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2,698 results on '"Jauhiainen, M"'

1. Jauhiainen M. The use of Zechariah in revelation. Tubingen: Mohr Siebeck, 2005. (wissenschaftliche Untersuchungen zum neuen Testament, 2. Reihe; 199). VI + 200 p

Abstract

Рецензируемая книга финского исследователя Марко Яухиайнена является публикацией пересмотренного варианта его диссертации (Ph.D.), защищенной в 2003 г. в Кембриджском университете. Будучи посвящена вопросу об использовании в Апокалипсисе книги пророка Захарии (далее Зах), она представляет собой очередное звено в цепи появляющихся в последние годы одно за другим исследований, в центре внимания которых находится проблема использования в книге Откровения (далее Откр) Ветхого Завета.

Published
2007

2. PCSK9 Antibodies Treatment Specifically Enhances the Macrophage-specific Reverse Cholesterol Transport Pathway in Heterozygous Familial Hypercholesterolemia.

Author

Borràs C, Canyelles M, Girona J, Ibarretxe D, Santos D, Revilla G, Llorente-Cortes V, Rotllan N, Kovanen PT, Jauhiainen M, Lee-Rueckert M, Masana L, Arrieta F, Martínez-Botas J, Gómez-Coronado D, Ribalta J, Tondo M, Blanco-Vaca F, and Escolà-Gil JC

Abstract

We investigated the potential of proprotein convertase subtilisin/kexin type 9 (PCSK9) antibodies to restore macrophage cholesterol efflux in subjects with heterozygous familial hypercholesterolemia (FH) and to enhance the macrophage-specific reverse cholesterol transport pathway in mice. Analyses of macrophage-derived cholesterol distribution of plasma from FH patients revealed that low-density lipoprotein (LDL) particles contained less, and high-density lipoprotein particles contained more radiolabeled cholesterol after treatment with either PCSK9 inhibitor. PCSK9 antibodies facilitated the transfer of macrophage-derived cholesterol and LDL-derived cholesterol to feces exclusively in heterozygous LDL receptor-deficient mice expressing human APOB100. PCSK9 inhibitors act as positive regulators of the macrophage-specific reverse cholesterol transport pathway in individuals with heterozygous FH., Competing Interests: This work was partly funded by the Instituto de Salud Carlos III and FEDER “Una manera de hacer Europa” grants PI2100140 (to Dr Blanco-Vaca and Dr Tondo), PI2101523 (to Dr Llorente-Cortes), PI2300232 (to Dr Canyelles and Dr Escolà-Gil), JR22/00003 (to Dr Canyelles), by the Ministerio de Ciencia e Innovación grant RTI2018-098113-B-I00 (to Dr Gómez-Coronado), by BBVA Foundation Ayudas a Equipos de Investigación 2019 to the project “Translational Molecular Imaging for detection of Cholesterol Entrapment in the Vasculature with 68Ga-labeled LRP1-derived peptides” (to Dr Llorente-Cortes) and grant 12/C/2015 from La Fundació la Marató TV3 (to Dr Masana and Dr Blanco-Vaca); the Jane and Aatos Erkko Foundation (to Dr Jauhiainen), and the Finnish Foundation for Cardiovascular Research (to Dr Jauhiainen). Ms Borràs was funded with a Formación de Profesorado Universitario grant FPU20/07440 from the Ministerio de Universidades. Dr Rotllan was funded by Agencia Estatal de Investigación (AEI/10.13039/501100011033) within the Subprograma Ramón y Cajal (RYC-201722879). CIBERDEM and CIBERCV are Instituto de Salud Carlos III projects. All authors have reported that they have no relationships relevant to the contents of this paper to disclose., (© 2024 The Authors.)

Published
2024
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4. Viral DNA in submandibular gland tissue with an inflammatory disorder.

Author

Keski-Säntti N, Waltimo E, Mäkitie A, Hagström J, Söderlund-Venermo M, Atula T, Haglund C, Sinkkonen ST, and Jauhiainen M

Abstract

Background: The etiology behind different types of chronic sialadenitis (CS), some of which exhibit IgG4 overexpression, is unknown. Further, IgG4-related disease (IgG4-RD) commonly affects the submandibular gland, but its relationship to IgG4-overexpressing CS, and the antigen triggering IgG4 overexpression, remain unknown., Materials and Methods: By qPCR, we assessed the presence of 21 DNA-viruses causing IgG4 overexpression in submandibular gland tissue from patients with IgG4-positive and IgG4-negative CS. Healthy submandibular glands and glands with sialolithiasis without CS were used as controls. We examined the distribution of HHV-7, HHV-6B and B19V DNA, within virus PCR-positive tissues with RNAscope in-situ hybridization (RISH)., Results: We detected DNA from seven viruses in 48/61 samples. EBV DNA was more prevalent within the IgG4-positive samples (6/29; 21%) than the IgG4-negative ones (1/19; 5.3%). B19V DNA was more prevalent within the IgG4-negative samples (5/19; 26%) than the IgG4-positive ones (4/29; 14%). The differences in virus prevalence were not statistically significant. Of the IgG4-RD samples ( n  = 3) one contained HHV-6B DNA. RISH only showed signals of HHV-7., Conclusions: None of the studied viruses are implicated as triggering IgG4-overexpression in CS. Although our results do not confirm viral etiology in the examined conditions, they provide valuable information on the prevalence of viruses in both diseased and healthy submandibular gland tissue., Competing Interests: No potential conflict of interest was reported by the author(s)., (© 2024 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.)

Published
2024
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6. Human HDL subclasses modulate energy metabolism in skeletal muscle cells.

Author

Lund J, Lähteenmäki E, Eklund T, Bakke HG, Thoresen GH, Pirinen E, Jauhiainen M, Rustan AC, and Lehti M

Subjects
Humans, Animals, Mice, Energy Metabolism, Fatty Acids metabolism, Glucose metabolism, RNA, Messenger metabolism, Muscle Fibers, Skeletal metabolism, Muscle, Skeletal metabolism
Abstract

In addition to its antiatherogenic role, HDL reportedly modulates energy metabolism at the whole-body level. HDL functionality is associated with its structure and composition, and functional activities can differ between HDL subclasses. Therefore, we studied if HDL 2 and HDL 3 , the two major HDL subclasses, are able to modulate energy metabolism of skeletal muscle cells. Differentiated mouse and primary human skeletal muscle myotubes were used to investigate the influences of human HDL 2 and HDL 3 on glucose and fatty uptake and oxidation. HDL-induced changes in lipid distribution and mRNA expression of genes related to energy substrate metabolism, mitochondrial function, and HDL receptors were studied with human myotubes. Additionally, we examined the effects of apoA-I and discoidal, reconstituted HDL particles on substrate metabolism. In mouse myotubes, HDL subclasses strongly enhanced glycolysis upon high and low glucose concentrations. HDL 3 caused a minor increase in ATP-linked respiration upon glucose conditioning but HDL 2 improved complex I-mediated mitochondrial respiration upon fatty acid treatment. In human myotubes, glucose metabolism was attenuated but fatty acid uptake and oxidation were markedly increased by both HDL subclasses, which also increased mRNA expression of genes related to fatty acid metabolism and HDL receptors. Finally, both HDL subclasses induced incorporation of oleic acid into different lipid classes. These results, demonstrating that HDL subclasses enhance fatty acid oxidation in human myotubes but improve anaerobic metabolism in mouse myotubes, support the role of HDL as a circulating modulator of energy metabolism. Exact mechanisms and components of HDL causing the change, require further investigation., Competing Interests: Conflict of interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2024
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7. Menaquinone 4 increases plasma lipid levels in hypercholesterolemic mice

Author

Weisell, J. (Jonna), Ruotsalainen, A.-K. (Anna-Kaisa), Näpänkangas, J. (Juha), Jauhiainen, M. (Matti), and Rysä, J. (Jaana)

Subjects
Mice, Knockout, Pharmacology, Science, Hypercholesterolemia, Calcinosis, Vitamin K 2, Aortic Valve Stenosis, Lipids, Article, Cardiovascular biology, Lipoproteins, LDL, Disease Models, Animal, Mice, Receptors, LDL, Risk Factors, Aortic Valve, Animals, Humans, Medicine, lipids (amino acids, peptides, and proteins), Triglycerides, Apolipoproteins B
Abstract

In calcific aortic valve disease (CAVD) progressive valvular calcification causes aortic valve dysfunction. CAVD has several risk factors such as age and dyslipidemia. Vitamin K was shown to inhibit vascular calcification in mice and valvular calcification in patients with CAVD. We studied the effect of menaquinone 4 (MK4/vitamin K2) on valvular calcification in the hypercholesterolemic mouse model of CAVD. LDLr −/− ApoB 100/100 male mice were fed with a Western diet for 5 months, with (n = 10) or without (n = 10) added 0.2 mg/g MK4. Body weight gain was followed weekly. Morphology of aortic valves and liver was assessed with immunohistochemistry. Plasma cholesterol levels and cytokines from hepatic tissue were assessed in the end of the study. Hepatic gene expression of lipid metabolism regulating genes were assessed after 18 h diet. MK4 exacerbated the lipoprotein lipid profile without affecting aortic valve morphology in hypercholesterolemic LDLr −/− ApoB 100/100 mice. The MK4-containing WD diet increased plasma levels of LDL and triglycerides, hepatic steatosis, and mRNA expression of genes required for triglyceride and cholesterol synthesis. MK4 diminished levels of several cytokines and chemokines in liver, including IL-6, TNFα and MCP1, as measured by hepatic cytokine array. Consequently, MK4 may exert non-beneficial effects on circulating lipid levels, especially in hypercholesterolemic individuals.

Published
2021

8. Children with familial hypercholesterolemia display changes in LDL and HDL function: A cross-sectional study.

Author

Christensen JJ, Narverud I, Ruuth M, Heier M, Jauhiainen M, Ulven SM, Bogsrud MP, Kovanen PT, Halvorsen B, Oda MN, Wium C, Retterstøl K, Öörni K, and Holven KB

Subjects
Apolipoprotein A-I, Child, Cholesterol, HDL, Cholesterol, LDL, Cross-Sectional Studies, Humans, Atherosclerosis, Cardiovascular Diseases, Hyperlipoproteinemia Type II
Abstract

Background: The functional status of lipoprotein particles contributes to atherogenesis. The tendency of plasma low-density lipoprotein (LDL) particles to aggregate and the ability of igh-density lipoprotein (HDL) particles to induce and mediate reverse cholesterol transport associate with high and low risk for cardiovascular disease in adult patients, respectively. However, it is unknown whether children with familial hypercholesterolemia (FH) display lipoprotein function alterations., Hypothesis: We hypothesized that FH children had disrupted lipoprotein functions., Methods: We analyzed LDL aggregation susceptibility and HDL-apoA-I exchange (HAE), and activity of four proteins that regulate lipoprotein metabolism (cholesteryl ester transfer protein, lecithin-cholesterol acyltransferase, phospholipid transfer protein, and paraoxonase-1) in plasma samples derived from children with FH (n = 47) and from normocholesterolemic children (n = 56). Variation in lipoprotein functions was further explored using an nuclear magnetic resonance-based metabolomics profiling approach., Results: LDL aggregation was higher, and HAE was lower in FH children than in normocholesterolemic children. LDL aggregation associated positively with LDL cholesterol (LDL-C) and negatively with triglycerides, and HAE/apoA-I associated negatively with LDL-C. Generally, the metabolomic profile for LDL aggregation was opposite of that of HAE/apoA-I., Conclusions: FH children displayed increased atherogenicity of LDL and disrupted HDL function. These newly observed functional alterations in LDL and HDL add further understanding of the risk for atherosclerotic cardiovascular disease in FH children., (© 2021 The Association for the Publication of the Journal of Internal Medicine.)

Published
2021
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11. Novel biomarkers associated with incident heart failure in 10 106 Finnish men

Author

Jauhiainen, R. (Raimo), Jauhiainen, M. (Matti), Vangipurapu, J. (Jagadish), Kuulasmaa, T. (Teemu), Ala‐Korpela, M. (Mika), Laakso, M. (Markku), and Kuusisto, J. (Johanna)

Subjects
Inflammation, Hypertension, Principal component analysis, Metabolomics, Heart failure, Biomarkers
Abstract

Aims: There are only a few studies on novel biomarkers for incident heart failure (HF). We investigated the association of multiple circulating biomarkers with incident HF in a large prospective population‐based study. Methods and results: Conventional risk factors and inflammatory biomarkers were measured, and systemic metabolic measures determined by a high‐throughput serum nuclear magnetic resonance platform in a population‐based Metabolic Syndrome in Men study including 10 106 Finnish men without HF at baseline. During an 8.8 year follow‐up, 172 (1.7%) participants developed HF. Adiponectin, high‐sensitivity C‐reactive protein (hs‐CRP), glycoprotein acetyls, alanine, phenylalanine, glycerol, and pyruvate were associated with incident HF in unadjusted Cox regression analyses, in addition to age, systolic blood pressure, body mass index (BMI), waist circumference, fasting plasma glucose and insulin, haemoglobin A1c (HbA1c), and urinary albumin excretion rate (UAER). After adjustment for age, BMI, diabetes, and statin medication, only adiponectin [hazard ratio (HR) 1.18 (1.10–1.26, P = 4.1E‐08)], pyruvate [HR 1.38 (1.28–1.50, P = 8.2E‐05)], and UAER [HR 1.15 (1.11—1.18, P = 7.8E‐06)] remained statistically significant. In principal component analysis of biomarkers associated with HF in univariate Cox regression analysis, we identified six components, explaining 61.7% of total variance. Four principal components, one with significant loadings on waist, BMI, fasting plasma insulin, interleukin 1 receptor antagonist, and hs‐CRP; another on pyruvate, glycoprotein acetyls, alanine, glycerol and HbA1c; third on age and glomerular filtration rate; and fourth on systolic blood pressure, UAER, and adiponectin, significantly associated with incident HF. Conclusions: Several novel metabolic and inflammatory biomarkers were associated with incident HF, suggesting early activation of respective pathways in the pathogenesis of HF.

Published
2021

14. ”Vi vill ta krafttag för att bussen ska fra”:en studie om verbanvändning i Centerpartiets valbroschyr inför Stockholms läns landstingsval 2018

Author

Jauhiainen, M. (Miika) and Jauhiainen, M. (Miika)

Abstract

Abstrakt. I min kandidatavhandling har jag forskat i Centerpartiets verbanvändning i partiets valbroschyr, som jag använde som forskningsmaterial, inför Stockholms läns landstingsval 2018. Forskningsmetoden i min avhandling är både kvantitativ och kvalitativ. Med hjälp av grammatik och diskursanalys har jag kunnat forska i verb som använts. Det har också varit viktigt att förstå hur språket över huvud taget används i den politiska kontexten. Huvudresultat, som jag fick, visar att olika verbval huvudsakligen är medvetna för att skribenten kan uppnå sina mål med broschyrens innehåll och budskap. I politiken är målet för olika partier att få tillräcklig med makt för att kunna påverka beslut i samhället. Detta förklarar väl partiets språk- och verbanvändning och dess syfte. I broschyren förekommer till exempel flera imperativa verb eftersom partiet vill uttrycka med sitt budskap vad som måste göras i samhället, enligt sin egen ideologi.

Published
2021

20. Time-resolved fluorescence based direct two-site apoA-I immunoassays and their clinical application in patients with suspected obstructive coronary artery disease.

Author

Negi P, Heikkilä T, Vuorenpää K, Tuunainen E, Nammas W, Maaniitty T, Knuuti J, Metso J, Lövgren J, Jauhiainen M, Lamminmäki U, Pettersson K, and Saraste A

Abstract

Objective: High-density lipoprotein (HDL) is a heterogeneous group of subpopulations differing in protein/lipid composition and in their anti-atherogenic function. There is a lack of assays that can target the functionality of HDL particles related to atherosclerosis. The objective of this study was to construct two-site apolipoprotein A-I (apoA-I) assays and to evaluate their clinical performance in patients with suspected obstructive coronary artery disease (CAD)., Approach and Results: Direct two-site apoA-I assays (named 109-121 and 110-525) were developed to identify the presence of apoA-I in the HDL of patients with CAD using apoA-I antibodies as a single-chain variable fragment fused with alkaline phosphatase. ApoA-I 109-121 and apoA-I 110-525 were measured in 197 patients undergoing coronary computed tomography angiography (CTA) and myocardial positron emission tomography perfusion imaging due to suspected obstructive CAD. Among patients not using lipid-lowering medication (LLM, n = 125), the level of apoA-I 110-525 was higher in the presence than in the absence of coronary atherosclerosis [21.88 (15.89-27.44) mg/dl vs. 17.66 (13.38-24.48) mg/dl, P = 0.01)], whereas there was no difference in apoA-I 109-121 , HDL cholesterol, and apoA-I determined using a polyclonal apoA-I antibody. The levels of apoA-I 109-121 and apoA-I 110-525 were similar in the presence or absence of obstructive CAD. Among patients not using LLM, apoA-I 110-525 adjusted for age and sex identified individuals with coronary atherosclerosis with a similar accuracy to traditional risk factors [area under the curve [AUC] (95% CI): 0.75(0.66-0.84) 0.71 (0.62-0.81)]. However, a combination of apoA-I 110-525 with risk factors did not improve the accuracy [AUC (95% CI): 0.73 (0.64-0.82)]., Conclusion: Direct two-site apoA-I assays recognizing heterogeneity in reactivity with apoA-I could provide a potential approach to identify individuals at a risk of coronary atherosclerosis. However, their clinical value remains to be studied in larger cohorts., Competing Interests: Author AS declares fees for lectures or consultancy from Abbott, Amgen, Astra Zeneca (AS and JK), Boehringer Ingelheim, Bayer and Pfizer, Novartis (JK), GE Healthcare (JK). The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Negi, Heikkilä, Vuorenpää, Tuunainen, Nammas, Maaniitty, Knuuti, Metso, Lövgren, Jauhiainen, Lamminmäki, Pettersson and Saraste.)

Published
2022
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21. Genetic architecture of human plasma lipidome and its link to cardiovascular disease

Author

Tabassum, R. (Rubina), Ramo, J. T. (Joel T.), Ripatti, P. (Pietari), Koskela, J. T. (Jukka T.), Kurki, M. (Mitja), Karjalainen, J. (Juha), Palta, P. (Priit), Hassan, S. (Shabbeer), Nunez-Fontarnau, J. (Javier), Kiiskinen, T. T. (Tuomo T. J.), Soderlund, S. (Sanni), Matikainen, N. (Niina), Gerl, M. J. (Mathias J.), Surma, M. A. (Michal A.), Klose, C. (Christian), Stitziel, N. O. (Nathan O.), Laivuori, H. (Hannele), Havulinna, A. S. (Aki S.), Service, S. K. (Susan K.), Salomaa, V. (Veikko), Pirinen, M. (Matti), Jauhiainen, M. (Matti), Daly, M. J. (Mark J.), Freimer, N. B. (Nelson B.), Palotie, A. (Aarno), Taskinen, M.-R. (Marja-Riitta), Simons, K. (Kai), Ripatti, S. (Samuli), Jalanko, A. (Anu), Kaprio, J. (Jaakko), Donner, K. (Kati), Kaunisto, M. (Mari), Mars, N. (Nina), Dada, A. (Alexander), Shcherban, A. (Anastasia), Ganna, A. (Andrea), Lehisto, A. (Arto), Kilpelainen, E. (Elina), Brein, G. (Georg), Awaisa, G. (Ghazal), Harju, J. (Jarmo), Parr, K. (Kalle), Parolo, P. D. (Pietro Della Briotta), Kajanne, R. (Risto), Lemmela, S. (Susanna), Sipila, T. P. (Timo P.), Sipila, T. (Tuomas), Lyhs, U. (Ulrike), Llorens, V. (Vincent), Niiranen, T. (Teemu), Kristiansson, K. (Kati), Mannikko, L. (Lotta), Jimenez, M. G. (Manuel Gonzalez), Perola, M. (Markus), Wong, R. (Regis), Kilpi, T. (Terhi), Hiekkalinna, T. (Tero), Jarvensivu, E. (Elina), Kaiharju, E. (Essi), Mattsson, H. (Hannele), Laukkanen, M. (Markku), Laiho, P. (Paivi), Lahteenmaki, S. (Sini), Sistonen, T. (Tuuli), Soini, S. (Sirpa), Ziemann, A. (Adam), Lehtonen, A. (Anne), Lertratanakul, A. (Apinya), Georgantas, B. (Bob), Riley-Gillis, B. (Bridget), Quarless, D. (Danjuma), Rahimov, F. (Fedik), Heap, G. (Graham), Jacob, H. (Howard), Waring, J. (Jeffrey), Davis, J. W. (Justin Wade), Smaoui, N. (Nizar), Popovic, R. (Relja), Esmaeeli, S. (Sahar), Waring, J. (Jeff), Matakidou, A. (Athena), Challis, B. (Ben), Close, D. (David), Petrovski, S. (Slave), Karlsson, A. (Antti), Schleutker, J. (Johanna), Pulkki, K. (Kari), Virolainen, P. (Petri), Kallio, L. (Lila), Mannermaa, A. (Arto), Heikkinen, S. (Sami), Kosma, V.-M. (Veli-Matti), Chen, C.-Y. (Chia-Yen), Runz, H. (Heiko), Liu, J. (Jimmy), Bronson, P. (Paola), John, S. (Sally), Landenpera, S. (Sanni), Eaton, S. (Susan), Zhou, W. (Wei), Hendolin, M. (Minna), Tuovila, O. (Outi), Pakkanen, R. (Raimo), Maranville, J. (Joseph), Usiskin, K. (Keith), Hochfeld, M. (Marla), Plenge, R. (Robert), Yang, R. (Robert), Biswas, S. (Shameek), Greenberg, S. (Steven), Laakkonen, E. (Eija), Kononen, J. (Juha), Paloneva, J. (Juha), Kujala, U. (Urho), Kuopio, T. (Teijo), Laukkanen, J. (Jari), Kangasniemi, E. (Eeva), Savinainen, K. (Kimmo), Laaksonen, R. (Reijo), Arvas, M. (Mikko), Ritari, J. (Jarmo), Partanen, J. (Jukka), Hyvarinen, K. (Kati), Wahlfors, T. (Tiina), Peterson, A. (Andrew), Oh, D. (Danny), Chang, D. (Diana), Teng, E. (Edmond), Strauss, E. (Erich), Kerchner, G. (Geoff), Chen, H. (Hao), Chen, H. (Hubert), Schutzman, J. (Jennifer), Michon, J. (John), Hunkapiller, J. (Julie), McCarthy, M. (Mark), Bowers, N. (Natalie), Lu, T. (Tim), Bhangale, T. (Tushar), Pulford, D. (David), Waterworth, D. (Dawn), Kulkarni, D. (Diptee), Xu, F. (Fanli), Betts, J. (Jo), Gordillo, J. E. (Jorge Esparza), Hoffman, J. (Joshua), Auro, K. (Kirsi), McCarthy, L. (Linda), Ghosh, S. (Soumitra), Ehm, M. (Meg), Pitkanen, K. (Kimmo), Makela, T. (Tomi), Loukola, A. (Anu), Joensuu, H. (Heikki), Sinisalo, J. (Juha), Eklund, K. (Kari), Aaltonen, L. (Lauri), Farkkila, M. (Martti), Carpen, O. (Olli), Kauppi, P. (Paula), Tienari, P. (Pentti), Ollila, T. (Terhi), Tuomi, T. (Tiinamaija), Meretoja, T. (Tuomo), Pitkaranta, A. (Anne), Turunen, J. (Joni), Hannula-Jouppi, K. (Katariina), Pikkarainen, S. (Sampsa), Seitsonen, S. (Sanna), Koskinen, M. (Miika), Palomaki, A. (Antti), Rinne, J. (Juha), Metsarinne, K. (Kaj), Elenius, K. (Klaus), Pirila, L. (Laura), Koulu, L. (Leena), Voutilainen, M. (Markku), Juonala, M. (Markus), Peltonen, S. (Sirkku), Aaltonen, V. (Vesa), Loboda, A. (Andrey), Podgornaia, A. (Anna), Chhibber, A. (Aparna), Chu, A. (Audrey), Fox, C. (Caroline), Diogo, D. (Dorothee), Holzinger, E. (Emily), Eicher, J. (John), Gormley, P. (Padhraig), Mehta, V. (Vinay), Wang, X. (Xulong), Kettunen, J. (Johannes), Pylkas, K. (Katri), Kalaoja, M. (Marita), Karjalainen, M. (Minna), Hinttala, R. (Reetta), Kaarteenaho, R. (Riitta), Vainio, S. (Seppo), Mantere, T. (Tuomo), Remes, A. (Anne), Huhtakangas, J. (Johanna), Junttila, J. (Juhani), Tasanen, K. (Kaisa), Huilaja, L. (Laura), Luodonpaa, M. (Marja), Hautala, N. (Nina), Karihtala, P. (Peeter), Kauppila, S. (Saila), Harju, T. (Terttu), Blomster, T. (Timo), Soininen, H. (Hilkka), Harvima, I. (Ilkka), Pihlajamaki, J. (Jussi), Kaarniranta, K. (Kai), Pelkonen, M. (Margit), Laakso, M. (Markku), Hiltunen, M. (Mikko), Kiviniemi, M. (Mikko), Kaipiainen-Seppanen, O. (Oili), Auvinen, P. (Paivi), Kalviainen, R. (Reetta), Julkunen, V. (Valtteri), Malarstig, A. (Anders), Hedman, A. (Asa), Marshal, C. (Catherine), Whelan, C. (Christopher), Lehtonen, H. (Heli), Parkkinen, J. (Jaakko), Linden, K. (Kari), Kalpala, K. (Kirsi), Miller, M. (Melissa), Bing, N. (Nan), McDonough, S. (Stefan), Chen, X. (Xing), Hu, X. (Xinli), Wu, Y. (Ying), Auranen, A. (Annika), Jussila, A. (Airi), Uusitalo-Jarvinen, H. (Hannele), Kankaanranta, H. (Hannu), Uusitalo, H. (Hannu), Peltola, J. (Jukka), Kahonen, M. (Mika), Isomaki, P. (Pia), Laitinen, T. (Tarja), Salmi, T. (Teea), Muslin, A. (Anthony), Wang, C. (Clarence), Chatelain, C. (Clement), Xu, E. (Ethan), Auge, F. (Franck), Call, K. (Kathy), Klinger, K. (Kathy), Crohns, M. (Marika), Gossel, M. (Matthias), Palin, K. (Kimmo), Rivas, M. (Manuel), Siirtola, H. (Harri), and Tabuenca, J. G. (Javier Gracia)

Subjects
lipids (amino acids, peptides, and proteins)
Abstract

Understanding genetic architecture of plasma lipidome could provide better insights into lipid metabolism and its link to cardiovascular diseases (CVDs). Here, we perform genome-wide association analyses of 141 lipid species (n = 2,181 individuals), followed by phenome-wide scans with 25 CVD related phenotypes (n = 511,700 individuals). We identify 35 lipid-species-associated loci (P

Published
2019

22. The HDL particle composition determines its antitumor activity in pancreatic cancer.

Author

Oberle R, Kührer K, Österreicher T, Weber F, Steinbauer S, Udonta F, Wroblewski M, Ben-Batalla I, Hassl I, Körbelin J, Unseld M, Jauhiainen M, Plochberger B, Röhrl C, Hengstschläger M, Loges S, and Stangl H

Subjects
Cell Proliferation, Cholesterol metabolism, Humans, Carcinoma, Pancreatic Ductal genetics, Pancreatic Neoplasms metabolism
Abstract

Despite enormous efforts to improve therapeutic options, pancreatic cancer remains a fatal disease and is expected to become the second leading cause of cancer-related deaths in the next decade. Previous research identified lipid metabolic pathways to be highly enriched in pancreatic ductal adenocarcinoma (PDAC) cells. Thereby, cholesterol uptake and synthesis promotes growth advantage to and chemotherapy resistance for PDAC tumor cells. Here, we demonstrate that high-density lipoprotein (HDL)-mediated efficient cholesterol removal from cancer cells results in PDAC cell growth reduction and induction of apoptosis in vitro. This effect is driven by an HDL particle composition-dependent interaction with SR-B1 and ABCA1 on cancer cells. AAV-mediated overexpression of APOA1 and rHDL injections decreased PDAC tumor development in vivo. Interestingly, plasma samples from pancreatic-cancer patients displayed a significantly reduced APOA1-to-SAA1 ratio and a reduced cholesterol efflux capacity compared with healthy donors. We conclude that efficient, HDL-mediated cholesterol depletion represents an interesting strategy to interfere with the aggressive growth characteristics of PDAC., (© 2022 Oberle et al.)

Published
2022
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23. Genetic architecture of human plasma lipidome and its link to cardiovascular disease

Author

Tabassum, R, Ramo, JT, Ripatti, P, Koskela, JT, Kurki, M, Karjalainen, J, Palta, P, Hassan, S, Nunez-Fontarnau, J, Kiiskinen, TTJ, Soderlund, S, Matikainen, N, Gerl, MJ, Surma, MA, Klose, C, Stitziel, NO, Laivuori, H, Havulinna, AS, Service, SK, Salomaa, V, Pirinen, M, Jauhiainen, M, Daly, MJ, Freimer, NB, Palotie, A, Taskinen, M-R, Simons, K, Ripatti, S, Jalanko, A, Kaprio, J, Donner, K, Kaunisto, M, Mars, N, Dada, A, Shcherban, A, Ganna, A, Lehisto, A, Kilpelainen, E, Brein, G, Awaisa, G, Harju, J, Parr, K, Parolo, PDB, Kajanne, R, Lemmela, S, Sipila, TP, Sipila, T, Lyhs, U, Llorens, V, Niiranen, T, Kristiansson, K, Mannikko, L, Jimenez, MG, Perola, M, Wong, R, Kilpi, T, Hiekkalinna, T, Jarvensivu, E, Kaiharju, E, Mattsson, H, Laukkanen, M, Laiho, P, Lahteenmaki, S, Sistonen, T, Soini, S, Ziemann, A, Lehtonen, A, Lertratanakul, A, Georgantas, B, Riley-Gillis, B, Quarless, D, Rahimov, F, Heap, G, Jacob, H, Waring, J, Davis, JW, Smaoui, N, Popovic, R, Esmaeeli, S, Matakidou, A, Challis, B, Close, D, Petrovski, S, Karlsson, A, Schleutker, J, Pulkki, K, Virolainen, P, Kallio, L, Mannermaa, A, Heikkinen, S, Kosma, V-M, Chen, C-Y, Runz, H, Liu, J, Bronson, P, John, S, Landenpera, S, Eaton, S, Zhou, W, Hendolin, M, Tuovila, O, Pakkanen, R, Maranville, J, Usiskin, K, Hochfeld, M, Plenge, R, Yang, R, Biswas, S, Greenberg, S, Laakkonen, E, Kononen, J, Paloneva, J, Kujala, U, Kuopio, T, Laukkanen, J, Kangasniemi, E, Savinainen, K, Laaksonen, R, Arvas, M, Ritari, J, Partanen, J, Hyvarinen, K, Wahlfors, T, Peterson, A, Oh, D, Chang, D, Teng, E, Strauss, E, Kerchner, G, Chen, H, Schutzman, J, Michon, J, Hunkapiller, J, McCarthy, M, Bowers, N, Lu, T, Bhangale, T, Pulford, D, Waterworth, D, Kulkarni, D, Xu, F, Betts, J, Gordillo, JE, Hoffman, J, Auro, K, McCarthy, L, Ghosh, S, Ehm, M, Pitkanen, K, Makela, T, Loukola, A, Joensuu, H, Sinisalo, J, Eklund, K, Aaltonen, L, Farkkila, M, Carpen, O, Kauppi, P, Tienari, P, Ollila, T, Tuomi, T, Meretoja, T, Pitkaranta, A, Turunen, J, Hannula-Jouppi, K, Pikkarainen, S, Seitsonen, S, Koskinen, M, Palomaki, A, Rinne, J, Metsarinne, K, Elenius, K, Pirila, L, Koulu, L, Voutilainen, M, Juonala, M, Peltonen, S, Aaltonen, V, Loboda, A, Podgornaia, A, Chhibber, A, Chu, A, Fox, C, Diogo, D, Holzinger, E, Eicher, J, Gormley, P, Mehta, V, Wang, X, Kettunen, J, Pylkas, K, Kalaoja, M, Karjalainen, M, Hinttala, R, Kaarteenaho, R, Vainio, S, Mantere, T, Remes, A, Huhtakangas, J, Junttila, J, Tasanen, K, Huilaja, L, Luodonpaa, M, Hautala, N, Karihtala, P, Kauppila, S, Harju, T, Blomster, T, Soininen, H, Harvima, I, Pihlajamaki, J, Kaarniranta, K, Pelkonen, M, Laakso, M, Hiltunen, M, Kiviniemi, M, Kaipiainen-Seppanen, O, Auvinen, P, Kalviainen, R, Julkunen, V, Malarstig, A, Hedman, A, Marshal, C, Whelan, C, Lehtonen, H, Parkkinen, J, Linden, K, Kalpala, K, Miller, M, Bing, N, McDonough, S, Chen, X, Hu, X, Wu, Y, Auranen, A, Jussila, A, Uusitalo-Jarvinen, H, Kankaanranta, H, Uusitalo, H, Peltola, J, Kahonen, M, Isomaki, P, Laitinen, T, Salmi, T, Muslin, A, Wang, C, Chatelain, C, Xu, E, Auge, F, Call, K, Klinger, K, Crohns, M, Gossel, M, Palin, K, Rivas, M, Siirtola, H, Tabuenca, JG, Tabassum, R, Ramo, JT, Ripatti, P, Koskela, JT, Kurki, M, Karjalainen, J, Palta, P, Hassan, S, Nunez-Fontarnau, J, Kiiskinen, TTJ, Soderlund, S, Matikainen, N, Gerl, MJ, Surma, MA, Klose, C, Stitziel, NO, Laivuori, H, Havulinna, AS, Service, SK, Salomaa, V, Pirinen, M, Jauhiainen, M, Daly, MJ, Freimer, NB, Palotie, A, Taskinen, M-R, Simons, K, Ripatti, S, Jalanko, A, Kaprio, J, Donner, K, Kaunisto, M, Mars, N, Dada, A, Shcherban, A, Ganna, A, Lehisto, A, Kilpelainen, E, Brein, G, Awaisa, G, Harju, J, Parr, K, Parolo, PDB, Kajanne, R, Lemmela, S, Sipila, TP, Sipila, T, Lyhs, U, Llorens, V, Niiranen, T, Kristiansson, K, Mannikko, L, Jimenez, MG, Perola, M, Wong, R, Kilpi, T, Hiekkalinna, T, Jarvensivu, E, Kaiharju, E, Mattsson, H, Laukkanen, M, Laiho, P, Lahteenmaki, S, Sistonen, T, Soini, S, Ziemann, A, Lehtonen, A, Lertratanakul, A, Georgantas, B, Riley-Gillis, B, Quarless, D, Rahimov, F, Heap, G, Jacob, H, Waring, J, Davis, JW, Smaoui, N, Popovic, R, Esmaeeli, S, Matakidou, A, Challis, B, Close, D, Petrovski, S, Karlsson, A, Schleutker, J, Pulkki, K, Virolainen, P, Kallio, L, Mannermaa, A, Heikkinen, S, Kosma, V-M, Chen, C-Y, Runz, H, Liu, J, Bronson, P, John, S, Landenpera, S, Eaton, S, Zhou, W, Hendolin, M, Tuovila, O, Pakkanen, R, Maranville, J, Usiskin, K, Hochfeld, M, Plenge, R, Yang, R, Biswas, S, Greenberg, S, Laakkonen, E, Kononen, J, Paloneva, J, Kujala, U, Kuopio, T, Laukkanen, J, Kangasniemi, E, Savinainen, K, Laaksonen, R, Arvas, M, Ritari, J, Partanen, J, Hyvarinen, K, Wahlfors, T, Peterson, A, Oh, D, Chang, D, Teng, E, Strauss, E, Kerchner, G, Chen, H, Schutzman, J, Michon, J, Hunkapiller, J, McCarthy, M, Bowers, N, Lu, T, Bhangale, T, Pulford, D, Waterworth, D, Kulkarni, D, Xu, F, Betts, J, Gordillo, JE, Hoffman, J, Auro, K, McCarthy, L, Ghosh, S, Ehm, M, Pitkanen, K, Makela, T, Loukola, A, Joensuu, H, Sinisalo, J, Eklund, K, Aaltonen, L, Farkkila, M, Carpen, O, Kauppi, P, Tienari, P, Ollila, T, Tuomi, T, Meretoja, T, Pitkaranta, A, Turunen, J, Hannula-Jouppi, K, Pikkarainen, S, Seitsonen, S, Koskinen, M, Palomaki, A, Rinne, J, Metsarinne, K, Elenius, K, Pirila, L, Koulu, L, Voutilainen, M, Juonala, M, Peltonen, S, Aaltonen, V, Loboda, A, Podgornaia, A, Chhibber, A, Chu, A, Fox, C, Diogo, D, Holzinger, E, Eicher, J, Gormley, P, Mehta, V, Wang, X, Kettunen, J, Pylkas, K, Kalaoja, M, Karjalainen, M, Hinttala, R, Kaarteenaho, R, Vainio, S, Mantere, T, Remes, A, Huhtakangas, J, Junttila, J, Tasanen, K, Huilaja, L, Luodonpaa, M, Hautala, N, Karihtala, P, Kauppila, S, Harju, T, Blomster, T, Soininen, H, Harvima, I, Pihlajamaki, J, Kaarniranta, K, Pelkonen, M, Laakso, M, Hiltunen, M, Kiviniemi, M, Kaipiainen-Seppanen, O, Auvinen, P, Kalviainen, R, Julkunen, V, Malarstig, A, Hedman, A, Marshal, C, Whelan, C, Lehtonen, H, Parkkinen, J, Linden, K, Kalpala, K, Miller, M, Bing, N, McDonough, S, Chen, X, Hu, X, Wu, Y, Auranen, A, Jussila, A, Uusitalo-Jarvinen, H, Kankaanranta, H, Uusitalo, H, Peltola, J, Kahonen, M, Isomaki, P, Laitinen, T, Salmi, T, Muslin, A, Wang, C, Chatelain, C, Xu, E, Auge, F, Call, K, Klinger, K, Crohns, M, Gossel, M, Palin, K, Rivas, M, Siirtola, H, and Tabuenca, JG

Abstract

Understanding genetic architecture of plasma lipidome could provide better insights into lipid metabolism and its link to cardiovascular diseases (CVDs). Here, we perform genome-wide association analyses of 141 lipid species (n = 2,181 individuals), followed by phenome-wide scans with 25 CVD related phenotypes (n = 511,700 individuals). We identify 35 lipid-species-associated loci (P <5 ×10-8), 10 of which associate with CVD risk including five new loci-COL5A1, GLTPD2, SPTLC3, MBOAT7 and GALNT16 (false discovery rate<0.05). We identify loci for lipid species that are shown to predict CVD e.g., SPTLC3 for CER(d18:1/24:1). We show that lipoprotein lipase (LPL) may more efficiently hydrolyze medium length triacylglycerides (TAGs) than others. Polyunsaturated lipids have highest heritability and genetic correlations, suggesting considerable genetic regulation at fatty acids levels. We find low genetic correlations between traditional lipids and lipid species. Our results show that lipidomic profiles capture information beyond traditional lipids and identify genetic variants modifying lipid levels and risk of CVD.

Published
2019

25. TNFα induces endothelial dysfunction in rheumatoid arthritis via LOX-1 and arginase 2: reversal by monoclonal TNFα antibodies.

Author

Akhmedov A, Crucet M, Simic B, Kraler S, Bonetti NR, Ospelt C, Distler O, Ciurea A, Liberale L, Jauhiainen M, Metso J, Miranda M, Cydecian R, Schwarz L, Fehr V, Zilinyi R, Amrollahi-Sharifabadi M, Ntari L, Karagianni N, Ruschitzka F, Laaksonen R, Vanhoutte PM, Kollias G, Camici GG, and Lüscher TF

Subjects
Adult, Animals, Animals, Genetically Modified, Aorta, Thoracic enzymology, Aorta, Thoracic immunology, Aorta, Thoracic physiopathology, Arginase genetics, Arthritis, Rheumatoid enzymology, Arthritis, Rheumatoid immunology, Arthritis, Rheumatoid physiopathology, Case-Control Studies, Disease Models, Animal, Endothelial Cells enzymology, Endothelial Cells immunology, Endothelium, Vascular enzymology, Endothelium, Vascular immunology, Endothelium, Vascular physiopathology, Female, Humans, Lipoproteins, LDL metabolism, Male, Mice, Inbred C57BL, Mice, Inbred CBA, Middle Aged, NF-kappa B metabolism, Scavenger Receptors, Class E genetics, Signal Transduction, Tumor Necrosis Factor-alpha genetics, Mice, Aorta, Thoracic drug effects, Arginase metabolism, Arthritis, Rheumatoid drug therapy, Endothelial Cells drug effects, Endothelium, Vascular drug effects, Scavenger Receptors, Class E metabolism, Tumor Necrosis Factor Inhibitors therapeutic use, Tumor Necrosis Factor-alpha metabolism, Vasodilation drug effects
Abstract

Aims: Rheumatoid arthritis (RA) is a chronic inflammatory disease affecting joints and blood vessels. Despite low levels of low-density lipoprotein cholesterol (LDL-C), RA patients exhibit endothelial dysfunction and are at increased risk of death from cardiovascular complications, but the molecular mechanism of action is unknown. We aimed in the present study to identify the molecular mechanism of endothelial dysfunction in a mouse model of RA and in patients with RA., Methods and Results: Endothelium-dependent relaxations to acetylcholine were reduced in aortae of two tumour necrosis factor alpha (TNFα) transgenic mouse lines with either mild (Tg3647) or severe (Tg197) forms of RA in a time- and severity-dependent fashion as assessed by organ chamber myograph. In Tg197, TNFα plasma levels were associated with severe endothelial dysfunction. LOX-1 receptor was markedly up-regulated leading to increased vascular oxLDL uptake and NFκB-mediated enhanced Arg2 expression via direct binding to its promoter resulting in reduced NO bioavailability and vascular cGMP levels as shown by ELISA and chromatin immunoprecipitation. Anti-TNFα treatment with infliximab normalized endothelial function together with LOX-1 and Arg2 serum levels in mice. In RA patients, soluble LOX-1 serum levels were also markedly increased and closely related to serum levels of C-reactive protein. Similarly, ARG2 serum levels were increased. Similarly, anti-TNFα treatment restored LOX-1 and ARG2 serum levels in RA patients., Conclusions: Increased TNFα levels not only contribute to RA, but also to endothelial dysfunction by increasing vascular oxLDL content and activation of the LOX-1/NFκB/Arg2 pathway leading to reduced NO bioavailability and decreased cGMP levels. Anti-TNFα treatment improved both articular symptoms and endothelial function by reducing LOX-1, vascular oxLDL, and Arg2 levels., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2021. For permissions, please email: journals.permissions@oup.com.)

Published
2022
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27. Susceptibility of low-density lipoprotein particles to aggregate depends on particle lipidome, is modifiable, and associates with future cardiovascular deaths

Author

Ruuth, M. (Maija), Duy Nguyen, S. (Su), Vihervaara, T. (Terhi), Hilvo, M. (Mika), Laajala, T. D. (Teemu D), Kumar Kondadi, P. (Pradeep), Gisterå, A. (Anton), Lähteenmäki, H. (Hanna), Kittilä, T. (Tiia), Huusko, J. (Jenni), Uusitupa, M. (Matti), Schwab, U. (Ursula), Savolainen, M. J. (Markku J), Sinisalo, J. (Juha), Lokki, M.-L. (Marja-Liisa), Nieminen, M. S. (Markku S), Jula, A. (Antti), Perola, M. (Markus), Ylä-Herttula, S. (Seppo), Rudel, L. (Lawrence), Öörni, A. (Anssi), Baumann, M. (Marc), Baruch, A. (Amos), Laaksonen, R. (Reijo), Ketelhuth, D. F. (Daniel F J), Aittokallio, T. (Tero), Jauhiainen, M. (Matti), Käkelä, R. (Reijo), Borén, J. (Jan), Williams, K. J. (Kevin Jon), Kovanen, P. T. (Petri T), Öörni, K. (Katariina), Ruuth, M. (Maija), Duy Nguyen, S. (Su), Vihervaara, T. (Terhi), Hilvo, M. (Mika), Laajala, T. D. (Teemu D), Kumar Kondadi, P. (Pradeep), Gisterå, A. (Anton), Lähteenmäki, H. (Hanna), Kittilä, T. (Tiia), Huusko, J. (Jenni), Uusitupa, M. (Matti), Schwab, U. (Ursula), Savolainen, M. J. (Markku J), Sinisalo, J. (Juha), Lokki, M.-L. (Marja-Liisa), Nieminen, M. S. (Markku S), Jula, A. (Antti), Perola, M. (Markus), Ylä-Herttula, S. (Seppo), Rudel, L. (Lawrence), Öörni, A. (Anssi), Baumann, M. (Marc), Baruch, A. (Amos), Laaksonen, R. (Reijo), Ketelhuth, D. F. (Daniel F J), Aittokallio, T. (Tero), Jauhiainen, M. (Matti), Käkelä, R. (Reijo), Borén, J. (Jan), Williams, K. J. (Kevin Jon), Kovanen, P. T. (Petri T), and Öörni, K. (Katariina)

Abstract

Aims: Low-density lipoprotein (LDL) particles cause atherosclerotic cardiovascular disease (ASCVD) through their retention, modification, and accumulation within the arterial intima. High plasma concentrations of LDL drive this disease, but LDL quality may also contribute. Here, we focused on the intrinsic propensity of LDL to aggregate upon modification. We examined whether inter-individual differences in this quality are linked with LDL lipid composition and coronary artery disease (CAD) death, and basic mechanisms for plaque growth and destabilization. Methods and results: We developed a novel, reproducible method to assess the susceptibility of LDL particles to aggregate during lipolysis induced ex vivo by human recombinant secretory sphingomyelinase. Among patients with an established CAD, we found that the presence of aggregation-prone LDL was predictive of future cardiovascular deaths, independently of conventional risk factors. Aggregation-prone LDL contained more sphingolipids and less phosphatidylcholines than did aggregation-resistant LDL. Three interventions in animal models to rationally alter LDL composition lowered its susceptibility to aggregate and slowed atherosclerosis. Similar compositional changes induced in humans by PCSK9 inhibition or healthy diet also lowered LDL aggregation susceptibility. Aggregated LDL in vitro activated macrophages and T cells, two key cell types involved in plaque progression and rupture. Conclusion: Our results identify the susceptibility of LDL to aggregate as a novel measurable and modifiable factor in the progression of human ASCVD.

Published
2018

28. Altered HDL Remodeling and Functionality in Familial Hypercholesterolemia

Author

Universitat Rovira i Virgili, Cedó L; Plana N; Metso J; Lee-Rueckert M; Sanchez-Quesada J; Kovanen P; Jauhiainen M; Masana L; Escolà-Gil J; Blanco-Vaca F, Universitat Rovira i Virgili, and Cedó L; Plana N; Metso J; Lee-Rueckert M; Sanchez-Quesada J; Kovanen P; Jauhiainen M; Masana L; Escolà-Gil J; Blanco-Vaca F

Published
2018

30. Effects of atorvastatin and diet interventions on atherosclerotic plaque inflammation and [18F]FDG uptake in Ldlr-/-Apob100/100 mice

Author

Hellberg S, Sippola S, Liljenbäck H, Virta J, Silvola JMU, Ståhle M, Savisto N, Metso J, Jauhiainen M, Saukko P, Ylä-Herttuala S, Nuutila P, Knuuti J, Roivainen A, Saraste A, and A.I. Virtanen -instituutti

Subjects
Inflammation, [18F]FDG PET/CT, Atorvastatin, nutritional and metabolic diseases, lipids (amino acids, peptides, and proteins), Atherosclerosis, Ldlr−/−Apob100/100 mouse
Abstract

Background and aims Uptake of the positron emission tomography (PET) tracer 2-deoxy-2-[18F]-fluoro-d- glucose ([18F]FDG) into macrophages is a sensitive marker of inflammation in atherosclerosis. To assess the anti-inflammatory effects of statins, we studied whether atorvastatin therapy reduces aortic [18F]FDG uptake in hypercholesterolemic mice deficient in low-density lipoprotein receptor (Ldlr), and expressing only apolipoprotein B-100 (Ldlr−/−Apob100/100). Methods Thirty-six Ldlr−/−Apob100/100 mice were fed a high-fat diet (HFD) for 12 weeks and then allocated to receive a HFD (n = 13), chow diet (Chow, n = 12), or HFD with added atorvastatin (HFD + A, n = 11), for another 12 weeks. In addition to aortic histopathology, [18F]FDG uptake was studied in vivo using PET/computed tomography (CT), and ex vivo by gamma counting of excised aorta. Results Total cholesterol levels were lower in the Chow and HFD + A groups than in the HFD group (10 ± 3.2, 23 ± 4.9 and 34 ± 9.2 mmol/l, respectively), with the Chow group also showing a lower plaque burden and lower numbers of macrophages in the lesions. Compared to the HFD group, [18F]FDG uptake in the aorta (normalized for blood) was lower in the Chow group in both in vivo (2.1 ± 0.21 vs. 1.7 ± 0.25, p = 0.018) and ex vivo (5.2 ± 2.3 vs. 2.8 ± 0.87, p = 0.011) analyses, whereas atorvastatin had no effect on uptake (2.1 ± 0.42 in vivo and 3.9 ± 1.8 ex vivo). [18F]FDG uptake correlated with plasma total cholesterol levels. Conclusions Atorvastatin therapy did not show cholesterol-independent effects on inflammation in atherosclerotic lesions in Ldlr−/−Apob100/100 mice, as determined by histology and [18F]FDG PET, whereas a cholesterol-lowering diet intervention was effective., final draft, peerReviewed

Published
2017

31. LXR-dependent regulation of macrophage-specific reverse cholesterol transport is impaired in a model of genetic diabesity

Author

Errico T.L., Méndez-Lara K.A., Santos D., Cabrerizo N., Baila-Rueda L., Metso J., Cenarro A., Pardina E., Lecube A., Jauhiainen M., Peinado-Onsurbe J., Escolà-Gil J.C., Blanco-Vaca F., and Julve J.

Subjects
cholestanetriol 26 monooxygenase, carbon 14, ex vivo study, NR1H2 protein, animal experiment, cholesterol blood level, macrophage, phosphatidylcholine sterol acyltransferase, Article, cholesterol liver level, low density lipoprotein cholesterol, animal tissue, experimental diabetes mellitus, male, high density lipoprotein cholesterol, cholesterol transport, controlled study, human, ABC transporter G5, phospholipid, comparative study, morb, ABC transporter G1, clinical article, messenger RNA, ABCG5 protein, mouse, animal model, ABC transporter G8, lipoprotein, cholesterol, ABC transporter GA1, db/db mouse, feces level, Nr1h3 protein, cholesterol 7alpha monooxygenase, phospholipid transfer protein, human tissue, unclassified drug, macrophage specific reverse cholesterol transport, gene expression, liver level, liver protein, ABC transporter, triacylglycerol, ABCG8 protein, mouse, experimental obesity, liver X receptor
Abstract

Diabesity and fatty liver have been associated with low levels of high-density lipoprotein cholesterol, and thus could impair macrophage-specific reverse cholesterol transport (m-RCT). Liver X receptor (LXR) plays a critical role in m-RCT. Abcg5/g8 sterol transporters, which are involved in cholesterol trafficking into bile, as well as other LXR targets, could be compromised in the livers of obese individuals. We aimed to determine m-RCT dynamics in a mouse model of diabesity, the db/db mice. These obese mice displayed a significant retention of macrophage-derived cholesterol in the liver and reduced fecal cholesterol elimination compared with nonobese mice. This was associated with a significant downregulation of the hepatic LXR targets, including Abcg5/g8. Pharmacologic induction of LXR promoted the delivery of total tracer output into feces in db/db mice, partly due to increased liver and small intestine Abcg5/Abcg8 gene expression. Notably, a favorable upregulation of the hepatic levels of ABCG5/G8 and NR1H3 was also observed postoperatively in morbidly obese patients, suggesting a similar LXR impairment in these patients. In conclusion, our data show that downregulation of the LXR axis impairs cholesterol transfer from macrophages to feces in db/db mice, whereas the induction of the LXR axis partly restores impaired m-RCT by elevating the liver and small intestine expressions of Abcg5/g8. © 2017 Elsevier Inc.

Published
2017
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32. Hematopoietic upstream stimulating factor 1 deficiency is associated with increased atherosclerosis susceptibility in LDL receptor knockout mice.

Author

Hoekstra M, Ren B, Laurila PP, Hildebrand RB, Soronen J, Frodermann V, Li Z, Boon MR, Geerling JJ, Rensen PCN, Jauhiainen M, and Van Eck M

Subjects
Animals, Mice, Mice, Inbred C57BL, Mice, Knockout, Atherosclerosis genetics, Genetic Predisposition to Disease, Receptors, LDL genetics, Upstream Stimulatory Factors genetics
Abstract

Total body upstream stimulatory factor 1 (USF1) deficiency in mice is associated with brown adipose tissue activation and a marked protection against the development of obesity and atherosclerotic lesions. Functional expression of USF1 has also been detected in monocytes and monocyte-derived macrophages. In the current study we therefore tested whether selective hematopoietic USF1 deficiency can also beneficially impact the development of atherosclerosis. For this purpose, LDL receptor knockout mice were transplanted with bone marrow from USF1 knockout mice or their wild-type littermate controls and subsequently fed a Western-type diet for 20 weeks to stimulate atherosclerotic lesion development. Strikingly, absence of USF1 function in bone marrow-derived cells was associated with exacerbated blood leukocyte (+ 100%; P < 0.01) and peritoneal leukocyte (+ 50%; P < 0.05) lipid loading and an increased atherosclerosis susceptibility (+ 31%; P < 0.05). These effects could be attributed to aggravated hyperlipidemia, i.e. higher plasma free cholesterol (+ 33%; P < 0.001) and cholesteryl esters (+ 39%; P < 0.001), and the development of hepatosteatosis. In conclusion, we have shown that hematopoietic USF1 deficiency is associated with an increased atherosclerosis susceptibility in LDL receptor knockout mice. These findings argue against a contribution of macrophage-specific USF1 deficiency to the previously described beneficial effect of total body USF1 deficiency on atherosclerosis susceptibility in mice., (© 2021. The Author(s).)

Published
2021
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34. Intestinal alkaline phosphatase at the crossroad of intestinal health and disease - a putative role in type 1 diabetes.

Author

Lassenius, M. I., Fogarty, C. L., Blaut, M., Haimila, K., Riittinen, L., Paju, A., Kirveskari, J., Järvelä, J., Ahola, A. J., Gordin, D., Härma, M.‐A., Kumar, A., Hamarneh, S. R., Hodin, R. A., Sorsa, T., Tervahartiala, T., Hörkkö, S., Pussinen, P. J., Forsblom, C., and Jauhiainen, M.

Subjects
IMMUNOGLOBULIN A, TYPE 1 diabetes, INFLAMMATION, ALKALINE phosphatase, SHORT-chain fatty acids
Abstract

Background: Patients with type 1 diabetes have shown an increase in circulating cytokines, altered lipoprotein metabolism and signs of vascular dysfunction in response to high-fat meals. Intestinal alkaline phosphatase (IAP) regulates lipid transport and inflammatory responses in the gastrointestinal tract. We therefore hypothesized that changes in IAP activity could have profound effects on gut metabolic homeostasis in patients with type 1 diabetes.Methods: Faecal samples of 41 nondiabetic controls and 46 patients with type 1 diabetes were analysed for IAP activity, calprotectin, immunoglobulins and short-chain fatty acids (SCFAs). The impact of oral IAP supplementation on intestinal immunoglobulin levels was evaluated in C57BL/6 mice exposed to high-fat diet for 11 weeks.Results: Patients with type 1 diabetes exhibited signs of intestinal inflammation. Compared to controls, patients with diabetes had higher faecal calprotectin levels, lower faecal IAP activities accompanied by lower propionate and butyrate concentrations. Moreover, the amount of faecal IgA and the level of antibodies binding to oxidized LDL were decreased in patients with type 1 diabetes. In mice, oral IAP supplementation increased intestinal IgA levels markedly.Conclusion: Deprivation of protective intestinal factors may increase the risk of inflammation in the gut - a phenomenon that seems to be present already in patients with uncomplicated type 1 diabetes. Low levels of intestinal IgA and antibodies to oxidized lipid epitopes may predispose such patients to inflammation-driven complications such as cardiovascular disease and diabetic nephropathy. Importantly, oral IAP supplementation could have beneficial therapeutic effects on gut metabolic homeostasis, possibly through stimulation of intestinal IgA secretion. [ABSTRACT FROM AUTHOR]

Published
2017
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36. Streptococcus pneumoniae pneumolysin and neuraminidase A convert high-density lipoproteins into pro-atherogenic particles.

Author

Syed S, Nissilä E, Ruhanen H, Fudo S, Gaytán MO, Sihvo SP, Lorey MB, Metso J, Öörni K, King SJ, Oommen OP, Jauhiainen M, Meri S, Käkelä R, and Haapasalo K

Abstract

High-density lipoproteins (HDLs) are a group of different subpopulations of sialylated particles that have an essential role in the reverse cholesterol transport (RCT) pathway. Importantly, changes in the protein and lipid composition of HDLs may lead to the formation of particles with reduced atheroprotective properties. Here, we show that Streptococcus pneumoniae pneumolysin (PLY) and neuraminidase A (NanA) impair HDL function by causing chemical and structural modifications of HDLs. The proteomic, lipidomic, cellular, and biochemical analysis revealed that PLY and NanA induce significant changes in sialic acid, protein, and lipid compositions of HDL. The modified HDL particles have reduced cholesterol acceptor potential from activated macrophages, elevated levels of malondialdehyde adducts, and show significantly increased complement activating capacity. These results suggest that accumulation of these modified HDL particles in the arterial intima may present a trigger for complement activation, inflammatory response, and thereby promote atherogenic disease progression., Competing Interests: The authors declare no competing interests., (© 2021 The Author(s).)

Published
2021
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37. Evaluation of glucagon-like peptide-1 receptor expression in nondiabetic and diabetic atherosclerotic mice using PET tracer 68 Ga-NODAGA-exendin-4.

Author

Ståhle M, Hellberg S, Virta J, Liljenbäck H, Metsälä O, Li XG, Jauhiainen M, Saukko P, Ylä-Herttuala S, Nuutila P, Knuuti J, Saraste A, and Roivainen A

Subjects
Acetates pharmacokinetics, Animals, Apolipoproteins B genetics, Apolipoproteins B metabolism, Atherosclerosis complications, Atherosclerosis diagnosis, Atherosclerosis genetics, Diabetes Mellitus, Experimental complications, Diabetes Mellitus, Experimental diagnosis, Diabetes Mellitus, Experimental genetics, Exenatide pharmacokinetics, Female, Gallium Radioisotopes pharmacokinetics, Glucagon-Like Peptide-1 Receptor genetics, Heterocyclic Compounds, 1-Ring pharmacokinetics, Hypercholesterolemia complications, Hypercholesterolemia diagnosis, Hypercholesterolemia genetics, Hypercholesterolemia metabolism, Insulin-Like Growth Factor II genetics, Insulin-Like Growth Factor II metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Positron-Emission Tomography methods, Receptors, LDL genetics, Receptors, LDL metabolism, Glucagon-Like Peptide-1 Receptor Agonists, Atherosclerosis metabolism, Diabetes Mellitus, Experimental metabolism, Glucagon-Like Peptide-1 Receptor metabolism
Abstract

Cardiovascular effects of glucagon-like peptide-1 receptor (GLP-1R) agonist therapies are potentially mediated by anti-inflammatory effects on atherosclerosis. Our study demonstrates that 68 Ga-NODAGA-exendin-4, a radioligand specifically targeting GLP-1R, detects GLP-1R expression in inflamed atherosclerotic lesions in nondiabetic and diabetic hypercholesterolemic mice. Immunofluorescence staining suggests that GLP-1R is primarily localized in M2 macrophages in lesions. This study describes a new potential tool that may have translational relevance for studies of pharmacological modification of GLP-1R signaling in atherosclerosis.

Published
2021
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40. Impaired HDL2-mediated cholesterol efflux is associated with metabolic syndrome in families with early onset coronary heart disease and low HDL-cholesterol level

Author

Paavola, T. (Timo), Kuusisto, S. (Sanna), Jauhiainen, M. (Matti), Kakko, S. (Sakari), Kangas-Kontio, T. (Tiia), Metso, J. (Jari), Soininen, P. (Pasi), Ala-Korpela, M. (Mika), Bloigu, R. (Risto), Hannuksela, M. L. (Minna L.), Savolainen, M. J. (Markku J.), Salonurmi, T. (Tuire), Paavola, T. (Timo), Kuusisto, S. (Sanna), Jauhiainen, M. (Matti), Kakko, S. (Sakari), Kangas-Kontio, T. (Tiia), Metso, J. (Jari), Soininen, P. (Pasi), Ala-Korpela, M. (Mika), Bloigu, R. (Risto), Hannuksela, M. L. (Minna L.), Savolainen, M. J. (Markku J.), and Salonurmi, T. (Tuire)

Abstract

Objective: The potential of high-density lipoproteins (HDL) to facilitate cholesterol removal from arterial foam cells is a key function of HDL. We studied whether cholesterol efflux to serum and HDL subfractions is impaired in subjects with early coronary heart disease (CHD) or metabolic syndrome (MetS) in families where a low HDL-cholesterol level (HDL-C) predisposes to early CHD. Methods: HDL subfractions were isolated from plasma by sequential ultracentrifugation. THP-1 macrophages loaded with acetyl-LDL were used in the assay of cholesterol efflux to total HDL, HDL2, HDL3 or serum. Results: While cholesterol efflux to serum, total HDL and HDL3 was unchanged, the efflux to HDL2 was 14% lower in subjects with MetS than in subjects without MetS (p<0.001). The efflux to HDL2 was associated with components of MetS such as plasma HDL-C (r = 0.76 in men and r = 0.56 in women, p<0.001 for both). The efflux to HDL2 was reduced in men with early CHD (p<0.01) only in conjunction with their low HDL-C. The phospholipid content of HDL2 particles was a major correlate with the efflux to HDL2 (r = 0.70, p<0.001). A low ratio of HDL2 to total HDL was associated with MetS (p<0.001). Conclusion: Our results indicate that impaired efflux to HDL2 is a functional feature of the low HDL-C state and MetS in families where these risk factors predispose to early CHD. The efflux to HDL2 related to the phospholipid content of HDL2 particles but the phospholipid content did not account for the impaired efflux in cardiometabolic disease, where a combination of low level and poor quality of HDL2 was observed.

Published
2017

41. Intestinal alkaline phosphatase at the crossroad of intestinal health and disease:a putative role in type 1 diabetes

Author

Lassenius, M. I. (M. I.), Fogarty, C. L. (C. L.), Blaut, M. (M.), Haimila, K. (K.), Riittinen, L. (L.), Paju, A. (A.), Kirveskari, J. (J.), Järvelä, J. (J.), Ahola, A. J. (A. J.), Gordin, D. (D.), Härma, M. (M.‐A.), Kumar, A. (A.), Hamarneh, S. R. (S. R.), Hodin, R. A. (R. A.), Sorsa, T. (T.), Tervahartiala, T. (T.), Hörkkö, S. (S.), Pussinen, P. J. (P. J.), Forsblom, C. (C.), Jauhiainen, M. (M.), Taskinen, M. (M.‐R.), Groop, P. (P.‐H.), Lehto, M. (M.), Lassenius, M. I. (M. I.), Fogarty, C. L. (C. L.), Blaut, M. (M.), Haimila, K. (K.), Riittinen, L. (L.), Paju, A. (A.), Kirveskari, J. (J.), Järvelä, J. (J.), Ahola, A. J. (A. J.), Gordin, D. (D.), Härma, M. (M.‐A.), Kumar, A. (A.), Hamarneh, S. R. (S. R.), Hodin, R. A. (R. A.), Sorsa, T. (T.), Tervahartiala, T. (T.), Hörkkö, S. (S.), Pussinen, P. J. (P. J.), Forsblom, C. (C.), Jauhiainen, M. (M.), Taskinen, M. (M.‐R.), Groop, P. (P.‐H.), and Lehto, M. (M.)

Abstract

Background: Patients with type 1 diabetes have shown an increase in circulating cytokines, altered lipoprotein metabolism and signs of vascular dysfunction in response to high‐fat meals. Intestinal alkaline phosphatase (IAP) regulates lipid transport and inflammatory responses in the gastrointestinal tract. We therefore hypothesized that changes in IAP activity could have profound effects on gut metabolic homeostasis in patients with type 1 diabetes. Methods: Faecal samples of 41 nondiabetic controls and 46 patients with type 1 diabetes were analysed for IAP activity, calprotectin, immunoglobulins and short‐chain fatty acids (SCFAs). The impact of oral IAP supplementation on intestinal immunoglobulin levels was evaluated in C57BL/6 mice exposed to high‐fat diet for 11 weeks. Results: Patients with type 1 diabetes exhibited signs of intestinal inflammation. Compared to controls, patients with diabetes had higher faecal calprotectin levels, lower faecal IAP activities accompanied by lower propionate and butyrate concentrations. Moreover, the amount of faecal IgA and the level of antibodies binding to oxidized LDL were decreased in patients with type 1 diabetes. In mice, oral IAP supplementation increased intestinal IgA levels markedly. Conclusion: Deprivation of protective intestinal factors may increase the risk of inflammation in the gut — a phenomenon that seems to be present already in patients with uncomplicated type 1 diabetes. Low levels of intestinal IgA and antibodies to oxidized lipid epitopes may predispose such patients to inflammation‐driven complications such as cardiovascular disease and diabetic nephropathy. Importantly, oral IAP supplementation could have beneficial therapeutic effects on gut metabolic homeostasis, possibly through stimulation of intestinal IgA secretion.

Published
2017

42. Reduced leucocyte cholesteryl ester transfer protein expression in acute coronary syndromes

Author

Ye, D, Kraaijeveld, A O, Grauss, R W, Willems, S M, van Vark-van der Zee, L C, de Jager, S.C.A., Jauhiainen, M, Kuivenhoven, J A, Dallinga-Thie, G M, Atsma, D E, Hogendoorn, P C W, Biessen, E A L, Van Berkel, T J C, Jukema, J W, van Eck, M, Ye, D, Kraaijeveld, A O, Grauss, R W, Willems, S M, van Vark-van der Zee, L C, de Jager, S.C.A., Jauhiainen, M, Kuivenhoven, J A, Dallinga-Thie, G M, Atsma, D E, Hogendoorn, P C W, Biessen, E A L, Van Berkel, T J C, Jukema, J W, and van Eck, M

Abstract

OBJECTIVE: Cholesterol ester transfer protein (CETP) plays an important role in HDL cholesterol metabolism. Leucocytes, including monocyte-derived macrophages in the arterial wall synthesize and secrete CETP, but its role in atherosclerosis is unclear. The aim of the current study was to investigate the effect of acute coronary syndromes (ACS) on leucocyte CETP expression.RESEARCH DESIGN: Peripheral blood mononuclear cells (PBMCs) were freshly isolated from hospitalized ACS patients displaying Braunwald class IIIB unstable angina pectoris (UAP) on admission (t = 0) and at 180 days post inclusion (t = 180) for analysis of CETP expression. In addition, to prove the potential correlation between leucocyte CETP and ACS the effect of acute myocardial infarction on leucocyte CETP expression was studied in CETP transgenic mice.RESULTS: Upon admission, UAP patients displayed approximately 3-6 fold (P < 0.01) lower CETP mRNA and nearly absent CETP protein expression in PBMCs, as compared to healthy age-/sex-matched controls. Interestingly, CETP mRNA and protein levels were significantly elevated in PBMCs isolated from UAP patients (both stabilized and refractory) at t = 180 as compared to t = 0 (P < 0.01), which was correlated with a reduced inflammatory status after medical treatment. In agreement with the data obtained in UAP patients, markedly down-regulated leucocyte CETP mRNA expression was observed after coronary artery ligation in CETP transgenic mice, which also correlated with increased serum amyloid A levels.CONCLUSIONS: We are the first to report that episodes of UAP in humans and myocardial infarction in CETP transgenic mice are associated with reduced leucocyte CETP expression. We propose that the impairment in leucocyte CETP production is associated with an enhanced inflammatory status, which could be clinically relevant for the pathogenesis of ACS.

Published
2008

43. Levels of apolipoprotein M are not associated with the risk of coronary heart disease in two independent case-control studies

Author

Ahnstrom, J., Axler, O., Jauhiainen, M., Salomaa, V., Havulinna, A.S., Ehnholm, C., Frikke-Schmidt, R., Tybjaerg-Hansen, A., Dahlback, B., Ahnstrom, J., Axler, O., Jauhiainen, M., Salomaa, V., Havulinna, A.S., Ehnholm, C., Frikke-Schmidt, R., Tybjaerg-Hansen, A., and Dahlback, B.

Abstract

Apolipoprotein M (apoM), a 25 kDa plasma protein belonging to the lipocalin protein family, is predominantly associated with HDL. Studies in mice have suggested apoM to be important for the formation of pre-beta-HDL and to increase cholesterol efflux from macrophage foam cells. Overexpression of human apoM in LDL receptor-deficient mice reduced the atherogenic effect of a cholesterol-rich diet. The aim of the present study was to investigate whether the apoM levels in man predict the risk for coronary heart disease (CHD). ApoM was measured in samples from two separate case-control studies. FINRISK '92 consisted of 255 individuals, of whom 80 developed CHD during follow-up and 175 were controls. The Copenhagen City Heart Study included 1,865 individuals, of whom 921 developed CHD during follow-up and 944 were controls. Correlation studies of apoM concentration with several analytes showed a marked positive correlation with HDL and total cholesterol as well as with apoA-I and apoB. There was no significant difference in mean apoM level between CHD and control subjects in either study. In conditional logistic regression analyses, apoM was not a predictor of CHD events, [odds ratio (95% CI) 0.97 (0.74-1.27) and 0.92 (0.84-1.02), respectively]. In conclusion, no association between apoM and CHD could be found in this study Udgivelsesdato: 2008/9

Published
2008

45. Cholesterol loading suppresses the atheroinflammatory gene polarization of human macrophages induced by colony stimulating factors.

Author

Lappalainen J, Yeung N, Nguyen SD, Jauhiainen M, Kovanen PT, and Lee-Rueckert M

Subjects
Atherosclerosis immunology, Cells, Cultured, Humans, Inflammation immunology, Primary Cell Culture, Cholesterol immunology, Colony-Stimulating Factors immunology, Macrophages cytology, Macrophages immunology, Monocytes cytology, Monocytes immunology, T-Lymphocytes cytology, T-Lymphocytes immunology
Abstract

In atherosclerotic lesions, blood-derived monocytes differentiate into distinct macrophage subpopulations, and further into cholesterol-filled foam cells under a complex milieu of cytokines, which also contains macrophage-colony stimulating factor (M-CSF) and granulocyte-macrophage-colony stimulating factor (GM-CSF). Here we generated human macrophages in the presence of either M-CSF or GM-CSF to obtain M-MØ and GM-MØ, respectively. The macrophages were converted into cholesterol-loaded foam cells by incubating them with acetyl-LDL, and their atheroinflammatory gene expression profiles were then assessed. Compared with GM-MØ, the M-MØ expressed higher levels of CD36, SRA1, and ACAT1, and also exhibited a greater ability to take up acetyl-LDL, esterify cholesterol, and become converted to foam cells. M-MØ foam cells expressed higher levels of ABCA1 and ABCG1, and, correspondingly, exhibited higher rates of cholesterol efflux to apoA-I and HDL 2 . Cholesterol loading of M-MØ strongly suppressed the high baseline expression of CCL2, whereas in GM-MØ the low baseline expression CCL2 remained unchanged during cholesterol loading. The expression of TNFA, IL1B, and CXCL8 were reduced in LPS-activated macrophage foam cells of either subtype. In summary, cholesterol loading converged the CSF-dependent expression of key genes related to intracellular cholesterol balance and inflammation. These findings suggest that transformation of CSF-polarized macrophages into foam cells may reduce their atheroinflammatory potential in atherogenesis.

Published
2021
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46. Novel biomarkers associated with incident heart failure in 10 106 Finnish men.

Author

Jauhiainen R, Jauhiainen M, Vangipurapu J, Kuulasmaa T, Ala-Korpela M, Laakso M, and Kuusisto J

Subjects
Biomarkers, C-Reactive Protein, Finland epidemiology, Humans, Male, Prospective Studies, Heart Failure diagnosis, Heart Failure epidemiology
Abstract

Aims: There are only a few studies on novel biomarkers for incident heart failure (HF). We investigated the association of multiple circulating biomarkers with incident HF in a large prospective population-based study., Methods and Results: Conventional risk factors and inflammatory biomarkers were measured, and systemic metabolic measures determined by a high-throughput serum nuclear magnetic resonance platform in a population-based Metabolic Syndrome in Men study including 10 106 Finnish men without HF at baseline. During an 8.8 year follow-up, 172 (1.7%) participants developed HF. Adiponectin, high-sensitivity C-reactive protein (hs-CRP), glycoprotein acetyls, alanine, phenylalanine, glycerol, and pyruvate were associated with incident HF in unadjusted Cox regression analyses, in addition to age, systolic blood pressure, body mass index (BMI), waist circumference, fasting plasma glucose and insulin, haemoglobin A1c (HbA1c), and urinary albumin excretion rate (UAER). After adjustment for age, BMI, diabetes, and statin medication, only adiponectin [hazard ratio (HR) 1.18 (1.10-1.26, P = 4.1E-08)], pyruvate [HR 1.38 (1.28-1.50, P = 8.2E-05)], and UAER [HR 1.15 (1.11-1.18, P = 7.8E-06)] remained statistically significant. In principal component analysis of biomarkers associated with HF in univariate Cox regression analysis, we identified six components, explaining 61.7% of total variance. Four principal components, one with significant loadings on waist, BMI, fasting plasma insulin, interleukin 1 receptor antagonist, and hs-CRP; another on pyruvate, glycoprotein acetyls, alanine, glycerol and HbA1c; third on age and glomerular filtration rate; and fourth on systolic blood pressure, UAER, and adiponectin, significantly associated with incident HF., Conclusions: Several novel metabolic and inflammatory biomarkers were associated with incident HF, suggesting early activation of respective pathways in the pathogenesis of HF., (© 2020 The Authors. ESC Heart Failure published by John Wiley & Sons Ltd on behalf of European Society of Cardiology.)

Published
2021
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47. LDL Receptor Regulates the Reverse Transport of Macrophage-Derived Unesterified Cholesterol via Concerted Action of the HDL-LDL Axis: Insight From Mouse Models.

Author

Cedó L, Metso J, Santos D, García-León A, Plana N, Sabate-Soler S, Rotllan N, Rivas-Urbina A, Méndez-Lara KA, Tondo M, Girona J, Julve J, Pallarès V, Benitez-Amaro A, Llorente-Cortes V, Pérez A, Gómez-Coronado D, Ruotsalainen AK, Levonen AL, Sanchez-Quesada JL, Masana L, Kovanen PT, Jauhiainen M, Lee-Rueckert M, Blanco-Vaca F, and Escolà-Gil JC

Subjects
Animals, Apolipoprotein B-100 blood, Apolipoprotein B-100 genetics, Biological Transport, Cell Line, Cholesterol Ester Transfer Proteins genetics, Cholesterol Ester Transfer Proteins metabolism, Disease Models, Animal, Feces chemistry, Humans, Hyperlipoproteinemia Type II genetics, Male, Mice, Inbred C57BL, Mice, Knockout, Receptors, LDL deficiency, Receptors, LDL genetics, Scavenger Receptors, Class B metabolism, Cholesterol, HDL blood, Cholesterol, LDL blood, Hyperlipoproteinemia Type II blood, Liver metabolism, Macrophages metabolism, Receptors, LDL metabolism
Abstract

Rationale: The HDL (high-density lipoprotein)-mediated stimulation of cellular cholesterol efflux initiates macrophage-specific reverse cholesterol transport (m-RCT), which ends in the fecal excretion of macrophage-derived unesterified cholesterol (UC). Early studies established that LDL (low-density lipoprotein) particles could act as efficient intermediate acceptors of cellular-derived UC, thereby preventing the saturation of HDL particles and facilitating their cholesterol efflux capacity. However, the capacity of LDL to act as a plasma cholesterol reservoir and its potential impact in supporting the m-RCT pathway in vivo both remain unknown., Objective: We investigated LDL contributions to the m-RCT pathway in hypercholesterolemic mice., Methods and Results: Macrophage cholesterol efflux induced in vitro by LDL added to the culture media either alone or together with HDL or ex vivo by plasma derived from subjects with familial hypercholesterolemia was assessed. In vivo, m-RCT was evaluated in mouse models of hypercholesterolemia that were naturally deficient in CETP (cholesteryl ester transfer protein) and fed a Western-type diet. LDL induced the efflux of radiolabeled UC from cultured macrophages, and, in the simultaneous presence of HDL, a rapid transfer of the radiolabeled UC from HDL to LDL occurred. However, LDL did not exert a synergistic effect on HDL cholesterol efflux capacity in the familial hypercholesterolemia plasma. The m-RCT rates of the LDLr (LDL receptor)-KO (knockout), LDLr-KO/APOB100, and PCSK9 (proprotein convertase subtilisin/kexin type 9)-overexpressing mice were all significantly reduced relative to the wild-type mice. In contrast, m-RCT remained unchanged in HAPOB100 Tg (human APOB100 transgenic) mice with fully functional LDLr, despite increased levels of plasma APO (apolipoprotein)-B-containing lipoproteins., Conclusions: Hepatic LDLr plays a critical role in the flow of macrophage-derived UC to feces, while the plasma increase of APOB-containing lipoproteins is unable to stimulate m-RCT. The results indicate that, besides the major HDL-dependent m-RCT pathway via SR-BI (scavenger receptor class B type 1) to the liver, a CETP-independent m-RCT path exists, in which LDL mediates the transfer of cholesterol from macrophages to feces. Graphical Abstract: A graphical abstract is available for this article.

Published
2020
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48. Phenol-Enriched Virgin Olive Oil Promotes Macrophage-Specific Reverse Cholesterol Transport In Vivo.

Author

Cedó L, Fernández-Castillejo S, Rubió L, Metso J, Santos D, Muñoz-Aguayo D, Rivas-Urbina A, Tondo M, Méndez-Lara KA, Farràs M, Jauhiainen M, Motilva MJ, Fitó M, Blanco-Vaca F, Solà R, and Escolà-Gil JC

Abstract

The intake of olive oil (OO) enriched with phenolic compounds (PCs) promotes ex vivo HDL-mediated macrophage cholesterol efflux in humans. We aimed to determine the effects of PC-enriched virgin OO on reverse cholesterol transport (RevCT) from macrophages to feces in vivo. Female C57BL/6 mice were given intragastric doses of refined OO (ROO) and a functional unrefined virgin OO enriched with its own PC (FVOO) for 14 days. Our experiments included two independent groups of mice that received intragastric doses of the phenolic extract (PE) used to prepare the FVOO and the vehicle solution (saline), as control, for 14 days. FVOO intake led to a significant increase in serum HDL cholesterol and its ability to induce macrophage cholesterol efflux in vitro when compared with ROO group. This was concomitant with the enhanced macrophage-derived [ 3 H]cholesterol transport to feces in vivo. PE intake per se also increased HDL cholesterol levels and significantly promoted in vivo macrophage-to-feces RevCT rate when compared with saline group. PE upregulated the expression of the main macrophage transporter involved in macrophage cholesterol efflux, the ATP binding cassette a1 . Our data provide direct evidence of the crucial role of OO PCs in the induction of macrophage-specific RevCT in vivo.

Published
2020
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49. PPAR-ß/d activation promotes phospholipid transfer protein expression

Author

Chehaibi K, Cedó L, Metso J, Palomer FX, Santos D, Quesada H, Naceur Slimane M, Wahli W, Julve J, Vazquez M, Jauhiainen M, Blanco-Vaca F, and Escolà-Gil JC

Subjects
ABCA1, HDL, Mice, PPAR-ß/d, Phospholipid transfer protein, apoA-I, lipids (amino acids, peptides, and proteins)
Abstract

The peroxisome proliferator-activated receptor (PPAR)-ß/d has emerged as a promising therapeutic target for treating dyslipidemia, including beneficial effects on HDL cholesterol (HDL-C). In the current study, we determined the effects of the PPAR-ß/d agonist GW0742 on HDL composition and the expression of liver HDL-related genes in mice and cultured human cells. The experiments were carried out in C57BL/6 wild-type, LDL receptor (LDLR)-deficient mice and PPAR-ß/d-deficient mice treated with GW0742 (10mg/kg/day) or a vehicle solution for 14 days. GW0742 upregulated liver phospholipid transfer protein (Pltp) gene expression and increased serum PLTP activity in mice. When given to wild-type mice, GW0742 significantly increased serum HDL-C and HDL phospholipids; GW0742 also raised serum potential to generate preß-HDL formation. The GW0742-mediated effects on liver Pltp expression and serum enzyme activity were completely abolished in PPAR-ß/d-deficient mice. GW0742 also stimulated PLTP mRNA expression in mouse J774 macrophages, differentiated human THP-1 macrophages and human hepatoma Huh7. Collectively, our findings demonstrate a common transcriptional upregulation by GW0742-activated PPAR-ß/d of Pltp expression in cultured cells and in mouse liver resulting in enhanced serum PLTP activity. Our results also indicate that PPAR-ß/d activation may modulate PLTP-mediated preß-HDL formation and macrophage cholesterol efflux.

Published
2015

50. Enhanced vascular permeability facilitates entry of plasma HDL and promotes macrophage-reverse cholesterol transport from skin in mice

Author

Kareinen I., Cedó L., Silvennoinen R., Laurila P.-P., Jauhiainen M., Julve J., Blanco-Vaca F., Escola-Gil J.C., Kovanen P.T., and Lee-Rueckert M.

Subjects
skin, transport at the cellular level, Lipoproteins, interstitial fluid, animal experiment, macrophage, animal cell, foam cell, Bradykinin, Article, animal tissue, Mice, blood vessel permeability, blood, apolipoprotein A1, high density lipoprotein cholesterol, cholesterol transport, Animals, apolipoprotein B, controlled study, animal, skin permeability, mouse, ABC transporter G1, nonhuman, C57BL mouse, ABC transporter A1, Cholesterol, HDL, lipoprotein, Biological Transport, histamine H1 receptor, scavenger receptor BI, cell line, reverse cholesterol transport, serotonin, Mice, Inbred C57BL, histamine release, Cholesterol, feces, high density lipoprotein, physiology, gene expression, triacylglycerol, mast cell, Lipoproteins, HDL, metabolism, vascular endothelium, Foam Cells, Histamine
Abstract

Reverse cholesterol transport (RCT) pathway from macrophage foam cells initiates when HDL particles cross the endothelium, enter the interstitial fluid, and induce cholesterol efflux from these cells. We injected [ 3 H] cholesterol-loaded J774 macrophages into the dorsal skin of mice and measured the transfer of macrophage-derived [ 3 H]cholesterol to feces [macrophage-RCT (m-RCT)]. Injection of histamine to the macrophage injection site increased locally vascular permeability, enhanced influx of intravenously administered HDL, and stimulated m-RCT from the histamine-treated site. The stimulatory effect of histamine on m-RCT was abolished by prior administration of histamine H1 receptor (H1R) antagonist pyrilamine, indicating that the histamine effect was H1R-dependent. Subcutaneous administration of two other vasoactive mediators, serotonin or bradykinin, and activation of skin mast cells to secrete histamine and other vasoactive compounds also stimulated m-RCT. None of the studied vasoactive mediators affected serum HDL levels or the cholesterol-releasing ability of J774 macrophages in culture, indicating that acceleration of m-RCT was solely due to increased availability of cholesterol acceptors in skin. We conclude that disruption of the endothelial barrier by vasoactive compounds enhances the passage of HDL into interstitial fluid and increases the rate of RCT from peripheral macrophage foam cells, which reveals a novel tissue cholesterol-regulating function of these compounds. Copyright © 2015 by the American Society for Biochemistry and Molecular Biology, Inc.

Published
2015

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