Your search keyword '"Hansen, Lasse H."' showing total 10 results

1. Circulating Concentrations of C-Type Natriuretic Peptides Increase with Sacubitril/Valsartan Treatment in Healthy Young Men.

Author

Thonsgaard, Simon, Prickett, Timothy C. R., Hansen, Lasse H., Albrechtsen, Nicolai J. Wewer, Andersen, Ulrik Ø., Terzic, Dijana, Plomgaard, Peter, Gustafsson, Finn, Goetze, Jens P., and Mark, Peter D.

Published

2022

2. The non-ELR CXC chemokine encoded by human cytomegalovirus UL146 genotype 5 contains a C-terminal β-hairpin and induces neutrophil migration as a selective CXCR2 agonist.

Author

Berg, Christian, Wedemeyer, Michael J., Melynis, Motiejus, Schlimgen, Roman R., Hansen, Lasse H., Våbenø, Jon, Peterson, Francis C., Volkman, Brian F., Rosenkilde, Mette M., and Lüttichau, Hans R.

Subjects

CHEMOKINE receptors, HERPESVIRUSES, HOST-virus relationships, GENOTYPES, HUMAN cytomegalovirus, NEUTROPHILS, GENETIC variation, IMMUNOSUPPRESSION

Abstract

Human cytomegalovirus (HCMV) is a major pathogen in immunocompromised patients. The UL146 gene exists as 14 diverse genotypes among clinical isolates, which encode 14 different CXC chemokines. One genotype (vCXCL1GT1) is a known agonist for CXCR1 and CXCR2, while two others (vCXCL1GT5 and vCXCL1GT6) lack the ELR motif considered crucial for CXCR1 and CXCR2 binding, thus suggesting another receptor targeting profile. To determine the receptor target for vCXCL1GT5, the chemokine was probed in a G protein signaling assay on all 18 classical human chemokine receptors, where CXCR2 was the only receptor being activated. In addition, vCXCL1GT5 recruited β-arrestin in a BRET-based assay and induced migration in a chemotaxis assay through CXCR2, but not CXCR1. In contrast, vCXCL1GT1 stimulated G protein signaling, recruited β-arrestin and induced migration through both CXCR1 and CXCR2. Both vCXCL1GT1 and vCXCL1GT5 induced equally potent and efficacious migration of neutrophils, and ELR vCXCL1GT4 and non-ELR vCXCL1GT6 activated only CXCR2. In contrast to most human chemokines, the 14 UL146 genotypes have remarkably long C-termini. Comparative modeling using Rosetta showed that each genotype could adopt the classic chemokine core structure, and predicted that the extended C-terminal tail of several genotypes (including vCXCL1GT1, vCXCL1GT4, vCXCL1GT5, and vCXCL1GT6) forms a novel β-hairpin not found in human chemokines. Secondary NMR shift and TALOS+ analysis of vCXCL1GT1 supported the existence of two stable β-strands. C-terminal deletion of vCXCL1GT1 resulted in a non-functional protein and in a shift to solvent exposure for tryptophan residues likely due to destabilization of the chemokine fold. The results demonstrate that non-ELR chemokines can activate CXCR2 and suggest that the UL146 chemokines have unique C-terminal structures that stabilize the chemokine fold. Increased knowledge of the structure and interaction partners of the chemokine variants encoded by UL146 is key to understanding why circulating HCMV strains sustain 14 stable genotypes. Author summary: Human cytomegalovirus (HCMV) is a prevalent herpesvirus infecting an estimated 60% of the human population worldwide. It is commonly transmitted during early childhood and leads to life-long latency, where viral reactivation can cause severe complications in case of host immune suppression. Furthermore, HCMV is the leading cause of congenital infections. Circulating HCMV strains exhibit great genetic diversity unusual for DNA viruses. One of its most diverse genes is UL146, which encodes a chemokine that facilitates viral dissemination by exploiting the human immune system through mimicry of key immunity components. In this study, we investigate how the diversity of UL146 affects its signaling and structural properties to understand why its genetic diversity is maintained across human populations. We find that certain genotypes that lack key structural domains present in the human homologs nonetheless exert similar functions in the virus-host relationship. Furthermore, many of the UL146 genotypes contain novel structural elements critical for correct protein folding and with the potential to provide HCMV with additional immune modulatory and evasive features. Together, our data highlight a considerable degree of host-adaptation by HCMV and propose novel structural interactions with implications for the virus-host interplay. [ABSTRACT FROM AUTHOR]

Published

2022

3. Augmented Reality for Subsurface Utility Engineering, Revisited.

Author

Hansen, Lasse H., Fleck, Philipp, Stranner, Marco, Schmalstieg, Dieter, and Arth, Clemens

Subjects

AUGMENTED reality, CIVIL engineering, ENGINEERING, CIVIL engineers, GLOBAL Positioning System, VIRTUAL reality

Abstract

Civil engineering is a primary domain for new augmented reality technologies. In this work, the area of subsurface utility engineering is revisited, and new methods tackling well-known, yet unsolved problems are presented. We describe our solution to the outdoor localization problem, which is deemed one of the most critical issues in outdoor augmented reality, proposing a novel, lightweight hardware platform to generate highly accurate position and orientation estimates in a global context. Furthermore, we present new approaches to drastically improve realism of outdoor data visualizations. First, a novel method to replace physical spray markings by indistinguishable virtual counterparts is described. Second, the visualization of 3D reconstructions of real excavations is presented, fusing seamlessly with the view onto the real environment. We demonstrate the power of these new methods on a set of different outdoor scenarios. [ABSTRACT FROM AUTHOR]

Published

2021

4. Neprilysin Inhibition Increases Glucagon Levels in Humans and Mice With Potential Effects on Amino Acid Metabolism.

Author

Kjeldsen, Sasha A S, Hansen, Lasse H, Esser, Nathalie, Mongovin, Steve, Winther-Sørensen, Marie, Galsgaard, Katrine D, Hunt, Jenna E, Kissow, Hannelouise, Ceutz, Frederik R, Terzic, Dijana, Mark, Peter D, Plomgaard, Peter, Goetze, Jens P, Goossens, Gijs H, Blaak, Ellen E, Deacon, Carolyn F, Rosenkilde, Mette M, Zraika, Sakeneh, Holst, Jens J, and Albrechtsen, Nicolai J Wewer

Subjects

NEPRILYSIN, GLUCAGON, AMINO acid metabolism

Abstract

Context Inhibitors of the protease neprilysin (NEP) are used for treating heart failure, but are also linked to improvements in metabolism. NEP may cleave proglucagon-derived peptides, including the glucose and amino acid (AA)-regulating hormone glucagon. Studies investigating NEP inhibition on glucagon metabolism are warranted. Objective This work aims to investigate whether NEP inhibition increases glucagon levels. Methods Plasma concentrations of glucagon and AAs were measured in eight healthy men during a mixed meal with and without a single dose of the NEP inhibitor/angiotensin II type 1 receptor antagonist, sacubitril/valsartan (194 mg/206 mg). Long-term effects of sacubitril/valsartan (8 weeks) were investigated in individuals with obesity (n = 7). Mass spectrometry was used to investigate NEP-induced glucagon degradation, and the derived glucagon fragments were tested pharmacologically in cells transfected with the glucagon receptor (GCGR). Genetic deletion or pharmacological inhibition of NEP with or without concomitant GCGR antagonism was tested in mice to evaluate effects on AA metabolism. Results In healthy men, a single dose of sacubitril/valsartan significantly increased postprandial concentrations of glucagon by 228%, concomitantly lowering concentrations of AAs including glucagonotropic AAs. Eight-week sacubitril/valsartan treatment increased fasting glucagon concentrations in individuals with obesity. NEP cleaved glucagon into 5 inactive fragments (in vitro). Pharmacological NEP inhibition protected both exogenous and endogenous glucagon in mice after an AA challenge, while NEP-deficient mice showed elevated fasting and AA-stimulated plasma concentrations of glucagon and urea compared to controls. Conclusion NEP cleaves glucagon, and inhibitors of NEP result in hyperglucagonemia and may increase postprandial AA catabolism without affecting glycemia. [ABSTRACT FROM AUTHOR]

Published

2021

5. Commentary: measurement of biomarkers in medicine.

Author

Goetze, Jens P, Hansen, Lasse H, Terzic, Dijana, Mark, Peter D, Wewer Albrechtsen, Nicolai J, Plomgaard, Peter, and Rehfeld, Jens F

Published

2018

6. Chromogranin A in the mammalian heart: expression without secretion.

Author

Hansen, Lasse H, Darkner, Stine, Svendsen, Jesper H, Henningsen, Kristoffer, Pehrson, Steen, Chen, Xu, Vakhrushev, Sergey Y, Schjoldager, Katrine T, and Goetze, Jens P

Published

2017

7. Upgrading hypertension treatment.

Author

Goetze, Jens P., Hansen, Lasse H., Terzic, Dijana, and Mark, Peter Dall

Subjects

HYPERTENSION, ATRIAL natriuretic peptides, ANGIOTENSIN II, ESSENTIAL hypertension, GLUCAGON-like peptide 1, MEDICAL sciences, SYSTOLIC blood pressure

Published

2020

8. An atlas of O-linked glycosylation on peptide hormones reveals diverse biological roles.

Author

Madsen, Thomas D., Hansen, Lasse H., Hintze, John, Ye, Zilu, Jebari, Shifa, Andersen, Daniel B., Joshi, Hiren J., Ju, Tongzhong, Goetze, Jens P., Martin, Cesar, Rosenkilde, Mette M., Holst, Jens J., Kuhre, Rune E., Goth, Christoffer K., Vakhrushev, Sergey Y., and Schjoldager, Katrine T.

Subjects

PEPTIDE hormones, NEUROPEPTIDE Y, POST-translational modification, GLYCOSYLATION, PEPTIDE receptors, BLOOD sugar

Abstract

Peptide hormones and neuropeptides encompass a large class of bioactive peptides that regulate physiological processes like anxiety, blood glucose, appetite, inflammation and blood pressure. Here, we execute a focused discovery strategy to provide an extensive map of O-glycans on peptide hormones. We find that almost one third of the 279 classified peptide hormones carry O-glycans. Many of the identified O-glycosites are conserved and are predicted to serve roles in proprotein processing, receptor interaction, biodistribution and biostability. We demonstrate that O-glycans positioned within the receptor binding motifs of members of the neuropeptide Y and glucagon families modulate receptor activation properties and substantially extend peptide half-lives. Our study highlights the importance of O-glycosylation in the biology of peptide hormones, and our map of O-glycosites in this large class of biomolecules serves as a discovery platform for an important class of molecules with potential opportunities for drug designs. O-glycosylation is an abundant post-translational modification but its relevance for bioactive peptides is unclear. Here, the authors detect O-glycans on almost one third of the classified peptide hormones and show that O-glycosylation can modulate peptide half-lives and receptor activation properties. [ABSTRACT FROM AUTHOR]

Published

2020

9. 154-OR: Neprilysin Inhibition Increases Glucagon Levels with Possible Implications for Hepatic Amino Acid Metabolism.

Author

KJELDSEN, SASHA, ZRAIKA, SAKENEH, MONGOVIN, STEVE M., HANSEN, LASSE H., TERZIC, DIJANA, MARK JR., PETER D., PLOMGAARD, PETER, GØTZE, JENS P., WINTHER-SOERENSEN, MARIE, HUNT, JENNA, GALSGAARD, KATRINE D., ROSENKILDE, METTE M., GOOSSENS, GIJS H., BLAAK, ELLEN E., HOLST, JENS J., and WEWER ALBRECHTSEN, NICOLAI J.

Abstract

Glucagon (gcg) regulates hepatic glucose and amino acid (AA) metabolism, and increased gcg levels (hyperglucagonemia) contribute to hyperglycemia in diabetes. We hypothesized that the enzyme neprilysin (NEP) contributes to gcg degradation. We measured plasma gcg levels during a mixed meal in nine healthy men after a single dose of the NEP-inhibitor/angiotensin II receptor blocker (194 mg sacubitril/206 mg valsartan, 30 min prior to meal), a DPP-4 inhibitor (sitagliptin, 2x100mg), these combined, or the meal alone. Postprandial gcg levels were 2.7-fold higher in sacubitril/valsartan treated individuals compared to controls (P=0.005) and this was not significantly altered by the addition of sitagliptin (P=0.28). Sacubitril/valsartan also lowered postprandial plasma AA levels (P=0.01), but glucose levels were unaffected (P=0.76). In obese individuals (n=7), eight weeks sacubitril/valsartan treatment increased fasting gcg levels (P=0.02). To test whether NEP degrades gcg and diminishes its signaling, we performed mass-spectrometry and assessed cells transfected with the gcg receptor (gcgr). We found that NEP cleaves gcg and that the gcg fragments produced were unable to activate the gcgr. In non-sedated C57BL/6JRj female mice (n=8) NEP inhibition (sacubitril, 0.7 nmol/g) increased gcg levels (P=0.02) and tended to increase AA disappearance (P=0.076) and urea formation (P=0.08) during an AA challenge. A gcgr antagonist (Novo Nordisk; 25-2648, 100 mg/kg) abolished the increase in urea formation observed with sacubitril alone. Gcg levels were increased 1.9-fold (P<0.002) with sacubitril compared to without, after a single injection of gcg (96 ng/g). In mice with genetic ablation of NEP (n=10), fasting plasma urea (P=0.003) but surprisingly not gcg levels (P=0.57) were increased compared to controls. NEP degrades gcg and thus inhibitors of NEP may result in hyperglucagonemia with potential metabolic perturbations on hepatic AA metabolism. Disclosure: S. Kjeldsen: None. S. Zraika: Research Support; Self; Novartis Pharmaceuticals Corporation. S.M. Mongovin: None. L.H. Hansen: None. D. Terzic: None. P.D. Mark: None. P. Plomgaard: None. J.P. Gøtze: None. M. Winther-Soerensen: None. J. Hunt: None. K.D. Galsgaard: None. M.M. Rosenkilde: Board Member; Self; Synklino. Consultant; Self; Antag Therapeutics, Bainan Biotech. G.H. Goossens: None. E.E. Blaak: None. J.J. Holst: Advisory Panel; Self; AstraZeneca, Merck Sharp & Dohme Corp., Novo Nordisk A/S, Zealand Pharma A/S. Other Relationship; Spouse/Partner; Antag Therapeutics. N.J. Wewer Albrechtsen: Research Support; Self; Mercodia, Novo Nordisk A/S, Novo Nordisk Foundation. Speaker's Bureau; Self; Merck Sharp & Dohme Corp. Funding: Novo Nordisk Foundation (NNF19OC0055001) [ABSTRACT FROM AUTHOR]

Published

2020

10. 1002-P: Sacubitril/Valsartan Increases Postprandial Glucagon-Like Peptide-1 Concentrations and Has Synergistic Effects when Combined with Sitagliptin.

Author

WEWER ALBRECHTSEN, NICOLAI JACOB, MARK JR., PETER DALL, HANSEN, LASSE H., ANDERSEN, ULRIK ØRSØ, HARTMANN, BOLETTE, CARR, RICHARD D., GUSTAFSSON, FINN, DEACON, CAROLYN F., HOLST, JENS J., GØTZE, JENS PETER, and PLOMGAARD, PETER

Abstract

Diabetes is an independent risk factor for heart failure. Treatment with a neprilysin inhibitor-angiotensin receptor blocker (sacubitril/valsartan) was demonstrated to improve glycemia and reduce time to initiation of insulin therapy but the underlying mechanism(s) are unknown. We hypothesized that sacubitril/valsartan attenuates neprilysin-dependent degradation of GLP-1, and that combined inhibition of the other enzyme cleaving intact GLP-1, dipeptidyl peptidase 4 (DPP-4), would have synergistic effects on levels of intact GLP-1. In two open-labeled clinical trials, a total of 16 healthy men received a standardized meal (34% carbohydrates, 45% fat, 21% protein) combined with a prior single dose of sacubitril (194mg)/valsartan(206mg), sitagliptin (2x100mg), sacubitril(194mg)/valsartan(206mg) and sitagliptin (2x100mg), or control. Sacubitril/valsartan increased postprandial plasma concentrations of total GLP-1 by 67% and had synergistic effects on intact GLP-1 when combined with sitagliptin. Concentrations of glucose, insulin, and GIP were not significantly changed upon sacubitril/valsartan treatment. Sacubitril/valsartan synergistically protects intact GLP-1 when combined with a DPP-4 inhibitor pointing to a therapeutic potential for the combination in patients with cardiovascular disease and diabetes. Disclosure: N.J. Wewer Albrechtsen: Research Support; Self; Mercodia, Novo Nordisk A/S. Speaker's Bureau; Self; Merck Sharp & Dohme Corp. P.D. Mark: None. L.H. Hansen: None. U.Ø. Andersen: None. B. Hartmann: None. R.D. Carr: Employee; Self; Merck & Co., Inc. Speaker's Bureau; Spouse/Partner; Eli Lilly and Company, Merck & Co., Inc. F. Gustafsson: Advisory Panel; Self; Abbott, Corvia Medical, Inc. Consultant; Self; Bayer AG. Employee; Spouse/Partner; Novo Nordisk A/S. Research Support; Self; Novo Nordisk Foundation. Speaker's Bureau; Self; Novartis AG, Novo Nordisk A/S. C.F. Deacon: Employee; Spouse/Partner; Merck Sharp & Dohme Corp. Stock/Shareholder; Spouse/Partner; Merck & Co., Inc. Other Relationship; Self; Eli Lilly and Company, Merck Sharp & Dohme Corp. J.J. Holst: Advisory Panel; Self; Novo Nordisk A/S. J.P. Gøtze: None. P. Plomgaard: None. Funding: Rigshopitalet [ABSTRACT FROM AUTHOR]

Published

2019