Your search keyword '"Patrick C. N. Rensen"' showing total 9 results

1. Doublecortin-like knockdown in mice attenuates obesity by stimulating energy expenditure in adipose tissue

Author

Melanie Modder, Claudia P. Coomans, Dirk-Jan Saaltink, Mayke M. H. Tersteeg, Janna Hoogduin, Leonie Scholten, Amanda C. M. Pronk, Reshma A. Lalai, Anita Boelen, Andries Kalsbeek, Patrick C. N. Rensen, Erno Vreugdenhil, and Sander Kooijman

Subjects

Doublecortin-like, β-Tanycytes, Body weight control, Energy expenditure, White adipose tissue browning, Medicine, Science

Abstract

Abstract Crosstalk between peripheral metabolic organs and the central nervous system is essential for body weight control. At the base of the hypothalamus, β-tanycytes surround the portal capillaries and function as gatekeepers to facilitate transfer of substances from the circulation into the cerebrospinal fluid and vice versa. Here, we investigated the role of the neuroplasticity gene doublecortin-like (DCL), highly expressed by β-tanycytes, in body weight control and whole-body energy metabolism. We demonstrated that DCL-knockdown through a doxycycline-inducible shRNA expression system prevents body weight gain by reducing adiposity in mice. DCL-knockdown slightly increased whole-body energy expenditure possibly as a result of elevated circulating thyroid hormones. In white adipose tissue (WAT) triglyceride uptake was increased while the average adipocyte cell size was reduced. At histological level we observed clear signs of browning, and thus increased thermogenesis in WAT. We found no indications for stimulated thermogenesis in brown adipose tissue (BAT). Altogether, we demonstrate an important, though subtle, role of tanycytic DCL in body weight control through regulation of energy expenditure, and specifically WAT browning. Elucidating mechanisms underlying the role of DCL in regulating brain-peripheral crosstalk further might identify new treatment targets for obesity.

Published

2024

2. Phosphatidylinositol metabolism of the renal proximal tubule S3 segment is disturbed in response to diabetes

Author

Rosalie G. J. Rietjens, Gangqi Wang, Anouk I. M. van der Velden, Angela Koudijs, M. Cristina Avramut, Sander Kooijman, Patrick C. N. Rensen, Johan van der Vlag, Ton J. Rabelink, Bram Heijs, and Bernard M. van den Berg

Subjects

Medicine, Science

Abstract

Abstract Diabetes is a main risk factor for kidney disease, causing diabetic nephropathy in close to half of all patients with diabetes. Metabolism has recently been identified to be decisive in cell fate decisions and repair. Here we used mass spectrometry imaging (MSI) to identify tissue specific metabolic dysregulation, in order to better understand early diabetes-induced metabolic changes of renal cell types. In our experimental diabetes mouse model, early glomerular glycocalyx barrier loss and systemic metabolic changes were observed. In addition, MSI targeted at small molecule metabolites and glycero(phospho)lipids exposed distinct changes upon diabetes in downstream nephron segments. Interestingly, the outer stripe of the outer medullar proximal tubular segment (PT_S3) demonstrated the most distinct response compared to other segments. Furthermore, phosphatidylinositol lipid metabolism was altered specifically in PT_S3, with one of the phosphatidylinositol fatty acid tails being exchanged from longer unsaturated fatty acids to shorter, more saturated fatty acids. In acute kidney injury, the PT_S3 segment and its metabolism are already recognized as important factors in kidney repair processes. The current study exposes early diabetes-induced changes in membrane lipid composition in this PT_S3 segment as a hitherto unrecognized culprit in the early renal response to diabetes.

Published

2023

3. Association of apolipoprotein M and sphingosine-1-phosphate with brown adipose tissue after cold exposure in humans

Author

Anna Borup, Ida Donkin, Mariëtte R. Boon, Martin Frydland, Borja Martinez-Tellez, Annika Loft, Sune H. Keller, Andreas Kjaer, Jesper Kjaergaard, Christian Hassager, Romain Barrès, Patrick C. N. Rensen, and Christina Christoffersen

Subjects

Medicine, Science

Abstract

Abstract The HDL-associated apolipoprotein M (apoM) and its ligand sphingosine-1-phosphate (S1P) may control energy metabolism. ApoM deficiency in mice is associated with increased vascular permeability, brown adipose tissue (BAT) mass and activity, and protection against obesity. In the current study, we explored the connection between plasma apoM/S1P levels and parameters of BAT as measured via 18F-FDG PET/CT after cold exposure in humans. Fixed (n = 15) vs personalized (n = 20) short-term cooling protocols decreased and increased apoM (− 8.4%, P = 0.032 vs 15.7%, P

Published

2022

4. Bone marrow transplantation induces changes in the gut microbiota that chronically increase the cytokine response pattern of splenocytes

Author

Saeed Katiraei, Janna A. van Diepen, Luciana P. Tavares, Lisa R. Hoving, Amanda Pronk, Ineke Verschueren, Patrick C. N. Rensen, Jaap Jan Zwaginga, Sarantos Kostidis, Martin Giera, Mauro Teixera, Ko Willems van Dijk, Mihai G. Netea, Jimmy F. P. Berbée, and Vanessa van Harmelen

Subjects

Medicine, Science

Abstract

Abstract Bone marrow transplantation (BMT) involves conditioning regimens which acutely induce side effects, including systemic inflammation, intestinal damage and shifts in the gut microbial composition, some of which may persist chronically. As the gut microbiota affect systemic immune responses, we aimed to investigate whether, post-BMT, the peripheral immune system is modulated as a direct consequence of alterations in the gut microbiota. We show that 24 weeks post-BMT, splenocytes but not peritoneal macrophages display increased cytokine response patterns upon ex-vivo stimulation with various pathogens as compared to untreated controls. The pattern of BMT-induced cytokine responses was transferred to splenocytes, and not to peritoneal macrophages, of healthy controls via co-housing and transferred to germfree mice via transplantation of cecum content. Thus, BMT induces changes in gut microbiota that in their turn increase cytokine responsiveness of splenocytes. Thus, BMT establishes a dominant microbiota that attenuates normalization of the immune-response.

Published

2022

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

Author

Menno Hoekstra, Baoyan Ren, Pirkka-Pekka Laurila, Reeni B. Hildebrand, Jarkko Soronen, Vanessa Frodermann, Zhuang Li, Mariëtte R. Boon, Janine J. Geerling, Patrick C. N. Rensen, Matti Jauhiainen, and Miranda Van Eck

Subjects

Medicine, Science

Abstract

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

Published

2021

6. Impact of rural-urban environment on metabolic profile and response to a 5-day high-fat diet

Author

Dicky L. Tahapary, Karin de Ruiter, Farid Kurniawan, Yenny Djuardi, Yanan Wang, Siti M. E. Nurdin, Elisa Iskandar, Dominggus Minggu, Em Yunir, Bruno Guigas, Taniawati Supali, Patrick C. N. Rensen, Erliyani Sartono, Pradana Soewondo, Dante S. Harbuwono, Johannes W. A. Smit, and Maria Yazdanbakhsh

Subjects

Medicine, Science

Abstract

Abstract Epidemiological studies have indicated that rural living might be protective against type 2 diabetes development. We compared the metabolic profile and response to a short-term high-fat high-calorie diet (HFD) of men with the same genetic background living in an urban and rural area of Indonesia. First, we recruited 154 Floresian male subjects (18–65 years old), of whom 105 lived in a rural area (Flores) and 49 had migrated and lived in urban area (Jakarta) for more than 1 year. The urban group had significantly higher whole-body insulin resistance (IR), as assessed by homeostatic-model-assessment of IR (HOMA-IR), [mean difference (95% CI), p-value: 0.10 (0.02–0.17), p = 0.01]. Next, we recruited 17 urban and 17 rural age-and-BMI-matched healthy-young-male volunteers for a 5-day HFD challenge. The HOMA-IR increased in both groups similarly −0.77 (−2.03–0.49), p = 0.22]. Neither rural living nor factors associated with rural living, such as current helminth infection or total IgE, were associated with protection against acute induction of IR by HFD.

Published

2018

7. Endocannabinoid tone is higher in healthy lean South Asian than white Caucasian men

Author

Vasudev Kantae, Kimberly J. Nahon, Maaike E. Straat, Leontine E. H. Bakker, Amy C. Harms, Mario van der Stelt, Thomas Hankemeier, Ingrid M. Jazet, Mariëtte R. Boon, and Patrick C. N. Rensen

Subjects

Medicine, Science

Abstract

Abstract South Asians have a higher risk to develop obesity and related disorders compared to white Caucasians. This is likely in part due to their lower resting energy expenditure (REE) as related with less energy-combusting brown adipose tissue (BAT). Since overactivation of the endocannabinoid system is associated with obesity and low BAT activity, we hypothesized that South Asians have a higher endocannabinoid tone. Healthy lean white Caucasian (n = 10) and South Asian (n = 10) men were cold-exposed to activate BAT. Before and after cooling, REE was assessed and plasma was collected for analysis of endocannabinoids and lipids. At thermoneutrality, South Asians had higher plasma levels of 2-arachidonoylglycerol (2-AG; 11.36 vs 8.19 pmol/mL, p

Published

2017

8. Association of apolipoprotein M and sphingosine-1-phosphate with brown adipose tissue after cold exposure in humans

Author

Anna Borup, Ida Donkin, Mariëtte R. Boon, Martin Frydland, Borja Martinez-Tellez, Annika Loft, Sune H. Keller, Andreas Kjaer, Jesper Kjaergaard, Christian Hassager, Romain Barrès, Patrick C. N. Rensen, and Christina Christoffersen

Subjects

Multidisciplinary, Adipose Tissue, Brown, Sphingosine, Positron Emission Tomography Computed Tomography, Animals, Humans, Apolipoproteins M, Lysophospholipids

Abstract

The HDL-associated apolipoprotein M (apoM) and its ligand sphingosine-1-phosphate (S1P) may control energy metabolism. ApoM deficiency in mice is associated with increased vascular permeability, brown adipose tissue (BAT) mass and activity, and protection against obesity. In the current study, we explored the connection between plasma apoM/S1P levels and parameters of BAT as measured via 18F-FDG PET/CT after cold exposure in humans. Fixed (n = 15) vs personalized (n = 20) short-term cooling protocols decreased and increased apoM (− 8.4%, P = 0.032 vs 15.7%, P P vs 19.1%, P P = 0.024) after adjusting for study design but not BAT volume (β: 0.39, 95% CI [− 0.01–0.78], P = 0.054). In conclusion, plasma apoM and S1P levels are altered in response to cold exposure and may be linked to changes in BAT metabolic activity but not BAT volume in humans. This contrasts partly with observations in animals and highlights the need for further studies to understand the biological role of apoM/S1P complex in human adipose tissue and lipid metabolism.

Published

2021

9. Bone marrow transplantation induces changes in the gut microbiota that chronically increase the cytokine response pattern of splenocytes

Author

Saeed Katiraei, Janna A. van Diepen, Luciana P. Tavares, Lisa R. Hoving, Amanda Pronk, Ineke Verschueren, Patrick C. N. Rensen, Jaap Jan Zwaginga, Sarantos Kostidis, Martin Giera, Mauro Teixera, Ko Willems van Dijk, Mihai G. Netea, Jimmy F. P. Berbée, and Vanessa van Harmelen

Subjects

Mice, Multidisciplinary, All institutes and research themes of the Radboud University Medical Center, Immune System, lnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4], Animals, Cytokines, Spleen, Bone Marrow Transplantation, Gastrointestinal Microbiome

Abstract

Bone marrow transplantation (BMT) involves conditioning regimens which acutely induce side effects, including systemic inflammation, intestinal damage and shifts in the gut microbial composition, some of which may persist chronically. As the gut microbiota affect systemic immune responses, we aimed to investigate whether, post-BMT, the peripheral immune system is modulated as a direct consequence of alterations in the gut microbiota. We show that 24 weeks post-BMT, splenocytes but not peritoneal macrophages display increased cytokine response patterns upon ex-vivo stimulation with various pathogens as compared to untreated controls. The pattern of BMT-induced cytokine responses was transferred to splenocytes, and not to peritoneal macrophages, of healthy controls via co-housing and transferred to germfree mice via transplantation of cecum content. Thus, BMT induces changes in gut microbiota that in their turn increase cytokine responsiveness of splenocytes. Thus, BMT establishes a dominant microbiota that attenuates normalization of the immune-response.

Published

2018