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2. The hypoxia-sensor carbonic anhydrase IX affects macrophage metabolism, but is not a suitable biomarker for human cardiovascular disease

Author

Demandt, J. A. F., Dubois, L. J., van Kuijk, K., Zaťovičová, M., Jin, H., Parkkila, S., van der Laan, S. W., Jelenska, L., Mees, B. M. E., Reutelingsperger, C. P. M., Cleutjens, K. B. J. M., van der Kallen, C. J. H., Schalkwijk, C. G., van Greevenbroek, M. M. J., Biessen, E. A. L., Pasterkamp, G., Pastoreková, S., Stehouwer, C. D. A., and Sluimer, J. C.

Published
2021
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3. Human and murine single-cell RNA-sequencing reveal fibroblast heterogeneity in healthy and diseased vasculature and differential regulation by ageing and serum cholesterol

Author

Van Kuijk, K., primary, Mccracken, I., additional, Tillie, R., additional, Asselberghs, S., additional, Kheder, D., additional, Muitjens, S., additional, Jin, H., additional, Taylor, R., additional, Schreur, R. Wichers, additional, Kuppe, C., additional, Dobie, R., additional, Ramachandran, P., additional, Gijbels, M., additional, Temmerman, L., additional, Kirkwood, P., additional, Luyten, J., additional, Li, Y., additional, Noels, H., additional, Goossens, P., additional, Wilson-Kanamori, J., additional, Schurgers, L., additional, Shen, Y., additional, Mees, B., additional, Biessen, E., additional, Henderson, N., additional, Kramann, R., additional, Baker, A., additional, and Sluimer, J., additional

Published
2023
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4. Partial myeloid inhibition of key glycolytic enzyme PFKFB3 increases hepatic steatosis and inflammation, but does not affect atherosclerosis

Author

Tillie, R., primary, De Bruijn, J., additional, Dobie, R., additional, Perales-Patón, J., additional, Van Kuijk, K., additional, Gijbels, M., additional, Temmerman, L., additional, Ghosheh, Y., additional, Goossens, G., additional, Carmeliet, P., additional, Ley, K., additional, Henderson, N., additional, Saez-Rodriguez, J., additional, Wouters, K., additional, and Sluimer, J., additional

Published
2023
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7. Smaller intercondylar notch size and smaller ACL volume increase posterior cruciate ligament rupture risk

Author

van Kuijk, K. S.R., Reijman, M., Bierma-Zeinstra, S. M.A., Meuffels, D. E., van Kuijk, K. S.R., Reijman, M., Bierma-Zeinstra, S. M.A., and Meuffels, D. E.

Abstract

Purpose: Little is known about risk factors for sustaining a posterior cruciate ligament (PCL) rupture. Identifying risk factors is the first step in preventing a PCL rupture from occurring. The morphology of the knee in patients who ruptured their PCL may differ from that of control patients. The hypothesis was that the intercondylar notch dimensions, 3-D volumes of the intercondylar notch and, the 3-D volumes of both the ACL and the PCL were correlated to the presence of a PCL rupture. Methods: The magnetic resonance imaging (MRI) scans of 30 patients with a proven PCL rupture were compared to 30 matched control patients with proven intact ACL and PCL. Control patients were selected from patients with knee trauma during sports but without cruciate ligament injury. Patients have been matched for age, height, weight, BMI, and sex. The volumes of the intercondylar notch and both the ACL and PCL were measured on 3D reconstructions. Second, the bicondylar width, the notch width, and the notch width index were measured of all subjects. The relationship between our measurements and the presence of a PCL rupture was analysed. Results: The results show a significant difference in the volumes of the intercondylar notch and the ACL between patients with a ruptured PCL and control patients. Patients with a PCL rupture have smaller intercondylar notch volumes and smaller ACL volumes. There were no significant differences in the bicondylar width, notch width, and notch width index. In the control patients, a significant correlation between the volume of the PCL and the volume of the ACL was found (0.673, p < 0.001). Conclusion: Patients with a PCL rupture have smaller intercondylar volumes and smaller ACL volumes when compared to control patients. Second, patients with smaller ACL volumes have smaller PCL volumes. This study shows, for the first time, that there are significant size and volume differences in the shape of the knee between patients with a PCL rupture and co

Published
2023

10. Deficiency of myeloid prolyl hydroxylase domain proteins aggravates atherogenesis via macrophage apoptosis and paracrine fibrotic signaling

Author

Sluimer, J, primary, Van Kuijk, K, additional, Demandt, J A F, additional, Perales-Paton, J, additional, Kuppe, C, additional, Jin, H, additional, Matic, L, additional, Mees, B, additional, Hedin, U, additional, Biessen, E A L, additional, Carmeliet, P, additional, Baker, A H, additional, Kramann, R K, additional, Schurgers, L J, additional, and Saez-Rodriguez, J, additional

Published
2021
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11. Single cell sequencing reveals fibroblast heterogeneity in healthy and diseased vasculature

Author

Van Kuijk, K., primary, Mccracken, I., additional, Tillie, R., additional, Schreur, R. Wichers, additional, Taylor, R., additional, Dobie, R., additional, Temmerman, L., additional, Ramachamdran, P., additional, Noels, H., additional, Owens, G., additional, Jin, H., additional, Wilson-Kanamori, J., additional, Mees, B., additional, Biessen, E., additional, Henderson, N., additional, Baker, A., additional, and Sluimer, J., additional

Published
2021
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12. Deficiency of myeloid PHD proteins aggravates atherogenesis via macrophage apoptosis and paracrine fibrotic signaling

Author

Van Kuijk, K., primary, Demandt, J.A., additional, Perales-Paton, J., additional, Theelen, T., additional, Marsch, E., additional, De Bruijn, J., additional, Kuppe, C., additional, Mees, B., additional, Gijbels, M.J.J., additional, Matic, L., additional, Hedin, U., additional, Biessen, E., additional, Kramann, R., additional, Carmeliet, P., additional, Schurgers, L.J., additional, Saez-Rodriguez, J., additional, and Sluimer, J., additional

Published
2021
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14. CARMN Loss Regulates Smooth Muscle Cells and Accelerates Atherosclerosis in Mice

Author

Vacante, F, Rodor, J, Lalwani, MK, Mahmoud, AD, Bennett, M, De Pace, AL, Miller, E, Van Kuijk, K, de Bruijn, J, Gijbels, M, Williams, TC, Clark, MB, Scanlon, JP, Doran, AC, Montgomery, R, Newby, DE, Giacca, M, O'Carroll, D, Hadoke, PWF, Denby, L, Sluimer, JC, Baker, AH, Vacante, F, Rodor, J, Lalwani, MK, Mahmoud, AD, Bennett, M, De Pace, AL, Miller, E, Van Kuijk, K, de Bruijn, J, Gijbels, M, Williams, TC, Clark, MB, Scanlon, JP, Doran, AC, Montgomery, R, Newby, DE, Giacca, M, O'Carroll, D, Hadoke, PWF, Denby, L, Sluimer, JC, and Baker, AH

Abstract

[Figure: see text].

Published
2021

15. The hypoxia-sensor carbonic anhydrase IX affects macrophage metabolism, but is not a suitable biomarker for human cardiovascular disease

Author

CDL Onderzoek Pasterkamp, Circulatory Health, Demandt, J A F, Dubois, L J, van Kuijk, K, Zaťovičová, M, Jin, H, Parkkila, S, van der Laan, S W, Jelenska, L, Mees, B M E, Reutelingsperger, C P M, Cleutjens, K B J M, van der Kallen, C J H, Schalkwijk, C G, van Greevenbroek, M M J, Biessen, E A L, Pasterkamp, G, Pastoreková, S, Stehouwer, C D A, Sluimer, J C, CDL Onderzoek Pasterkamp, Circulatory Health, Demandt, J A F, Dubois, L J, van Kuijk, K, Zaťovičová, M, Jin, H, Parkkila, S, van der Laan, S W, Jelenska, L, Mees, B M E, Reutelingsperger, C P M, Cleutjens, K B J M, van der Kallen, C J H, Schalkwijk, C G, van Greevenbroek, M M J, Biessen, E A L, Pasterkamp, G, Pastoreková, S, Stehouwer, C D A, and Sluimer, J C

Published
2021

19. Myeloid Phd2 Knockdown Drives Macrophage Apoptosis And Paracrine Fibroblast/Smooth Muscle Cell Collagen Secretion Leading To Atherosclerotic Plaque Fibrosis

Author

Van Kuijk, K., primary, Theelen, T., additional, Demandt, J., additional, Marsch, E., additional, Gijbels, M., additional, Jin, H., additional, Reutelingsperger, C., additional, Cosemans, J., additional, Schurgers, L., additional, Carmeliet, P., additional, Biessen, E., additional, Daemen, M., additional, and Sluimer, J., additional

Published
2019
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23. Human atherosclerotic plaque transcriptomics reveals endothelial beta-2 spectrin as a potential regulator a leaky plaque microvasculature phenotype.

Author

Rademakers T, Manca M, Jin H, Orban T, Perisic LM, Frissen HJM, Rühle F, Hautvast P, van Rijssel J, van Kuijk K, Mees BME, Peutz-Kootstra CJ, Heeneman S, Daemen MJAP, Pasterkamp G, Stoll M, van Zandvoort MAMJ, Hedin U, Dequiedt F, van Buul JD, Sluimer JC, and Biessen EAL

Subjects
Animals, Humans, Capillary Permeability, Human Umbilical Vein Endothelial Cells metabolism, Phenotype, Transcriptome, Microvessels pathology, Microvessels metabolism, Plaque, Atherosclerotic pathology, Plaque, Atherosclerotic genetics, Plaque, Atherosclerotic metabolism, Spectrin genetics, Spectrin metabolism, Zebrafish genetics
Abstract

The presence of atherosclerotic plaque vessels is a critical factor in plaque destabilization. This may be attributable to the leaky phenotype of these microvessels, although direct proof for this notion is lacking. In this study, we investigated molecular and cellular patterns of stable and hemorrhaged human plaque to identify novel drivers of intraplaque vessel dysfunction. From transcriptome data of a human atherosclerotic lesion cohort, we reconstructed a co-expression network, identifying a gene module strongly and selectively correlated with both plaque microvascular density and inflammation. Spectrin Beta Non-Erythrocytic 1 (sptbn1) was identified as one of the central hubs of this module (along with zeb1 and dock1) and was selected for further study based on its predominant endothelial expression. Silencing of sptbn1 enhanced leukocyte transmigration and vascular permeability in vitro, characterized by an increased number of focal adhesions and reduced junctional VE-cadherin. In vivo, sptbn1 knockdown in zebrafish impaired the development of the caudal vein plexus. Mechanistically, increased substrate stiffness was associated with sptbn1 downregulation in endothelial cells in vitro and in human vessels. Plaque SPTBN1 mRNA and protein expression were found to correlate with an enhanced presence of intraplaque hemorrhage and future cardiovascular disease (CVD) events during follow-up. In conclusion, we identify SPTBN1 as a central hub gene in a gene program correlating with plaque vascularisation. SPTBN1 was regulated by substrate stiffness in vitro while silencing blocked vascular development in vivo, and compromised barrier function in vitro. Together, SPTBN1 is identified as a new potential regulator of the leaky phenotype of atherosclerotic plaque microvessels., (© 2024. The Author(s).)

Published
2024
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24. Spatial Metabolomics Identifies LPC(18:0) and LPA(18:1) in Advanced Atheroma With Translation to Plasma for Cardiovascular Risk Estimation.

Author

Cao J, Martin-Lorenzo M, van Kuijk K, Wieland EB, Gijbels MJ, Claes BSR, Heredero A, Aldamiz-Echevarria G, Heeren RMA, Goossens P, Sluimer JC, Balluff B, and Alvarez-Llamas G

Subjects
Humans, Animals, Mice, Risk Factors, Aorta diagnostic imaging, Aorta metabolism, Glycerophospholipids metabolism, Heart Disease Risk Factors, Plaque, Atherosclerotic metabolism, Cardiovascular Diseases diagnosis, Cardiovascular Diseases metabolism, Atherosclerosis diagnosis, Atherosclerosis metabolism, Aortic Diseases genetics, Aortic Diseases metabolism
Abstract

Background: The metabolic alterations occurring within the arterial architecture during atherosclerosis development remain poorly understood, let alone those particular to each arterial tunica. We aimed first to identify, in a spatially resolved manner, the specific metabolic changes in plaque, media, adventitia, and cardiac tissue between control and atherosclerotic murine aortas. Second, we assessed their translatability to human tissue and plasma for cardiovascular risk estimation., Methods: In this observational study, mass spectrometry imaging (MSI) was applied to identify region-specific metabolic differences between atherosclerotic (n=11) and control (n=11) aortas from low-density lipoprotein receptor-deficient mice, via histology-guided virtual microdissection. Early and advanced plaques were compared within the same atherosclerotic animals. Progression metabolites were further analyzed by MSI in 9 human atherosclerotic carotids and by targeted mass spectrometry in human plasma from subjects with elective coronary artery bypass grafting (cardiovascular risk group, n=27) and a control group (n=27)., Results: MSI identified 362 local metabolic alterations in atherosclerotic mice (log2 fold-change ≥1.5; P ≤0.05). The lipid composition of cardiac tissue is altered during atherosclerosis development and presents a generalized accumulation of glycerophospholipids, except for lysolipids. Lysolipids (among other glycerophospholipids) were found at elevated levels in all 3 arterial layers of atherosclerotic aortas. LPC(18:0) (lysophosphatidylcholine; P =0.024) and LPA(18:1) (lysophosphatidic acid; P =0.025) were found to be significantly elevated in advanced plaques as compared with mouse-matched early plaques. Higher levels of both lipid species were also observed in fibrosis-rich areas of advanced- versus early-stage human samples. They were found to be significantly reduced in human plasma from subjects with elective coronary artery bypass grafting ( P <0.001 and P =0.031, respectively), with LPC(18:0) showing significant association with cardiovascular risk (odds ratio, 0.479 [95% CI, 0.225-0.883]; P =0.032) and diagnostic potential (area under the curve, 0.778 [95% CI, 0.638-0.917])., Conclusions: An altered phospholipid metabolism occurs in atherosclerosis, affecting both the aorta and the adjacent heart tissue. Plaque-progression lipids LPC(18:0) and LPA(18:1), as identified by MSI on tissue, reflect cardiovascular risk in human plasma., Competing Interests: Disclosures None.

Published
2024
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25. Human and murine fibroblast single-cell transcriptomics reveals fibroblast clusters are differentially affected by ageing and serum cholesterol.

Author

van Kuijk K, McCracken IR, Tillie RJHA, Asselberghs SEJ, Kheder DA, Muitjens S, Jin H, Taylor RS, Wichers Schreur R, Kuppe C, Dobie R, Ramachandran P, Gijbels MJ, Temmerman L, Kirkwoord PM, Luyten J, Li Y, Noels H, Goossens P, Wilson-Kanamori JR, Schurgers LJ, Shen YH, Mees BME, Biessen EAL, Henderson NC, Kramann R, Baker AH, and Sluimer JC

Subjects
Humans, Mice, Animals, Aged, Transcriptome, Mice, Inbred C57BL, Collagen metabolism, Receptor Protein-Tyrosine Kinases metabolism, Aging genetics, Fibroblasts metabolism, Cholesterol metabolism, Plaque, Atherosclerotic metabolism, Hypercholesterolemia metabolism, Atherosclerosis metabolism
Abstract

Aims: Specific fibroblast markers and in-depth heterogeneity analysis are currently lacking, hindering functional studies in cardiovascular diseases (CVDs). Here, we established cell-type markers and heterogeneity in murine and human arteries and studied the adventitial fibroblast response to CVD and its risk factors hypercholesterolaemia and ageing., Methods and Results: Murine aorta single-cell RNA-sequencing analysis of adventitial mesenchymal cells identified fibroblast-specific markers. Immunohistochemistry and flow cytometry validated platelet-derived growth factor receptor alpha (PDGFRA) and dipeptidase 1 (DPEP1) across human and murine aorta, carotid, and femoral arteries, whereas traditional markers such as the cluster of differentiation (CD)90 and vimentin also marked transgelin+ vascular smooth muscle cells. Next, pseudotime analysis showed multiple fibroblast clusters differentiating along trajectories. Three trajectories, marked by CD55 (Cd55+), Cxcl chemokine 14 (Cxcl14+), and lysyl oxidase (Lox+), were reproduced in an independent RNA-seq dataset. Gene ontology (GO) analysis showed divergent functional profiles of the three trajectories, related to vascular development, antigen presentation, and/or collagen fibril organization, respectively. Trajectory-specific genes included significantly more genes with known genome-wide associations (GWAS) to CVD than expected by chance, implying a role in CVD. Indeed, differential regulation of fibroblast clusters by CVD risk factors was shown in the adventitia of aged C57BL/6J mice, and mildly hypercholesterolaemic LDLR KO mice on chow by flow cytometry. The expansion of collagen-related CXCL14+ and LOX+ fibroblasts in aged and hypercholesterolaemic aortic adventitia, respectively, coincided with increased adventitial collagen. Immunohistochemistry, bulk, and single-cell transcriptomics of human carotid and aorta specimens emphasized translational value as CD55+, CXCL14+ and LOX+ fibroblasts were observed in healthy and atherosclerotic specimens. Also, trajectory-specific gene sets are differentially correlated with human atherosclerotic plaque traits., Conclusion: We provide two adventitial fibroblast-specific markers, PDGFRA and DPEP1, and demonstrate fibroblast heterogeneity in health and CVD in humans and mice. Biological relevance is evident from the regulation of fibroblast clusters by age and hypercholesterolaemia in vivo, associations with human atherosclerotic plaque traits, and enrichment of genes with a GWAS for CVD., Competing Interests: Conflict of interest: None declared., (© The Author(s) 2023. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published
2023
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26. Protective role of chaperone-mediated autophagy against atherosclerosis.

Author

Madrigal-Matute J, de Bruijn J, van Kuijk K, Riascos-Bernal DF, Diaz A, Tasset I, Martín-Segura A, Gijbels MJJ, Sander B, Kaushik S, Biessen EAL, Tiano S, Bourdenx M, Krause GJ, McCracken I, Baker AH, Jin H, Sibinga NES, Bravo-Cordero JJ, Macian F, Singh R, Rensen PCN, Berbée JFP, Pasterkamp G, Sluimer JC, and Cuervo AM

Subjects
Animals, Disease Models, Animal, Lysosomes metabolism, Mice, Atherosclerosis genetics, Atherosclerosis pathology, Chaperone-Mediated Autophagy genetics
Abstract

Chaperone-mediated autophagy (CMA) contributes to regulation of energy homeostasis by timely degradation of enzymes involved in glucose and lipid metabolism. Here, we report reduced CMA activity in vascular smooth muscle cells and macrophages in murine and human arteries in response to atherosclerotic challenges. We show that in vivo genetic blockage of CMA worsens atherosclerotic pathology through both systemic and cell-autonomous changes in vascular smooth muscle cells and macrophages, the two main cell types involved in atherogenesis. CMA deficiency promotes dedifferentiation of vascular smooth muscle cells and a proinflammatory state in macrophages. Conversely, a genetic mouse model with up-regulated CMA shows lower vulnerability to proatherosclerotic challenges. We propose that CMA could be an attractive therapeutic target against cardiovascular diseases.

Published
2022
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27. Deficiency of myeloid PHD proteins aggravates atherogenesis via macrophage apoptosis and paracrine fibrotic signalling.

Author

van Kuijk K, Demandt JAF, Perales-Patón J, Theelen TL, Kuppe C, Marsch E, de Bruijn J, Jin H, Gijbels MJ, Matic L, Mees BME, Reutelingsperger CPM, Hedin U, Biessen EAL, Carmeliet P, Baker AH, Kramann RK, Schurgers LJ, Saez-Rodriguez J, and Sluimer JC

Subjects
Animals, Apoptosis, Collagen metabolism, Fibrosis, Hypoxia metabolism, Macrophages metabolism, Mice, Mice, Inbred C57BL, Mice, Knockout, RNA metabolism, RNA, Messenger metabolism, Atherosclerosis metabolism, Plaque, Atherosclerotic metabolism
Abstract

Aims: Atherosclerotic plaque hypoxia is detrimental for macrophage function. Prolyl hydroxylases (PHDs) initiate cellular hypoxic responses, possibly influencing macrophage function in plaque hypoxia. Thus, we aimed to elucidate the role of myeloid PHDs in atherosclerosis., Methods and Results: Myeloid-specific PHD knockout (PHDko) mice were obtained via bone marrow transplantation (PHD1ko, PHD3ko) or conditional knockdown through lysozyme M-driven Cre recombinase (PHD2cko). Mice were fed high cholesterol diet for 6-12 weeks to induce atherosclerosis. Aortic root plaque size was significantly augmented 2.6-fold in PHD2cko, and 1.4-fold in PHD3ko compared to controls but was unchanged in PHD1ko mice. Macrophage apoptosis was promoted in PHD2cko and PHD3ko mice in vitro and in vivo, via the hypoxia-inducible factor (HIF) 1α/BNIP3 axis. Bulk and single-cell RNA data of PHD2cko bone marrow-derived macrophages (BMDMs) and plaque macrophages, respectively, showed enhanced HIF1α/BNIP3 signalling, which was validated in vitro by siRNA silencing. Human plaque BNIP3 mRNA was positively associated with plaque necrotic core size, suggesting similar pro-apoptotic effects in human. Furthermore, PHD2cko plaques displayed enhanced fibrosis, while macrophage collagen breakdown by matrix metalloproteinases, collagen production, and proliferation were unaltered. Instead, PHD2cko BMDMs enhanced fibroblast collagen secretion in a paracrine manner. In silico analysis of macrophage-fibroblast communication predicted SPP1 (osteopontin) signalling as regulator, which was corroborated by enhanced plaque SPP1 protein in vivo. Increased SPP1 mRNA expression upon PHD2cko was preferentially observed in foamy plaque macrophages expressing 'triggering receptor expressed on myeloid cells-2' (TREM2hi) evidenced by single-cell RNA, but not in neutrophils. This confirmed enhanced fibrotic signalling by PHD2cko macrophages to fibroblasts, in vitro as well as in vivo., Conclusion: Myeloid PHD2cko and PHD3ko enhanced atherosclerotic plaque growth and macrophage apoptosis, while PHD2cko macrophages further activated collagen secretion by fibroblasts in vitro, likely via paracrine SPP1 signalling through TREM2hi macrophages., (© The Author(s) 2021. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published
2022
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28. Effective Transfection and Gene Silencing of Primary Murine Macrophages with Small Interfering RNA.

Author

van Kuijk K, Nagenborg J, and Sluimer JC

Subjects
Animals, Mice, RNA Interference, RNA, Small Interfering genetics, RNA, Small Interfering metabolism, Transfection, Gene Silencing, Macrophages metabolism
Abstract

Transfection of murine primary macrophages to silence genes can be a challenging procedure because this cell type has developed mechanisms to evade cellular intrusion. The introduction of small interfering RNA (siRNA) encapsulated in liposomes to the cell to decrease gene expression is one of the methods that can be used to achieve gene silencing. There are different commercially available compounds to introduce siRNA into the cell, including Lipofectamine RNAiMAX and HiPerfect. The chapter will describe a method for gene silencing in mouse primary macrophages using liposome-based transfection of siRNA., (© 2022. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2022
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29. Partial Inhibition of the 6-Phosphofructo-2-Kinase/Fructose-2,6-Bisphosphatase-3 (PFKFB3) Enzyme in Myeloid Cells Does Not Affect Atherosclerosis.

Author

Tillie RJHA, De Bruijn J, Perales-Patón J, Temmerman L, Ghosheh Y, Van Kuijk K, Gijbels MJ, Carmeliet P, Ley K, Saez-Rodriguez J, and Sluimer JC

Abstract

Background: The protein 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase-3 (PFKFB3) is a key stimulator of glycolytic flux. Systemic, partial PFKFB3 inhibition previously decreased total plaque burden and increased plaque stability. However, it is unclear which cell type conferred these positive effects. Myeloid cells play an important role in atherogenesis, and mainly rely on glycolysis for energy supply. Thus, we studied whether myeloid inhibition of PFKFB3-mediated glycolysis in Ldlr -/- LysMCre +/- Pfkfb3 fl/fl ( Pfkfb3 fl/fl ) mice confers beneficial effects on plaque stability and alleviates cardiovascular disease burden compared to Ldlr -/- LysMCre +/- Pfkfb3 wt/wt control mice ( Pfkfb3 wt/wt )., Methods and Results: Analysis of atherosclerotic human and murine single-cell populations confirmed PFKFB3/Pfkfb3 expression in myeloid cells, but also in lymphocytes, endothelial cells, fibroblasts and smooth muscle cells. Pfkfb3 wt/wt and Pfkfb3 fl/fl mice were fed a 0.25% cholesterol diet for 12 weeks. Pfkfb3 fl/fl bone marrow-derived macrophages (BMDMs) showed 50% knockdown of Pfkfb3 mRNA. As expected based on partial glycolysis inhibition, extracellular acidification rate as a measure of glycolysis was partially reduced in Pfkfb3 fl/fl compared to Pfkfb3 wt/wt BMDMs. Unexpectedly, plaque and necrotic core size, as well as macrophage (MAC3), neutrophil (Ly6G) and collagen (Sirius Red) content were unchanged in advanced Pfkfb3 fl/fl lesions. Similarly, early lesion plaque and necrotic core size and total plaque burden were unaffected., Conclusion: Partial myeloid knockdown of PFKFB3 did not affect atherosclerosis development in advanced or early lesions. Previously reported positive effects of systemic, partial PFKFB3 inhibition on lesion stabilization, do not seem conferred by monocytes, macrophages or neutrophils. Instead, other Pfkfb3 -expressing cells in atherosclerosis might be responsible, such as DCs, smooth muscle cells or fibroblasts., Competing Interests: The 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 © 2021 Tillie, De Bruijn, Perales-Patón, Temmerman, Ghosheh, Van Kuijk, Gijbels, Carmeliet, Ley, Saez-Rodriguez and Sluimer.)

Published
2021
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30. A Switch from Cell-Associated to Soluble PDGF-B Protects against Atherosclerosis, despite Driving Extramedullary Hematopoiesis.

Author

Tillie RJHA, Theelen TL, van Kuijk K, Temmerman L, de Bruijn J, Gijbels M, Betsholtz C, Biessen EAL, and Sluimer JC

Subjects
Animals, Apoptosis, Body Weight, Cell Movement, Cell Proliferation, Leukocytes pathology, Macrophages pathology, Male, Mice, Inbred C57BL, Plaque, Atherosclerotic metabolism, Plaque, Atherosclerotic pathology, Solubility, Mice, Atherosclerosis metabolism, Hematopoiesis, Extramedullary, Proto-Oncogene Proteins c-sis metabolism
Abstract

Platelet-derived growth factor B (PDGF-B) is a mitogenic, migratory and survival factor. Cell-associated PDGF-B recruits stabilizing pericytes towards blood vessels through retention in extracellular matrix. We hypothesized that the genetic ablation of cell-associated PDGF-B by retention motif deletion would reduce the local availability of PDGF-B, resulting in microvascular pericyte loss, microvascular permeability and exacerbated atherosclerosis. Therefore, Ldlr -/- Pdgfb ret / ret mice were fed a high cholesterol diet. Although plaque size was increased in the aortic root of Pdgfb ret / ret mice, microvessel density and intraplaque hemorrhage were unexpectedly unaffected. Plaque macrophage content was reduced, which is likely attributable to increased apoptosis, as judged by increased TUNEL+ cells in Pdgfb ret / ret plaques (2.1-fold) and increased Pdgfb ret / ret macrophage apoptosis upon 7-ketocholesterol or oxidized LDL incubation in vitro. Moreover, Pdgfb ret / ret plaque collagen content increased independent of mesenchymal cell density. The decreased macrophage matrix metalloproteinase activity could partly explain Pdgfb ret / ret collagen content. In addition to the beneficial vascular effects, we observed reduced body weight gain related to smaller fat deposition in Pdgfb ret / ret liver and adipose tissue. While dampening plaque inflammation, Pdgfb ret / ret paradoxically induced systemic leukocytosis. The increased incorporation of 5-ethynyl-2'-deoxyuridine indicated increased extramedullary hematopoiesis and the increased proliferation of circulating leukocytes. We concluded that Pdgfb ret / ret confers vascular and metabolic effects, which appeared to be protective against diet-induced cardiovascular burden. These effects were unrelated to arterial mesenchymal cell content or adventitial microvessel density and leakage. In contrast, the deletion drives splenic hematopoiesis and subsequent leukocytosis in hypercholesterolemia.

Published
2021
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31. Integrative multiomics analysis of human atherosclerosis reveals a serum response factor-driven network associated with intraplaque hemorrhage.

Author

Jin H, Goossens P, Juhasz P, Eijgelaar W, Manca M, Karel JMH, Smirnov E, Sikkink CJJM, Mees BME, Waring O, van Kuijk K, Fazzi GE, Gijbels MJJ, Kutmon M, Evelo CTA, Hedin U, Daemen MJAP, Sluimer JC, Matic L, and Biessen EAL

Subjects
Atherosclerosis genetics, Atherosclerosis metabolism, Gene Expression Regulation, Humans, Male, Peptides analysis, Prognosis, Proteome analysis, Serum Response Factor genetics, Atherosclerosis pathology, Biomarkers metabolism, Gene Regulatory Networks, Peptides metabolism, Proteome metabolism, Serum Response Factor metabolism, Transcriptome
Abstract

Background: While single-omics analyses on human atherosclerotic plaque have been very useful to map stage- or disease-related differences in expression, they only partly capture the array of changes in this tissue and suffer from scale-intrinsic limitations. In order to better identify processes associated with intraplaque hemorrhage and plaque instability, we therefore combined multiple omics into an integrated model., Methods: In this study, we compared protein and gene makeup of low- versus high-risk atherosclerotic lesion segments from carotid endarterectomy patients, as judged from the absence or presence of intraplaque hemorrhage, respectively. Transcriptomic, proteomic, and peptidomic data of this plaque cohort were aggregated and analyzed by DIABLO, an integrative multivariate classification and feature selection method., Results: We identified a protein-gene associated multiomics model able to segregate stable, nonhemorrhaged from vulnerable, hemorrhaged lesions at high predictive performance (AUC >0.95). The dominant component of this model correlated with αSMA - PDGFRα + fibroblast-like cell content (p = 2.4E-05) and Arg1 + macrophage content (p = 2.2E-04) and was driven by serum response factor (SRF), possibly in a megakaryoblastic leukemia-1/2 (MKL1/2) dependent manner. Gene set overrepresentation analysis on the selected key features of this model pointed to a clear cardiovascular disease signature, with overrepresentation of extracellular matrix synthesis and organization, focal adhesion, and cholesterol metabolism terms, suggestive of the model's relevance for the plaque vulnerability. Finally, we were able to corroborate the predictive power of the selected features in several independent mRNA and proteomic plaque cohorts., Conclusions: In conclusion, our integrative omics study has identified an intraplaque hemorrhage-associated cardiovascular signature that provides excellent stratification of low- from high-risk carotid artery plaques in several independent cohorts. Further study revealed suppression of an SRF-regulated disease network, controlling lesion stability, in vulnerable plaque, which can serve as a scaffold for the design of targeted intervention in plaque destabilization., (© 2021 The Authors. Clinical and Translational Medicine published by John Wiley & Sons Australia, Ltd on behalf of Shanghai Institute of Clinical Bioinformatics.)

Published
2021
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32. Whole-Body Prolyl Hydroxylase Domain (PHD) 3 Deficiency Increased Plasma Lipids and Hematocrit Without Impacting Plaque Size in Low-Density Lipoprotein Receptor Knockout Mice.

Author

Demandt JAF, van Kuijk K, Theelen TL, Marsch E, Heffron SP, Fisher EA, Carmeliet P, Biessen EAL, and Sluimer JC

Abstract

Background and aims: Atherosclerosis is an important cause of clinical cardiovascular events. Atherosclerotic plaques are hypoxic, and reoxygenation improves plaque phenotype. Central players in hypoxia are hypoxia inducible factors (HIF) and their regulators, HIF-prolyl hydroxylase (PHD) isoforms 1, 2, and 3. PHD inhibitors, targeting all three isoforms, are used to alleviate anemia in chronic kidney disease. Likewise, whole-body PHD1 and PHD2ko ameliorate hypercholesterolemia and atherogenesis. As the effect of whole-body PHD3 is unknown, we investigated the effects of germline whole-body PHD3ko on atherosclerosis. Approach and Results: To initiate hypercholesterolemia and atherosclerosis low-density lipoprotein receptor knockout (LDLrko) and PHD3/LDLr double knockout (PHD3dko), mice were fed a high-cholesterol diet. Atherosclerosis and hypoxia marker pimonidazole were analyzed in aortic roots and brachiocephalic arteries. In contrast to earlier reports on PHD1- and PHD2-deficient mice, a small elevation in the body weight and an increase in the plasma cholesterol and triglyceride levels were observed after 10 weeks of diet. Dyslipidemia might be explained by an increase in hepatic mRNA expression of Cyp7a1 and fatty acid synthase, while lipid efflux of PHD3dko macrophages was comparable to controls. Despite dyslipidemia, plaque size, hypoxia, and phenotype were not altered in the aortic root or in the brachiocephalic artery of PHD3dko mice. Additionally, PHD3dko mice showed enhanced blood hematocrit levels, but no changes in circulating, splenic or lymphoid immune cell subsets. Conclusion: Here, we report that whole-body PHD3dko instigated an unfavorable lipid profile and increased hematocrit, in contrast to other PHD isoforms, yet without altering atherosclerotic plaque development., Competing Interests: The 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 © 2021 Demandt, van Kuijk, Theelen, Marsch, Heffron, Fisher, Carmeliet, Biessen and Sluimer.)

Published
2021
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33. CARMN Loss Regulates Smooth Muscle Cells and Accelerates Atherosclerosis in Mice.

Author

Vacante F, Rodor J, Lalwani MK, Mahmoud AD, Bennett M, De Pace AL, Miller E, Van Kuijk K, de Bruijn J, Gijbels M, Williams TC, Clark MB, Scanlon JP, Doran AC, Montgomery R, Newby DE, Giacca M, O'Carroll D, Hadoke PWF, Denby L, Sluimer JC, and Baker AH

Subjects
Animals, Atherosclerosis pathology, Cell Movement, Cell Proliferation, Clustered Regularly Interspaced Short Palindromic Repeats, Coronary Vessels cytology, Down-Regulation, Gene Knockdown Techniques, Gene Silencing, Humans, Lipid Metabolism, Mice, Muscle, Smooth, Vascular cytology, Oligonucleotides, Antisense, Phenotype, RNA, Long Noncoding genetics, RNA, Long Noncoding metabolism, Transcriptome, Atherosclerosis etiology, Cell Dedifferentiation, MicroRNAs metabolism, Muscle, Smooth, Vascular physiology, RNA, Long Noncoding physiology
Abstract

[Figure: see text].

Published
2021
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34. Mild hyperlipidemia in mice aggravates platelet responsiveness in thrombus formation and exploration of platelet proteome and lipidome.

Author

van Geffen JP, Swieringa F, van Kuijk K, Tullemans BME, Solari FA, Peng B, Clemetson KJ, Farndale RW, Dubois LJ, Sickmann A, Zahedi RP, Ahrends R, Biessen EAL, Sluimer JC, Heemskerk JWM, and Kuijpers MJE

Subjects
Animals, Cholesterol blood, Disease Models, Animal, Female, Gene Knockout Techniques, Hyperlipidemias blood, Hyperlipidemias genetics, Male, Mice, Platelet Activation, Thrombosis etiology, Apolipoproteins E genetics, Blood Platelets chemistry, Hyperlipidemias complications, Lipidomics methods, Proteomics methods, Receptors, LDL genetics, Thrombosis blood
Abstract

Hyperlipidemia is a well-established risk factor for cardiovascular diseases. Millions of people worldwide display mildly elevated levels of plasma lipids and cholesterol linked to diet and life-style. While the prothrombotic risk of severe hyperlipidemia has been established, the effects of moderate hyperlipidemia are less clear. Here, we studied platelet activation and arterial thrombus formation in Apoe -/- and Ldlr -/- mice fed a normal chow diet, resulting in mildly increased plasma cholesterol. In blood from both knockout mice, collagen-dependent thrombus and fibrin formation under flow were enhanced. These effects did not increase in severe hyperlipidemic blood from aged mice and upon feeding a high-fat diet (Apoe -/- mice). Bone marrow from wild-type or Ldlr -/- mice was transplanted into irradiated Ldlr -/- recipients. Markedly, thrombus formation was enhanced in blood from chimeric mice, suggesting that the hyperlipidemic environment altered the wild-type platelets, rather than the genetic modification. The platelet proteome revealed high similarity between the three genotypes, without clear indication for a common protein-based gain-of-function. The platelet lipidome revealed an altered lipid profile in mildly hyperlipidemic mice. In conclusion, in Apoe -/- and Ldlr -/- mice, modest elevation in plasma and platelet cholesterol increased platelet responsiveness in thrombus formation and ensuing fibrin formation, resulting in a prothrombotic phenotype.

Published
2020
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35. Fibroblasts in atherosclerosis: heterogeneous and plastic participants.

Author

Tillie RJHA, van Kuijk K, and Sluimer JC

Subjects
Animals, Atherosclerosis genetics, Cell Communication, Fibroblasts metabolism, Gene Expression Regulation, Humans, Atherosclerosis pathology, Fibroblasts pathology
Abstract

Purpose of Review: Fibroblasts are very heterogeneous and plastic cells in the vasculature. A growing interest in fibroblasts in healthy and atherosclerotic vasculature is observed, next to macrophages, endothelial cells, and smooth muscle cells (SMCs). In this review, we discuss fibroblast presence, heterogeneity, origin, and plasticity in health and atherosclerosis based on latest literature., Recent Findings: With help of single cell sequencing (SCS) techniques, we have gained more insight into presence and functions of fibroblasts in atherosclerosis. Next to SMCs, fibroblasts are extracellular matrix-producing cells abundant in the vasculature and involved in atherogenesis. Fibroblasts encompass a heterogeneous population and SCS data reveal several fibroblast clusters in healthy and atherosclerotic tissue with varying gene expression and function. Moreover, recent findings indicate interesting similarities between adventitial stem and/or progenitor cells and fibroblasts. Also, communication with inflammatory cells opens up a new therapeutic avenue., Summary: Because of their highly plastic and heterogeneous nature, modulating fibroblast cell function and communication in the atherosclerotic vessel might be useful in battling atherosclerosis from within the plaque.

Published
2020
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36. Heterogeneity and plasticity in healthy and atherosclerotic vasculature explored by single-cell sequencing.

Author

van Kuijk K, Kuppe C, Betsholtz C, Vanlandewijck M, Kramann R, and Sluimer JC

Subjects
Animals, Arteries pathology, Atherosclerosis pathology, Gene Expression Regulation, Humans, Phenotype, Plaque, Atherosclerotic, RNA, Messenger metabolism, Arteries metabolism, Atherosclerosis genetics, Atherosclerosis metabolism, Cell Plasticity genetics, Genetic Heterogeneity, RNA, Messenger genetics, RNA-Seq, Single-Cell Analysis
Abstract

Cellular characteristics and their adjustment to a state of disease have become more evident due to recent advances in imaging, fluorescent reporter mice, and whole genome RNA sequencing. The uncovered cellular heterogeneity and/or plasticity potentially complicates experimental studies and clinical applications, as markers derived from whole tissue 'bulk' sequencing is unable to yield a subtype transcriptome and specific markers. Here, we propose definitions on heterogeneity and plasticity, discuss current knowledge thereof in the vasculature and how this may be improved by single-cell sequencing (SCS). SCS is emerging as an emerging technique, enabling researchers to investigate different cell populations in more depth than ever before. Cell selection methods, e.g. flow assisted cell sorting, and the quantity of cells can influence the choice of SCS method. Smart-Seq2 offers sequencing of the complete mRNA molecule on a low quantity of cells, while Drop-seq is possible on large numbers of cells on a more superficial level. SCS has given more insight in heterogeneity in healthy vasculature, where it revealed that zonation is crucial in gene expression profiles among the anatomical axis. In diseased vasculature, this heterogeneity seems even more prominent with discovery of new immune subsets in atherosclerosis as proof. Vascular smooth muscle cells and mesenchymal cells also share these plastic characteristics with the ability to up-regulate markers linked to stem cells, such as Sca-1 or CD34. Current SCS studies show some limitations to the number of replicates, quantity of cells used, or the loss of spatial information. Bioinformatical tools could give some more insight in current datasets, making use of pseudo-time analysis or RNA velocity to investigate cell differentiation or polarization. In this review, we discuss the use of SCS in unravelling heterogeneity in the vasculature, its current limitations and promising future applications., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2019. For permissions, please email: journals.permissions@oup.com.)

Published
2019
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37. Blocking 17β-hydroxysteroid dehydrogenase type 1 in endometrial cancer: a potential novel endocrine therapeutic approach.

Author

Konings GF, Cornel KM, Xanthoulea S, Delvoux B, Skowron MA, Kooreman L, Koskimies P, Krakstad C, Salvesen HB, van Kuijk K, Schrooders YJ, Vooijs M, Groot AJ, Bongers MY, Kruitwagen RF, and Romano A

Subjects
Aged, Aged, 80 and over, Animals, Cell Line, Tumor, Chick Embryo, Cyclin A metabolism, Endometrial Neoplasms enzymology, Endometrial Neoplasms genetics, Endometrial Neoplasms pathology, Estradiol metabolism, Estradiol pharmacology, Estradiol Dehydrogenases genetics, Estradiol Dehydrogenases metabolism, Estrone metabolism, Estrone pharmacology, Female, Humans, Middle Aged, Molecular Targeted Therapy, Signal Transduction drug effects, Antineoplastic Agents pharmacology, Cell Proliferation drug effects, Endometrial Neoplasms drug therapy, Enzyme Inhibitors pharmacology, Estradiol Dehydrogenases antagonists & inhibitors
Abstract

The enzyme type 1 17β-hydroxysteroid dehydrogenase (17β-HSD-1), responsible for generating active 17β-estradiol (E2) from low-active estrone (E1), is overexpressed in endometrial cancer (EC), thus implicating an increased intra-tissue generation of E2 in this estrogen-dependent condition. In this study, we explored the possibility of inhibiting 17β-HSD-1 and impairing the generation of E2 from E1 in EC using in vitro, in vivo, and ex vivo models. We generated EC cell lines derived from the well-differentiated endometrial adenocarcinoma Ishikawa cell line and expressing levels of 17β-HSD-1 similar to human tissues. In these cells, HPLC analysis showed that 17β-HSD-1 activity could be blocked by a specific 17β-HSD-1 inhibitor. In vitro, E1 administration elicited colony formation similar to E2, and this was impaired by 17β-HSD-1 inhibition. In vivo, tumors grafted on the chicken chorioallantoic membrane (CAM) demonstrated that E1 upregulated the expression of the estrogen responsive cyclin A similar to E2, which was impaired by 17β-HSD-1 inhibition. Neither in vitro nor in vivo effects of E1 were observed using 17β-HSD-1-negative cells (negative control). Using a patient cohort of 52 primary ECs, we demonstrated the presence of 17β-HSD-1 enzyme activity (ex vivo in tumor tissues, as measured by HPLC), which was inhibited by over 90% in more than 45% of ECs using the 17β-HSD-1 inhibitor. Since drug treatment is generally indicated for metastatic/recurrent and not primary tumor, we next demonstrated the mRNA expression of the potential drug target, 17β-HSD-1, in metastatic lesions using a second cohort of 37 EC patients. In conclusion, 17β-HSD-1 inhibition efficiently blocks the generation of E2 from E1 using various EC models. Further preclinical investigations and 17β-HSD-1 inhibitor development to make candidate compounds suitable for the first human studies are awaited. Copyright © 2017 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd., (Copyright © 2017 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.)

Published
2018
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38. Care Model Design for E-Health: Integration of Point-of-Care Testing at Dutch General Practices.

Author

Verhees B, van Kuijk K, and Simonse L

Subjects
Humans, Models, Organizational, Netherlands, Delivery of Health Care standards, Point-of-Care Testing standards, Primary Health Care standards, Telemedicine standards
Abstract

Point-of-care testing (POCT)-laboratory tests performed with new mobile devices and online technologies outside of the central laboratory-is rapidly outpacing the traditional laboratory test market, growing at a rate of 12 to 15% each year. POCT impacts the diagnostic process of care providers by yielding high efficiency benefits in terms of turnaround time and related quality improvements in the reduction of errors. However, the implementation of this disruptive eHealth technology requires the integration and transformation of diagnostic services across the boundaries of healthcare organizations. Research has revealed both advantages and barriers of POCT implementations, yet to date, there is no business model for the integration of POCT within general practice. The aim of this article is to contribute with a design for a care model that enables the integration of POCT in primary healthcare. In this research, we used a design modelling toolkit for data collection at five general practices. Through an iterative design process, we modelled the actors and value transactions, and designed an optimized care model for the dynamic integration of POCTs into the GP's network of care delivery. The care model design will have a direct bearing on improving the integration of POCT through the connectivity and norm guidelines between the general practice, the POC technology, and the diagnostic centre., Competing Interests: The authors declare no conflict of interest. Sponsors had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, and in the decision to publish the results.

Published
2017
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40. Prevalence of lipoatrophy and mitochondrial DNA content of blood and subcutaneous fat in HIV-1-infected patients randomly allocated to zidovudine- or stavudine-based therapy.

Author

van der Valk M, Casula M, Weverlingz GJ, van Kuijk K, van Eck-Smit B, Hulsebosch HJ, Nieuwkerk P, van Eeden A, Brinkman K, Lange J, de Ronde A, and Reiss P

Subjects
Adipose Tissue chemistry, Adipose Tissue metabolism, Adult, DNA, Mitochondrial blood, Follow-Up Studies, HIV Infections complications, HIV Infections metabolism, HIV-Associated Lipodystrophy Syndrome etiology, HIV-Associated Lipodystrophy Syndrome metabolism, Humans, Leukocytes, Mononuclear chemistry, Leukocytes, Mononuclear metabolism, Middle Aged, Muscle, Skeletal chemistry, Muscle, Skeletal metabolism, Radiography, Anti-HIV Agents therapeutic use, DNA, Mitochondrial analysis, HIV Infections drug therapy, HIV-Associated Lipodystrophy Syndrome diagnostic imaging, Reverse Transcriptase Inhibitors therapeutic use, Stavudine therapeutic use, Zidovudine therapeutic use
Abstract

Introduction: Mitochondrial toxicity resulting from mitochondrial DNA (mtDNA) depletion is suggested to be involved in the pathogenesis of lipodystrophy., Methods: We cross-sectionally assessed lipodystrophy both clinically and radiographically in patients who, 4 years before, had been enrolled in a randomized comparative trial of stavudine- or zidovudine-based therapy. mtDNA content was measured in peripheral blood mononuclear cells (PBMCs) and subcutaneous adipose tissue from the thigh and back., Results: Twenty-eight of the 45 patients enrolled in the original trial were included. Despite comparable exposure to stavudine or zidovudine (51 and 50 months, respectively), lipoatrophy prevalence by intent-to-treat analysis was significantly greater in stavudine recipients (82 vs 9%, P=0.0001). Likewise, those allocated to stavudine had significantly less peripheral fat. In an analysis restricted to patients who had remained on randomly allocated nucleoside reverse transcriptase inhibitors (NRTIs), mtDNA in PBMCs decreased after the start of treatment in both groups (P<0.0001) (-73% for stavudine and -67% for zidovudine, P=0.11), resulting in significantly lower levels in patients with lipoatrophy (P=0.007). The mtDNA content in subcutaneous adipose tissue from the thigh, but not from the back, was significantly lower in patients allocated to stavudine compared to zidovudine (P=0.01). mtDNA in adipose tissue from either location did not differ significantly between those with or without lipoatrophy., Discussion: This study objectively confirms that regimens containing stavudine are associated with a greater risk of lipoatrophy than those containing zidovudine. mtDNA in PBMCs markedly declined with both treatments and was lowest in patients with lipoatrophy. The lack of difference in mtDNA in adipose tissue from patients with as opposed to without lipoatrophy may have been masked by a relative preponderance of stromal and vascular tissue in the subcutaneous tissue samples from these patients, combined with compensatory mitochondrial proliferation in remaining adipocytes. However, our findings may also suggest that the different risk of lipoatrophy observed between NRTIs cannot solely be explained by differences in mtDNA depletion directly at the level of peripheral adipose tissue.

Published
2004

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