and Hjortø, Gertrud Malene

Published
2021
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5. Amino acids differ in their capacity to stimulate GLP-1 release from the perfused rat small intestine and stimulate secretion by different sensing mechanisms

Author

Modvig, Ida Marie, Kuhre, Rune Ehrenreich, Jepsen, Sara L, Xu, Stella, Engelstoft, Maja S, Egerod, Kristoffer Lihme, Schwartz, Thue W, Ørskov, Cathrine, Rosenkilde, Mette M, Holst, Jens J, Modvig, Ida Marie, Kuhre, Rune Ehrenreich, Jepsen, Sara L, Xu, Stella, Engelstoft, Maja S, Egerod, Kristoffer Lihme, Schwartz, Thue W, Ørskov, Cathrine, Rosenkilde, Mette M, and Holst, Jens J

Abstract

The aim of this study was to explore individual amino acid-stimulated GLP-1 responses and the underlying stimulatory mechanisms, as well as to identify the amino acid-sensing-receptors involved in amino acid-stimulated GLP-1 release. Experiments were primarily based on isolated perfused rat small intestines, which have intact epithelial polarization allowing discrimination between luminal and basolateral mechanisms as well as quantitative studies of intestinal absorption and hormone secretion. Expression analysis of amino acid sensors on isolated murine GLP-1 secreting L-cells was assessed by qPCR. We found that L-valine powerfully stimulated GLP-1 secretion but only from the luminal side (2.9-fold increase). When administered from the vascular side, L-arginine and the aromatic amino acids stimulated GLP-1 secretion equally (2.6-2.9 fold increases). Expression analysis revealed that Casr expression was enriched in murine GLP-1 secreting L-cells, whereas Gpr35, Gprc6a, Gpr142, Gpr93 (Lpar5) and the umami taste receptor subunits Tas1r3 and Tas1r1 were not. Consistently, activation of GPR35, GPR93, GPR142 and the umami taste receptor with specific agonists or allosteric modulators did not increase GLP-1 secretion (P>0.05 for all experiments), whereas vascular inhibition of CaSR reduced GLP-1 secretion in response to luminal infusion of mixed amino acids. In conclusion, amino acids differ in their capacity to stimulate GLP-1 secretion. Some amino acids stimulated secretion only from the intestinal lumen, while other amino acids exclusively stimulated secretion from the vascular side, indicating that amino acid-stimulated GLP-1 secretion involves both apical and basolateral (post-absorptive) sensing mechanisms. Sensing of absorbed amino acids involves CaSR activation as vascular inhibition of CaSR markedly diminished amino acid stimulated GLP-1 release.

Published
2021

6. Amino acids differ in their capacity to stimulate GLP-1 release from the perfused rat small intestine and stimulate secretion by different sensing mechanisms

Author

Modvig, Ida Marie, primary, Kuhre, Rune Ehrenreich, additional, Jepsen, Sara Lind, additional, Xu, Stella Feng Sheng, additional, Engelstoft, Maja Storm, additional, Egerod, Kristoffer Lihme, additional, Schwartz, Thue Walther, additional, Ørskov, Cathrine, additional, Rosenkilde, Mette Marie, additional, and Holst, Jens Juul, additional

Published
2021
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7. L-Cell Differentiation Is Induced by Bile Acids Through GPBAR1 and Paracrine GLP-1 and Serotonin Signaling

Author

Lund, Mari Lilith, Sorrentino, Giovanni, Egerod, Kristoffer Lihme, Kroone, Chantal, Mortensen, Brynjulf, Knop, Filip Krag, Reimann, Frank, Gribble, Fiona M, Drucker, Daniel J, de Koning, Eelco J P, Schoonjans, Kristina, Bäckhed, Fredrik, Schwartz, Thue W, Petersen, Natalia, Lund, Mari Lilith, Sorrentino, Giovanni, Egerod, Kristoffer Lihme, Kroone, Chantal, Mortensen, Brynjulf, Knop, Filip Krag, Reimann, Frank, Gribble, Fiona M, Drucker, Daniel J, de Koning, Eelco J P, Schoonjans, Kristina, Bäckhed, Fredrik, Schwartz, Thue W, and Petersen, Natalia

Abstract

Glucagon-like peptide 1 (GLP-1) mimetics are effective drugs for treatment of type 2 diabetes, and there is consequently extensive interest in increasing endogenous GLP-1 secretion and L-cell abundance. Here we identify G-protein-coupled bile acid receptor 1 (GPBAR1) as a selective regulator of intestinal L-cell differentiation. Lithocholic acid and the synthetic GPBAR1 agonist, L3740, selectively increased L-cell density in mouse and human intestinal organoids and elevated GLP-1 secretory capacity. L3740 induced expression of Gcg and transcription factors Ngn3 and NeuroD1 L3740 also increased the L-cell number and GLP-1 levels and improved glucose tolerance in vivo. Further mechanistic examination revealed that the effect of L3740 on L cells required intact GLP-1 receptor and serotonin 5-hydroxytryptamine receptor 4 (5-HT4) signaling. Importantly, serotonin signaling through 5-HT4 mimicked the effects of L3740, acting downstream of GLP-1. Thus, GPBAR1 agonists and other powerful GLP-1 secretagogues facilitate L-cell differentiation through a paracrine GLP-1-dependent and serotonin-mediated mechanism.

Published
2020

8. L-Cell Differentiation Is Induced by Bile Acids Through GPBAR1 and Paracrine GLP-1 and Serotonin Signaling

Author

Regenerative Medicine and Stem Cells, Hubrecht Institute with UMC, Lund, Mari Lilith, Sorrentino, Giovanni, Egerod, Kristoffer Lihme, Kroone, Chantal, Mortensen, Brynjulf, Knop, Filip Krag, Reimann, Frank, Gribble, Fiona M, Drucker, Daniel J, de Koning, Eelco J P, Schoonjans, Kristina, Bäckhed, Fredrik, Schwartz, Thue W, Petersen, Natalia, Regenerative Medicine and Stem Cells, Hubrecht Institute with UMC, Lund, Mari Lilith, Sorrentino, Giovanni, Egerod, Kristoffer Lihme, Kroone, Chantal, Mortensen, Brynjulf, Knop, Filip Krag, Reimann, Frank, Gribble, Fiona M, Drucker, Daniel J, de Koning, Eelco J P, Schoonjans, Kristina, Bäckhed, Fredrik, Schwartz, Thue W, and Petersen, Natalia

Published
2020

9. L-Cell Differentiation Is Induced by Bile Acids Through GPBAR1 and Paracrine GLP-1 and Serotonin Signaling

Author

Lund, Mari Lilith, primary, Sorrentino, Giovanni, additional, Egerod, Kristoffer Lihme, additional, Kroone, Chantal, additional, Mortensen, Brynjulf, additional, Knop, Filip Krag, additional, Reimann, Frank, additional, Gribble, Fiona M., additional, Drucker, Daniel J., additional, de Koning, Eelco J.P., additional, Schoonjans, Kristina, additional, Bäckhed, Fredrik, additional, Schwartz, Thue W., additional, and Petersen, Natalia, additional

Published
2020
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10. Quantitative proteomics and single-nucleus transcriptomics of the sinus node elucidates the foundation of cardiac pacemaking

Author

Linscheid, Nora, Logantha, Sunil Jit R. J., Poulsen, Camilla, Zhang, Shanzhuo, Schrolkamp, Maren, Egerod, Kristoffer Lihme, Thompson, Jonatan James, Kitmitto, Ashraf, Galli, Gina, Humphries, Martin J., Zhang, Henggui, Pers, Tune H., Olsen, Jesper Velgaard, Boyett, Mark, Lundby, Alicia, Linscheid, Nora, Logantha, Sunil Jit R. J., Poulsen, Camilla, Zhang, Shanzhuo, Schrolkamp, Maren, Egerod, Kristoffer Lihme, Thompson, Jonatan James, Kitmitto, Ashraf, Galli, Gina, Humphries, Martin J., Zhang, Henggui, Pers, Tune H., Olsen, Jesper Velgaard, Boyett, Mark, and Lundby, Alicia

Abstract

The sinus node is a collection of highly specialised cells constituting the heart's pacemaker. The molecular underpinnings of its pacemaking abilities are debated. Using high-resolution mass spectrometry, we here quantify >7,000 proteins from sinus node and neighbouring atrial muscle. Abundances of 575 proteins differ between the two tissues. By performing single-nucleus RNA sequencing of sinus node biopsies, we attribute measured protein abundances to specific cell types. The data reveal significant differences in ion channels responsible for the membrane clock, but not in Ca2+ clock proteins, suggesting that the membrane clock underpins pacemaking. Consistently, incorporation of ion channel expression differences into a biophysically-detailed atrial action potential model result in pacemaking and a sinus node-like action potential. Combining our quantitative proteomics data with computational modeling, we estimate ion channel copy numbers for sinus node myocytes. Our findings provide detailed insights into the unique molecular make-up of the cardiac pacemaker.

Published
2019

11. Microbial fermentation of flaxseed fibers modulates the transcriptome of GPR41-expressing enteroendocrine cells and protects mice against diet-induced obesity

Author

Arora, Tulika, Rudenko, Olga, Egerod, Kristoffer Lihme, Husted, Anna Sofie, Kovatcheva-Datchary, Petia, Akrami, Rozita, Kristensen, Mette, Schwartz, Thue W., Backhed, Fredrik, Arora, Tulika, Rudenko, Olga, Egerod, Kristoffer Lihme, Husted, Anna Sofie, Kovatcheva-Datchary, Petia, Akrami, Rozita, Kristensen, Mette, Schwartz, Thue W., and Backhed, Fredrik

Published
2019

12. Quantitative proteomics and single-nucleus transcriptomics of the sinus node elucidates the foundation of cardiac pacemaking

Author

Linscheid, Nora, primary, Logantha, Sunil Jit R. J., additional, Poulsen, Pi Camilla, additional, Zhang, Shanzhuo, additional, Schrölkamp, Maren, additional, Egerod, Kristoffer Lihme, additional, Thompson, Jonatan James, additional, Kitmitto, Ashraf, additional, Galli, Gina, additional, Humphries, Martin J., additional, Zhang, Henggui, additional, Pers, Tune H., additional, Olsen, Jesper Velgaard, additional, Boyett, Mark, additional, and Lundby, Alicia, additional

Published
2019
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14. Seven transmembrane G protein-coupled receptor repertoire of gastric ghrelin cells

Author

Engelstoft, Maja S, Park, Won-Mee, Sakata, Ichiro, Kristensen, Line V, Husted, Anna Sofie, Osborne-Lawrence, Sherri, Piper, Paul K, Walker, Angela K, Pedersen, Maria H, Nøhr, Mark K, Pan, Jie, Sinz, Christopher J, Carrington, Paul E, Akiyama, Taro E, Jones, Robert M, Tang, Cong, Ahmed, Kashan, Offermanns, Stefan, Egerod, Kristoffer Lihme, Zigman, Jeffrey M, Schwartz, Thue W, Engelstoft, Maja S, Park, Won-Mee, Sakata, Ichiro, Kristensen, Line V, Husted, Anna Sofie, Osborne-Lawrence, Sherri, Piper, Paul K, Walker, Angela K, Pedersen, Maria H, Nøhr, Mark K, Pan, Jie, Sinz, Christopher J, Carrington, Paul E, Akiyama, Taro E, Jones, Robert M, Tang, Cong, Ahmed, Kashan, Offermanns, Stefan, Egerod, Kristoffer Lihme, Zigman, Jeffrey M, and Schwartz, Thue W

Abstract

The molecular mechanisms regulating secretion of the orexigenic-glucoregulatory hormone ghrelin remain unclear. Based on qPCR analysis of FACS-purified gastric ghrelin cells, highly expressed and enriched 7TM receptors were comprehensively identified and functionally characterized using in vitro, ex vivo and in vivo methods. Five Gαs-coupled receptors efficiently stimulated ghrelin secretion: as expected the β1-adrenergic, the GIP and the secretin receptors but surprisingly also the composite receptor for the sensory neuropeptide CGRP and the melanocortin 4 receptor. A number of Gαi/o-coupled receptors inhibited ghrelin secretion including somatostatin receptors SSTR1, SSTR2 and SSTR3 and unexpectedly the highly enriched lactate receptor, GPR81. Three other metabolite receptors known to be both Gαi/o- and Gαq/11-coupled all inhibited ghrelin secretion through a pertussis toxin-sensitive Gαi/o pathway: FFAR2 (short chain fatty acid receptor; GPR43), FFAR4 (long chain fatty acid receptor; GPR120) and CasR (calcium sensing receptor). In addition to the common Gα subunits three non-common Gαi/o subunits were highly enriched in ghrelin cells: GαoA, GαoB and Gαz. Inhibition of Gαi/o signaling via ghrelin cell-selective pertussis toxin expression markedly enhanced circulating ghrelin. These 7TM receptors and associated Gα subunits constitute a major part of the molecular machinery directly mediating neuronal and endocrine stimulation versus metabolite and somatostatin inhibition of ghrelin secretion including a series of novel receptor targets not previously identified on the ghrelin cell.

Published
2013

15. Enteroendocrine cell types revisited

Author

Engelstoft, Maja S, Egerod, Kristoffer Lihme, Lund, Mari L, Schwartz, Thue W, Engelstoft, Maja S, Egerod, Kristoffer Lihme, Lund, Mari L, and Schwartz, Thue W

Abstract

The GI-tract is profoundly involved in the control of metabolism through peptide hormones secreted from enteroendocrine cells scattered throughout the gut mucosa. A large number of recently generated transgenic reporter mice have allowed for direct characterization of biochemical and cell biological properties of these previously highly elusive enteroendocrine cells. In particular the surprisingly broad co-expression of six functionally related hormones in the intestinal enteroendocrine cells indicates that it should be possible to control not only the hormone secretion but also the type and number of enteroendocrine cells. However, this will require a more deep understanding of the factors controlling differentiation, gene expression and specification of the enteroendocrine cells during their weekly renewal from progenitor cells in the crypts of the mucosa.

Published
2013

16. GPR41/FFAR3 and GPR43/FFAR2 as Cosensors for Short-Chain Fatty Acids in Enteroendocrine Cells vs FFAR3 in Enteric Neurons and FFAR2 in Enteric Leukocytes

Author

Nøhr, Mark K, Pedersen, Maria H, Gille, Andreas, Egerod, Kristoffer Lihme, Engelstoft, Maja S, Husted, Anna Sofie, Sichlau, Rasmus M, Grunddal, Kaare V, Seier Poulsen, Steen, Han, Sangdon, Jones, Robert M, Offermanns, Stefan, Schwartz, Thue W, Nøhr, Mark K, Pedersen, Maria H, Gille, Andreas, Egerod, Kristoffer Lihme, Engelstoft, Maja S, Husted, Anna Sofie, Sichlau, Rasmus M, Grunddal, Kaare V, Seier Poulsen, Steen, Han, Sangdon, Jones, Robert M, Offermanns, Stefan, and Schwartz, Thue W

Abstract

The expression of short-chain fatty acid receptors GPR41/FFAR3 and GPR43/ free fatty acid receptor 2 (FFAR2) was studied in the gastrointestinal tract of transgenic monomeric red fluorescent protein (mRFP) reporter mice. In the stomach free fatty acid receptor 3 (FFAR3)-mRFP was expressed in a subpopulation of ghrelin and gastrin cells. In contrast, strong expression of FFAR3-mRFP was observed in all cholecystokinin, gastric inhibitory peptide, and secretin cells of the proximal small intestine and in all glucagon-like peptide-1 (GLP-1), peptide YY, and neurotensin cells of the distal small intestine. Throughout the colon and rectum, FFAR3-mRFP was strongly expressed in the large population of peptide YY and GLP-1 cells and in the neurotensin cells of the proximal colon. A gradient of expression of FFAR3-mRFP was observed in the somatostatin cells from less than 5% in the stomach to more than 95% in the rectum. Substance P-containing enterochromaffin cells displayed a similar gradient of FFAR3-mRFP expression throughout the small intestine. Surprisingly, FFAR3-mRFP was also expressed in the neuronal cells of the submucosal and myenteric ganglia. Quantitative PCR analysis of fluorescence-activated cell sorter FFAR3-mRFP positive cells confirmed the coexpression with the various peptide hormones as well as key neuronal marker proteins. The FFAR2-mRFP reporter was strongly expressed in a large population of leukocytes in the lamina propria of in particular the small intestine but surprisingly only weakly in a subpopulation of enteroendocrine cells. Nevertheless, synthetic ligands specific for either FFAR3 or FFAR2 each released GLP-1 from colonic crypt cultures and the FFAR2 agonist mobilized intracellular Ca(2+) in FFAR2 positive enteroendocrine cells. It is concluded that FFAR3-mRFP serves as a useful marker for the majority of enteroendocrine cells of the small and large intestine and that FFAR3 and FFAR2 both act as sensors for short-chain fatty acids in enteroendo

Published
2013

17. Plasmin-driven fibrinolysis facilitates skin tumor growth in a gender-dependent manner

Author

Hald, Andreas, Eickhardt, Hanne, Maerkedahl, Rasmus Baadsgaard, Feldborg, Christina Winther, Egerod, Kristoffer Lihme, Engelholm, Lars Henning, Laerum, Ole Didrik, Lund, Leif Røge, Rønø, Birgitte, Hald, Andreas, Eickhardt, Hanne, Maerkedahl, Rasmus Baadsgaard, Feldborg, Christina Winther, Egerod, Kristoffer Lihme, Engelholm, Lars Henning, Laerum, Ole Didrik, Lund, Leif Røge, and Rønø, Birgitte

Abstract

Rearrangement of the skin during wound healing depends on plasmin and plasminogen, which serve to degrade fibrin depositions in the provisional matrix and thereby facilitate keratinocyte migration. In the current study, we investigated whether plasmin and plasminogen likewise played a role during the development of skin cancer. To test this, we set up a chemically induced skin tumor model in a cohort of mice and found that skin tumor growth in Plg(-)(/)(-) male mice was reduced by 52% compared with wild-type controls. Histological analyses suggested that the growth-restricting effect of plasminogen deficiency was due to thrombosis and lost patency of the tumor vasculature, resulting in tumor necrosis. The connection between plasmin-dependent fibrinolysis, vascular patency, and tumor growth was further substantiated as the effect of plasminogen deficiency on tumor growth could be reverted by superimposing heterozygous fibrinogen deficiency on Plg(-)(/)(-) mice. Tumors derived from these Fib(-)(/+);Plg(-)(/)(-) mice displayed a significantly decreased level of tumor thrombosis compared with Plg(-)(/)(-) mice. In summary, these data indicate that plasmin-driven fibrinolysis facilitates tumor growth by maintaining patency of the tumor vasculature.-Hald, A., Eickhardt, H., Maerkedahl, R. B., Feldborg, C. W., Egerod, K. L., Engelholm. L. H., Laerum, O. D., Lund, L. R., Rønø, B. Plasmin-driven fibrinolysis facilitates skin tumor growth in a gender-dependent manner.

Published
2012

18. LPS counter regulates RNA expression of extracellular proteases and their inhibitors in murine macrophages

Author

Hald, Andreas, Rønø, Birgitte, Lund, Leif R, Egerod, Kristoffer Lihme, Hald, Andreas, Rønø, Birgitte, Lund, Leif R, and Egerod, Kristoffer Lihme

Abstract

Besides their evident importance in host defense, macrophages have been shown to play a detrimental role in different pathological conditions, including chronic inflammation, atherosclerosis, and cancer. Regardless of the exact situation, macrophage activation and migration are intimately connected to extracellular matrix degradation. This process is accomplished by multiple proteolytic enzymes, including serine proteases and members of the matrix metalloproteinase family. In this study, we have utilized qPCR arrays to simultaneously analyze the temporal expression pattern of a range of genes involved in extracellular matrix metabolism in the mouse derived-macrophage cell line RAW 264.7 following stimulation with LPS. Our results revealed that LPS induces the expression of matrix metalloproteinases while at the same time decreased the expression of matrix metalloproteinase inhibitors. The opposite scenario was found for the genes encoding serine proteases, which were downregulated while their inhibitors were upregulated. In addition, intergenic comparison of the expression levels of related proteases revealed large differences in their basal expression level. These data highlight the complexity of the gene expression regulation implicated in macrophage-dependent matrix degradation and furthermore emphasize the value of qPCR array techniques for the investigation of the complex regulation of the matrix degradome.

Published
2012

19. Endocytic collagen degradation:a novel mechanism involved in protection against liver fibrosis

Author

Madsen, Daniel H., Jürgensen, Henrik J., Ingvarsen, Signe Ziir, Melander, Maria C., Vainer, Ben, Egerod, Kristoffer Lihme, Hald, Andreas, Rønø, Birgitte, Madsen, Charlotte A., Bugge, Thomas H., Engelholm, Lars H., Behrendt, Niels, Madsen, Daniel H., Jürgensen, Henrik J., Ingvarsen, Signe Ziir, Melander, Maria C., Vainer, Ben, Egerod, Kristoffer Lihme, Hald, Andreas, Rønø, Birgitte, Madsen, Charlotte A., Bugge, Thomas H., Engelholm, Lars H., and Behrendt, Niels

Abstract

Fibrosis of the liver and its end-stage, cirrhosis, represent major health problems worldwide. In these fibrotic conditions, activated fibroblasts and hepatic stellate cells display a net deposition of collagen. This collagen deposition is a major factor leading to liver dysfunction, thus making it crucially important to understand both the collagen synthesis and turnover mechanisms in this condition. Here we show that the endocytic collagen receptor, uPARAP/Endo180, is a major determinant in governing the balance between collagen deposition and degradation. Cirrhotic human livers displayed a marked up-regulation of uPARAP/Endo180 in activated fibroblasts and hepatic stellate cells located close to the collagen deposits. In a hepatic stellate cell line, uPARAP/Endo180 was shown to be active in, and required for, the uptake and intracellular degradation of collagen. To evaluate the functional importance of this collagen receptor in vivo, liver fibrosis was induced in uPARAP/Endo180-deficient mice and littermate wild-type mice by chronic CCl(4) administration. A strong up-regulation of uPARAP/Endo180 was observed in wild-type mice, and a quantitative comparison of collagen deposits in the two groups of mice clearly revealed a fibrosis protective role of uPARAP/Endo180. This effect appeared to directly reflect the activity of the collagen receptor, since no compensatory events were noted when comparing the mRNA expression profiles of the two groups of mice in an array system focused on matrix-degrading components. This function of uPARAP/Endo180 defines a novel role of intracellular collagen turnover in fibrosis protection.

Published
2012

20. ß-Cell Specific Overexpression of GPR39 Protects against Streptozotocin-Induced Hyperglycemia

Author

Egerod, Kristoffer Lihme, Jin, Chunyu, Petersen, Pia Steen, Wierup, Nils, Sundler, Frank, Holst, Birgitte, Schwartz, Thue W, Egerod, Kristoffer Lihme, Jin, Chunyu, Petersen, Pia Steen, Wierup, Nils, Sundler, Frank, Holst, Birgitte, and Schwartz, Thue W

Abstract

Mice deficient in the zinc-sensor GPR39, which has been demonstrated to protect cells against endoplasmatic stress and cell death in vitro, display moderate glucose intolerance and impaired glucose-induced insulin secretion. Here, we use the Tet-On system under the control of the proinsulin promoter to selectively overexpress GPR39 in the ß cells in a double transgenic mouse strain and challenge them with multiple low doses of streptozotocin, which in the wild-type littermates leads to a gradual increase in nonfasting glucose levels and glucose intolerance observed during both food intake and OGTT. Although the overexpression of the constitutively active GPR39 receptor in animals not treated with streptozotocin appeared by itself to impair the glucose tolerance slightly and to decrease the ß-cell mass, it nevertheless totally protected against the gradual hyperglycemia in the steptozotocin-treated animals. It is concluded that GPR39 functions in a ß-cell protective manner and it is suggested that it is involved in some of the beneficial, ß-cell protective effects observed for Zn(++) and that GPR39 may be a target for antidiabetic drug intervention.

Published
2011

21. Risperidone treatment increases CB1 receptor binding in rat brain

Author

Secher, Anna, Husum, Henriette, Holst, Birgitte, Egerod, Kristoffer Lihme, Mellerup, Erling, Secher, Anna, Husum, Henriette, Holst, Birgitte, Egerod, Kristoffer Lihme, and Mellerup, Erling

Abstract

Udgivelsesdato: 2010, BACKGROUND/AIMS: Body weight gain is a common side effect of treatment with antipsychotics, but the mechanisms underlying this weight gain are unknown. Several factors may be involved in antipsychotic-induced body weight gain including the cannabinoid receptor 1 (CB(1)), the serotonin receptor 2C, the ghrelin receptor, neuropeptide Y, adiponectin and proopiomelanocortin. We investigated whether the expression of these factors was affected in rats chronically treated with the antipsychotic risperidone. METHODS: Male Sprague-Dawley rats were treated with risperidone (1.0 mg/kg/day) or vehicle (20% hydroxypropyl beta-cyclodextrin) for 28 days. Expression of the aforementioned factors were examined together with plasma prolactin and ghrelin levels. RESULTS: No difference in body weight gained during treatment was observed between risperidone and vehicle treated rats, but plasma risperidone levels positively correlated with visceral fat mass. Risperidone treatment increased CB(1) receptor binding in the arcuate nucleus (40%), hippocampus (25-30%) and amygdala (35%) without concurrent alterations in the CB(1) receptor mRNA. Risperidone treatment increased adiponectin mRNA. CONCLUSION: The present study showed that risperidone treatment altered CB(1) receptor binding in the rat brain. Risperidone-induced adiposity and metabolic dysfunction in the clinic may be explained by increased CB(1) receptor density in brain regions involved in appetite and regulation of metabolic function.

Published
2010

23. Differential effects of repeated low dose treatment with the cannabinoid agonist WIN 55,212-2 in experimental models of bone cancer pain and neuropathic pain

Author

Hald, Andreas, Ding, Ming, Egerod, Kristoffer Lihme, Hansen, Rikke Rie, Konradsen, Dorthe, Jørgensen, Stine G., Atalay, Baris, Nasser, Arafat, Bjerrum, Ole Jannik, Heegaard, Anne-Marie, Hald, Andreas, Ding, Ming, Egerod, Kristoffer Lihme, Hansen, Rikke Rie, Konradsen, Dorthe, Jørgensen, Stine G., Atalay, Baris, Nasser, Arafat, Bjerrum, Ole Jannik, and Heegaard, Anne-Marie

Abstract

Pain due to bone malignancies is one of the most difficult types of cancer pain to fully control and may further decrease the patients' quality of life. Animal models of chronic pain conditions resulting from peripheral inflammatory reactions or nerve injuries are responsive to treatment with cannabinoid agonists. However, the use of cannabinoid agonists in humans may be hampered by CNS related side effects and development of tolerance. In the present study, we investigated the effect of repeated low dose administration of the synthetic cannabinoid agonist WIN 55,212-2 on bone cancer pain and neuropathic pain in mice. In addition, we investigated the development of CNS related side effects and tolerance. We found that 0.5 mg/kg/day for 18 days reduced pain related behavior and expression of spinal glial fibrillary acidic protein in the bone cancer pain model but not in the neuropathic pain model. Furthermore, this treatment strategy was not found to induce measurable CNS related side effects or tolerance. Cancer cell viability assays and bone volume fraction assessed by micro computed tomography (microCT) demonstrated that these effects were not due to changes in cancer progression. The difference in WIN 55,212-2 efficacy between the bone cancer and neuropathic pain models may reflect the different pain generating mechanisms, which may be utilized in designing new therapeutic drugs.

Published
2008

27. Risperidone Treatment Increases CB1 Receptor Binding in Rat Brain.

Author

Secher, Anna, Husum, Henriette, Holst, Birgitte, Egerod, Kristoffer Lihme, and Mellerup, Erling

Subjects
RISPERIDONE, RADIOLIGAND assay, CANNABINOIDS, ANTIPSYCHOTIC agents, GHRELIN, SEROTONIN, RAT physiology
Abstract

Background/Aims: Body weight gain is a common side effect of treatment with antipsychotics, but the mechanisms underlying this weight gain are unknown. Several factors may be involved in antipsychotic-induced body weight gain including the cannabinoid receptor 1 (CB1), the serotonin receptor 2C, the ghrelin receptor, neuropeptide Y, adiponectin and proopiomelanocortin. We investigated whether the expression of these factors was affected in rats chronically treated with the antipsychotic risperidone. Methods: Male Sprague-Dawley rats were treated with risperidone (1.0 mg/kg/day) or vehicle (20% hydroxypropyl β-cyclodextrin) for 28 days. Expression of the aforementioned factors were examined together with plasma prolactin and ghrelin levels. Results: No difference in body weight gained during treatment was observed between risperidone and vehicle treated rats, but plasma risperidone levels positively correlated with visceral fat mass. Risperidone treatment increased CB1 receptor binding in the arcuate nucleus (40%), hippocampus (25–30%) and amygdala (35%) without concurrent alterations in the CB1 receptor mRNA. Risperidone treatment increased adiponectin mRNA. Conclusion: The present study showed that risperidone treatment altered CB1 receptor binding in the rat brain. Risperidone-induced adiposity and metabolic dysfunction in the clinic may be explained by increased CB1 receptor density in brain regions involved in appetite and regulation of metabolic function. Copyright © 2009 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published
2010
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28. Amino acids differ in their capacity to stimulate GLP-1 release from the perfused rat small intestine and stimulate secretion by different sensing mechanisms.

Author

Modvig IM, Kuhre RE, Jepsen SL, Xu SFS, Engelstoft MS, Egerod KL, Schwartz TW, Ørskov C, Rosenkilde MM, and Holst JJ

Subjects
Animals, Intestine, Small metabolism, Intestine, Small pathology, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Perfusion, Rats, Rats, Wistar, Receptors, G-Protein-Coupled agonists, Receptors, G-Protein-Coupled metabolism, Receptors, Lysophosphatidic Acid agonists, Receptors, Lysophosphatidic Acid metabolism, Secretory Pathway drug effects, Signal Transduction drug effects, Amino Acids pharmacology, Glucagon-Like Peptide 1 metabolism, Intestine, Small drug effects
Abstract

The aim of this study was to explore individual amino acid-stimulated GLP-1 responses and the underlying stimulatory mechanisms, as well as to identify the amino acid-sensing receptors involved in amino acid-stimulated GLP-1 release. Experiments were primarily based on isolated perfused rat small intestines, which have intact epithelial polarization allowing discrimination between luminal and basolateral mechanisms as well as quantitative studies of intestinal absorption and hormone secretion. Expression analysis of amino acid sensors on isolated murine GLP-1 secreting L-cells was assessed by qPCR. We found that l-valine powerfully stimulated GLP-1 secretion but only from the luminal side (2.9-fold increase). When administered from the vascular side, l-arginine and the aromatic amino acids stimulated GLP-1 secretion equally (2.6- to 2.9-fold increases). Expression analysis revealed that Casr expression was enriched in murine GLP-1 secreting L-cells, whereas Gpr35, Gprc6a, Gpr142, Gpr93 (Lpar5), and the umami taste receptor subunits Tas1r3 and Tas1r1 were not. Consistently, activation of GPR35, GPR93, GPR142, and the umami taste receptor with specific agonists or allosteric modulators did not increase GLP-1 secretion ( P > 0.05 for all experiments), whereas vascular inhibition of CaSR reduced GLP-1 secretion in response to luminal infusion of mixed amino acids. In conclusion, amino acids differ in their capacity to stimulate GLP-1 secretion. Some amino acids stimulated secretion only from the intestinal lumen, whereas other amino acids exclusively stimulated secretion from the vascular side, indicating that amino acid-stimulated GLP-1 secretion involves both apical and basolateral (postabsorptive) sensing mechanisms. Sensing of absorbed amino acids involves CaSR activation as vascular inhibition of CaSR markedly diminished amino acid stimulated GLP-1 release. NEW & NOTEWORTHY Using isolated perfused rat small intestines, we show that amino acids differ in their mechanisms and capacity of stimulating GLP-1 release. Furthermore, we demonstrate that sensing by GPR142, GPR35, GPR93, and the umami taste receptor (Tas1R1/Tas1R3) are not involved in amino acid stimulated GLP-1 release. In contrast to previous studies, this experimental model allows discrimination between the luminal and the vascular side of the intestine, which is essential when studying mechanisms of amino acid-stimulated GLP-1 secretion.

Published
2021
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29. Microbial fermentation of flaxseed fibers modulates the transcriptome of GPR41-expressing enteroendocrine cells and protects mice against diet-induced obesity.

Author

Arora T, Rudenko O, Egerod KL, Husted AS, Kovatcheva-Datchary P, Akrami R, Kristensen M, Schwartz TW, and Bäckhed F

Subjects
Animals, Bifidobacterium, Cecum microbiology, Cellulose, Colon cytology, Diet, High-Fat, Dietary Fiber, Female, Firmicutes, Ileum cytology, Lactobacillus, Male, Mice, Receptors, G-Protein-Coupled metabolism, Verrucomicrobia, Enteroendocrine Cells metabolism, Fatty Acids, Volatile metabolism, Fermentation, Flax metabolism, Gastrointestinal Microbiome, Obesity metabolism, Transcriptome
Abstract

Dietary fibers, an integral part of the human diet, require the enzymatic activity of the gut microbiota for complete metabolism into short-chain fatty acids (SCFAs). SCFAs are important modulators of host metabolism and physiology and act in part as signaling molecules by activating G protein-coupled receptors (GPCRs), such as GPR41. Flaxseed fibers improve metabolism in rodents and mice, but their fermentation profiles, effects on enteroendocrine cells, and associated metabolic benefits are unknown. We fed GPR41-red fluorescent protein mice, an enteroendocrine reporter mouse strain, chow, high-fat diet (HFD), or HFD supplemented either with 10% nonfermentable fiber cellulose or fermentable flaxseed fibers for 12 wk to assess changes in cecal gut microbiota, enteroendocrine cell transcriptome in the ileum and colon, and physiological parameters. We observed that flaxseed fibers restructured the gut microbiota and promoted proliferation of the genera Bifidobacterium and Akkermansia compared with HFD. The shifts in cecal bacterial composition restored levels of the SCFAs butyrate similar to the chow diet, resulting in colonic but not ileal enteroendocrine cell transcriptional changes in genes related to cell cycle, mRNA, and protein transport compared with HFD. Consistent with the effects on enteroendocrine functions, flaxseed fibers also protected mice from diet-induced obesity, potentially by preventing a reduction in energy expenditure induced by an HFD. Our study shows that flaxseed fibers alter cecal microbial ecology, are fermented to SCFAs in the cecum, and modulate enteroendocrine cell transcriptome in the colon, which may contribute to their metabolically favorable phenotype.

Published
2019
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30. Risperidone treatment increases CB1 receptor binding in rat brain.

Author

Secher A, Husum H, Holst B, Egerod KL, and Mellerup E

Subjects
Adiponectin genetics, Animals, Antipsychotic Agents blood, Brain metabolism, Cyclohexanols metabolism, Cyclohexanols pharmacology, Dopamine Antagonists metabolism, Dopamine Antagonists pharmacology, Eating drug effects, Ghrelin blood, Male, Motor Activity drug effects, Neuropeptide Y genetics, Pro-Opiomelanocortin genetics, Prolactin blood, Protein Binding drug effects, RNA, Messenger metabolism, Raclopride metabolism, Raclopride pharmacology, Rats, Rats, Sprague-Dawley, Receptor, Cannabinoid, CB1 genetics, Receptor, Serotonin, 5-HT2C genetics, Receptors, Dopamine D2 metabolism, Receptors, Ghrelin genetics, Risperidone blood, Tritium, Antipsychotic Agents pharmacology, Brain drug effects, Receptor, Cannabinoid, CB1 metabolism, Risperidone pharmacology, Weight Gain drug effects
Abstract

Background/aims: Body weight gain is a common side effect of treatment with antipsychotics, but the mechanisms underlying this weight gain are unknown. Several factors may be involved in antipsychotic-induced body weight gain including the cannabinoid receptor 1 (CB(1)), the serotonin receptor 2C, the ghrelin receptor, neuropeptide Y, adiponectin and proopiomelanocortin. We investigated whether the expression of these factors was affected in rats chronically treated with the antipsychotic risperidone., Methods: Male Sprague-Dawley rats were treated with risperidone (1.0 mg/kg/day) or vehicle (20% hydroxypropyl beta-cyclodextrin) for 28 days. Expression of the aforementioned factors were examined together with plasma prolactin and ghrelin levels., Results: No difference in body weight gained during treatment was observed between risperidone and vehicle treated rats, but plasma risperidone levels positively correlated with visceral fat mass. Risperidone treatment increased CB(1) receptor binding in the arcuate nucleus (40%), hippocampus (25-30%) and amygdala (35%) without concurrent alterations in the CB(1) receptor mRNA. Risperidone treatment increased adiponectin mRNA., Conclusion: The present study showed that risperidone treatment altered CB(1) receptor binding in the rat brain. Risperidone-induced adiposity and metabolic dysfunction in the clinic may be explained by increased CB(1) receptor density in brain regions involved in appetite and regulation of metabolic function., (Copyright 2009 S. Karger AG, Basel.)

Published
2010
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