High-grade osteosarcoma, a primary malignant bone tumour, is experiencing a global increase in reported incidence with varied prevalence. Despite advances in management, which include surgery and... Show moreHigh-grade osteosarcoma, a primary malignant bone tumour, is experiencing a global increase in reported incidence with varied prevalence. Despite advances in management, which include surgery and neoadjuvant chemotherapy often an unsatisfactory outcome is found due to poor or heterogeneous response to chemotherapy. Our study delved into chemotherapy responses in osteosarcoma patients and associated molecular expressions, focusing on CD95 receptor (CD95R), interferon (IFN)-γ, catalase, heat-shock protein (Hsp)70, and vascular endothelial growth factor (VEGF). Employing immunohistochemistry and Huvos grading of post-chemo specimens, we analysed formalin-fxed parafn-embedded (FFPE) osteosarcoma tissue of resected post-chemotherapy specimens from Dr. Soetomo General Academic Hospital in Surabaya, Indonesia (DSGAH), spanning from 2016 to 2020. Results revealed varied responses (poor 40.38%, moderate 48.08%, good 11.54%) and distinct patterns in CD95R, IFN-γ, catalase, Hsp70, and VEGF expression. Signifcant diferences among response groups were observed in CD95R and IFN-γ expression in tumour-infltrating lymphocytes. The trend of diminishing CD95R expression from poor to good responses, accompanied by an increase in IFN-γ, implied a reduction in the count of viable osteosarcoma cells with the progression of Huvos grading. Catalase expression in osteosarcoma cells was consistently elevated in the poor response group, while Hsp70 expression was highest. VEGF expression in macrophages was signifcantly higher in the good response group. In conclusion, this study enhances our understanding of immune-chemotherapy interactions in osteosarcoma and identifes potential biomarkers for targeted interventions. Show less
The emergence of complex diseases resulting from abnormal cell-cell signaling and the spread of infectious diseases caused by pathogens are significant threats to humanity. Unraveling the dynamic... Show moreThe emergence of complex diseases resulting from abnormal cell-cell signaling and the spread of infectious diseases caused by pathogens are significant threats to humanity. Unraveling the dynamic mechanisms underlying cell-cell signaling and infectious disease spreading is crucial for effective disease prevention and treatment. As science and technology advance, the availability and diversity of observational and experimental data related to these biological processes continue to grow. In this thesis, we integrate multisource data with dynamic modeling to investigate the biological mechanisms of Notch signaling in biological development and to develop prevention and control strategies for infectious diseases. Show less
The aim of this thesis was to develop novel treatment strategies for different types of eye melanoma utilizing zebrafish models. We first establish orthotopic and ectopic xenograft models for uveal... Show moreThe aim of this thesis was to develop novel treatment strategies for different types of eye melanoma utilizing zebrafish models. We first establish orthotopic and ectopic xenograft models for uveal and conjunctival melanoma by engraftment of the immortalized cells derived from these tumors into zebrafish embryos. Next, we expanded these models with spheroids and zebrafish patient-derived xenografts for pre-clinical, personalized screening of anti-uveal melanoma drug responses. We demonstrated that these models can be harnessed to explore the in vivo interactions of the tumor cells with blood vessels and macrophages leading to angiogenic response. We finally apply the conjunctival melanoma model to clarify the inhibitory effects of ginsenosides and correlate their structures with potential antitumoral mechanisms. Show less
Manukjan, N.; Majcher, D.; Leenders, P.; Caiment, F.; Herwijnen, M. van; Smeets, H.J.; ... ; Foulquier, S. 2023
Cerebral small vessel disease is characterised by decreased cerebral blood flow and blood–brain barrier impairments which play a key role in the development of white matter lesions. We... Show moreCerebral small vessel disease is characterised by decreased cerebral blood flow and blood–brain barrier impairments which play a key role in the development of white matter lesions. We hypothesised that cerebral hypoperfusion causes local hypoxia, affecting oligodendrocyte precursor cell—endothelial cell signalling leading to blood–brain barrier dysfunction as an early mechanism for the development of white matter lesions. Bilateral carotid artery stenosis was used as a mouse model for cerebral hypoperfusion. Pimonidazole, a hypoxic cell marker, was injected prior to humane sacrifice at day 7. Myelin content, vascular density, blood–brain barrier leakages, and hypoxic cell density were quantified. Primary mouse oligodendrocyte precursor cells were exposed to hypoxia and RNA sequencing was performed. Vegfa gene expression and protein secretion was examined in an oligodendrocyte precursor cell line exposed to hypoxia. Additionally, human blood plasma VEGFA levels were measured and correlated to blood–brain barrier permeability in normal-appearing white matter and white matter lesions of cerebral small vessel disease patients and controls. Cerebral blood flow was reduced in the stenosis mice, with an increase in hypoxic cell number and blood–brain barrier leakages in the cortical areas but no changes in myelin content or vascular density. Vegfa upregulation was identified in hypoxic oligodendrocyte precursor cells, which was mediated via Hif1α and Epas1. In humans, VEGFA plasma levels were increased in patients versus controls. VEGFA plasma levels were associated with increased blood–brain barrier permeability in normal appearing white matter of patients. Cerebral hypoperfusion mediates hypoxia induced VEGFA expression in oligodendrocyte precursor cells through Hif1α/Epas1 signalling. VEGFA could in turn increase BBB permeability. In humans, increased VEGFA plasma levels in cerebral small vessel disease patients were associated with increased blood–brain barrier permeability in the normal appearing white matter. Our results support a role of VEGFA expression in cerebral hypoperfusion as seen in cerebral small vessel disease. Show less
Inverse problems are problems where we want to estimate the values of certain parameters of a system given observations of the system. Such problems occur in several areas of science and... Show moreInverse problems are problems where we want to estimate the values of certain parameters of a system given observations of the system. Such problems occur in several areas of science and engineering. Inverse problems are often ill-posed, which means that the observations of the system do not uniquely define the parameters we seek to estimate, or that the solution is highly sensitive to small changes in the observation. In order to solve such problems, therefore, we need to make use of additional knowledge about the system at hand. One such prior information is given by the notion of sparsity. Sparsity refers to the knowledge that the solution to the inverse problem can be expressed as a combination of a few terms. The sparsity of a solution can be controlled explicitly or implicitly. An explicit way to induce sparsity is to minimize the number of non-zero terms in the solution. Implicit use of sparsity can be made, for e.g., by making adjustments to the algorithm used to arrive at the solution.In this thesis we studied various inverse problems that arise in different application areas, such as tomographic imaging and equation learning for biology, and showed how ideas of sparsity can be used in each case to design effective algorithms to solve such problems. Show less
Background: Considerable interindividual variation in meniscal microvascularization has been reported. The purpose of this review was to identify which patient characteristics affect meniscal... Show moreBackground: Considerable interindividual variation in meniscal microvascularization has been reported. The purpose of this review was to identify which patient characteristics affect meniscal microvascularization and provide a structured overview of angiogenic ther-apies that influence meniscal neovascularization.Methods: A systematic literature search was undertaken using PubMed, Embase, Web of Science, Cochrane library and Emcare from inception to November 2021. Studies reporting on (1) Patient characteristics that affect meniscal microvascularization, or (2) Therapies that induce neovascularization in meniscal tissue were included. Studies were graded in quality using the Anatomical Quality Assessment (AQUA) tool. The study was registered with PROSPERO(ID:CRD42021242479).Results: Thirteen studies reported on patient characteristics and eleven on angiogenic ther-apies. The influence of Age, Degenerative knee, Gender, and Race was reported. Age is the most studied factor. The entire meniscus is vascularized around birth. With increasing age, vascularization decreases from the inner to the peripheral margin. Around 11 years, blood vessels are primarily located in the peripheral third of the menisci. There seems to be a fur-ther decrease in vascularization with increasing age in adults, yet conflicting literature exists. Degenerative changes of the knee also seem to influence meniscal vascularization, but evidence is limited. Angiogenic therapies to improve meniscal vascularization have only been studied in preclinical setting. The use of synovial flap transplantation, stem cell therapy, vascular endothelial growth factor, and angiogenin has shown promising results.Conclusion: To decrease failure rates of meniscal repair, a better understanding of patient -specific vascular anatomy is essential. Translational clinical research is needed to investi-gate the clinical value of angiogenic therapies.(c) 2022 The Author(s). Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). Show less
Ocular melanoma is a rare disease that originates from melanocytes in the eye. It is the most prevalent primary ocular malignancy in adults, and has a high metastatic rate. Two important questions... Show moreOcular melanoma is a rare disease that originates from melanocytes in the eye. It is the most prevalent primary ocular malignancy in adults, and has a high metastatic rate. Two important questions for good patient care are: 1) How to differentiate between (benign) nevi, and (malignant) melanoma?, and 2) How to treat this tumor best, particularly in cases with metastases?This thesis addresses two types of ocular melanoma: melanoma of the internal parts of the eye (uveal melanoma) and melanoma of the mucous membrane covering the eye (conjunctival melanoma). This thesis combines patient-related projects with projects from the lab.With new imaging techniques we demonstrate that oxygen values differ in eyes with melanoma compared to other eyes including those with a nevus. We use OCT-angiography to depict tumour vessels non-invasively in conjunctival and iris lesions. These two techniques may be used in the future to differentiate lesions, and to monitor patients after treatment.With studies in the lab we show that new drugs (immunotherapy) that are recently used in cutaneous melanoma, can also be used to treat conjunctival melanoma. We show that vascular growth in uveal melanoma is related to other (genetic and immunologic) characteristics, providing new clues for therapy. Show less
In dit proefschrift begin ik met een algemene inleiding in Hoofdstuk 1 om kort de relevantie van EC-gedrag in vasculaire morfogenese en in angiogenese te presenteren. Bovendien bespreek ik hoe de... Show moreIn dit proefschrift begin ik met een algemene inleiding in Hoofdstuk 1 om kort de relevantie van EC-gedrag in vasculaire morfogenese en in angiogenese te presenteren. Bovendien bespreek ik hoe de EC-functie ingewikkeld wordt gereguleerd door positieve en negatieve factoren, en hoe hun functie kan worden gemanipuleerd voor therapeutische winst bij kanker en hart- en vaatziekten. In Hoofdstuk 2 bespreken we in detail de rol van de TGF-β-signaleringsroute in EndMT en bespreken we de bijdrage van dit proces aan de ontwikkeling van ziekten, evenals de mogelijke toepassingen ervan in weefselmanipulatie. In Hoofdstuk 3 onthullen we gedetailleerde werkprotocollen om TGF-β-geïnduceerde EndMT te onderzoeken en hoe de betrokkenheid van EndMT-effectoren te beoordelen met behulp van CRISPR/Cas9-genediting. In Hoofdstuk 4 hebben we de functie van EndMT transcriptiefactoren onderzocht en hun werkingsmechanisme opgehelderd. We ontdekten dat de EndMT-transcriptiefactoren (TF's) SNAIL en SLUG cruciaal zijn voor EndMT in endotheelcellen van muizen en dat de ID-eiwitten hun functie in EndMT compenseren. In Hoofdstuk 5 geven we een technisch overzicht van embryonale zebravis-xenotransplantaattesten om TGF-β-familiesignalering in de progressie van borstkanker bij de mens te onderzoeken, waaronder intravasatie/extravasatie van tumorcellen en tumorangiogenese. In Hoofdstuk 6 identificeren en onderzoeken we twee nieuwe BMP type I receptor macrocyclische kinaseremmers met therapeutisch potentieel om angiogenese in normale en tumorvatvorming bij zebravissen te normaliseren. In Hoofdstuk 7 vat ik alle studies in het proefschrift samen en geef ik enkele toekomstperspectieven met betrekking tot onze resultaten. Show less
During my PhD we have investigated different approaches to block intraplaque angiogenesis in atherosclerosis. Intraplaque angiogenesis is a physiological response to the increased oxygen demand in... Show moreDuring my PhD we have investigated different approaches to block intraplaque angiogenesis in atherosclerosis. Intraplaque angiogenesis is a physiological response to the increased oxygen demand in the plaque but also has adverse effects by facilitating intraplaque hemorrhage and influx of inflammatory mediators, resulting in plaque instability and consequent rupture. To study this phenomenon we used in vitro assays as well as the accelerated atherosclerosis vein graft model in ApoE3*Leiden mice, a unique model in which the formed plaque shows characteristics that highly resemble human atherosclerotic lesions, including intraplaque angiogenesis and hemorrhage and a high inflammatory cell content. We focused on different approaches to restore plaque stability via improving intraplaque oxygen levels as well as via blocking different growth factors signaling. Moreover we studied the effects of our treatments on the interaction between angiogenesis and inflammation both in vitro and in vivo. Show less
Cardiovascular diseases (CVDs) remain the leading cause of death worldwide, and thus, novel therapies are required. CVDs generally result in local shortages in the blood supply, known as ischemia.... Show moreCardiovascular diseases (CVDs) remain the leading cause of death worldwide, and thus, novel therapies are required. CVDs generally result in local shortages in the blood supply, known as ischemia. Neovascularization is the body's innate response mechanism that stimulates the restoration of blood flow to ischemic tissues. During the last decade, microRNAs have emerged as critical regulators of both CVD and neovascularization. Recent studies demonstrated that microRNAs are altered in many ways; however, whether these microRNA modifications could be physiologically relevant remained unclear. We examined whether specific microRNAs with a known cardiovascular function are subject to particular microRNA-alterations and if they could be relevant in cardiovascular disease. Our experiments demonstrated that the level of specific microRNA alterations, including isomiR formation, adenosine-to-inosine editing, and N6-adenosine methylation, changed in response to cardiovascular pathology. Many of these alterations changed the microRNAs function, which had a direct effect on processes like neovascularization. For example, microRNA adenosine-to-inosine editing increased after ischemia in both mice and humans and promoted neovascularization. These findings suggest that microRNA modifications can potentially be harnessed as a biomarker for cardiovascular disease, or even a novel therapeutic target. Show less
The endothelial glycocalyx (EG) is critically involved in vascular integrity and homeostasis, where it regulates endothelial cell mechanotransduction, vascular permeability, coagulation and... Show moreThe endothelial glycocalyx (EG) is critically involved in vascular integrity and homeostasis, where it regulates endothelial cell mechanotransduction, vascular permeability, coagulation and inflammation. Loss of the glomerular EG component, hyaluronan, results in albuminuria and vascular destabilisation. Glomerular loss of hyaluronan has a profound effect on endothelial stability, and similar effects were observed in tumor vessels of metastatic melanomas and in muscular tissue of diabetic patients with critical limb ischemia. Endothelial hyaluronan biosynthesis is critically determined by the endothelial metabolic state which glycolysis is a determining factor of endothelial hyaluronan biosynthesis and function. Show less
In this thesis, we will utilize embryonic zebrafish tumour models to understand the interaction between engrafted human cancer cells and macrophages from the host, test drug administration... Show moreIn this thesis, we will utilize embryonic zebrafish tumour models to understand the interaction between engrafted human cancer cells and macrophages from the host, test drug administration modalities and anti-cancer efficacies of newly-developed PDT and PACT compounds, and test a light-triggered liposomal system for targeted drug delivery specifically to cancer cells in vivo. In chapter 2, we investigate the role of macrophages in tumour-induced angiogenesis. We show that macrophage-dependent angiogenesis is driven by macrophage recruitment to lactic acid secreted by glycolytic B16 melanoma cells. Chemical inhibition of macrophages and glycolysis blocks the initiation of angiogenesis in these models, suggesting that macrophages attracted to glycolytic melanoma cells contribute to the tumour-induced angiogenesis process.In chapters 3 and 4, we explore novel PDT and PACT compounds, respectively, for treatment of conjunctival melanoma in zebrafish. We inject conjunctival melanoma cells into the retro-orbital site to establish an orthotopic model and into the Duct of Cuvier to generate an ectopic model. Our results prove that zebrafish provides a fast vertebrate cancer model to test the optimal administration regimen of drugs, conditions of light irradiation, host toxicity and anti-cancer efficacy of PDT and PACT drugs against conjunctival melanoma.In chapter 5, we focus on modifying liposomes to be light triggered in order to deliver drugs specifically to cancer cells. We inject MDA231 breast cancer cells into the Duct of Cuvier at 2 days post fertilization (dpf) to initiate metastasis to the CHT. We successfully demonstrate that light-triggered, cell-specific delivery of liposome-encapsulated doxorubicin reduces the xenograft cancer cell burden without enhanced cytotoxicity of the zebrafish embryos. In chapter 6, we summarize the novel anti-cancer strategies, which we have developed using zebrafish xenograft models. In the same chapter, we frame our findings in the current scientific landscape and discuss future perspectives. Show less
Despite the available treatment options and sophisticated imaging technologies for monitoring lesion development, the morbidity and mortality from acute cardiovascular events remain unacceptably... Show moreDespite the available treatment options and sophisticated imaging technologies for monitoring lesion development, the morbidity and mortality from acute cardiovascular events remain unacceptably high.While cholesterol-lowering, anti-inflammatory and anti-platelet therapies benefits can increase survival as a primary or secondary prevention, they are not sufficient for plaque rupture prevention. Moreover, the most advance imaging technologies to detect high-risk atherosclerotic patients fail to visualize and explore cellular events in small preclinical models. Therefore, there is a clear need for the development of new therapies and the application of high-resolution imaging modalities.In the current thesis, we evaluated new possibilities to inhibit and image intraplaque angiogenesis. Show less
Bot, I.; Velden, D. van der; Bouwman, M.; Kröner, M.J.; Kuiper, J.; Quax, P.H.A.; Vries, M.R. de 2020
Mast cells have been associated with arteriogenesis and collateral formation. In advancedhuman atherosclerotic plaques, mast cells have been shown to colocalize with plaque neovessels,and mast... Show moreMast cells have been associated with arteriogenesis and collateral formation. In advancedhuman atherosclerotic plaques, mast cells have been shown to colocalize with plaque neovessels,and mast cells have also been associated with tumor vascularization. Based on these associations,we hypothesize that mast cells promote angiogenesis during ischemia. In human ischemic muscletissue from patients with end-stage peripheral artery disease, we observed activated mast cells,predominantly located around capillaries. Also, in mouse ischemic muscles, mast cells were detectedduring the revascularization process and interestingly, mast cell activation status was enhanced up to10 days after ischemia induction. To determine whether mast cells contribute to both arteriogenesisand angiogenesis, mast cells were locally activated immediately upon hind limb ischemia in C57Bl/6mice. At day 9, we observed a 3-fold increase in activated mast cell numbers in the inguinal lymphnodes. This was accompanied by an increase in the amount of Ly6Chigh inflammatory monocytes.Interestingly, local mast cell activation increased blood flow through the hind limb (46% at day 9)compared to that in non-activated control mice. Histological analysis of the muscle tissue revealedthat mast cell activation did not aect the number of collaterals, but increased the collateral diameter,as well as the number of CD31+ capillaries. Together, these data illustrate that locally activated mastcell contribute to arteriogenesis and angiogenesis. Show less
Koning, M.; Berg, C.W. van den; Rabelink, T.J. 2019
Kidney organoids can be generated from human pluripotent stem cells (PSCs) using protocols that resemble the embryonic development of the kidney. The renal structures thus generated offer great... Show moreKidney organoids can be generated from human pluripotent stem cells (PSCs) using protocols that resemble the embryonic development of the kidney. The renal structures thus generated offer great potential for disease modeling, drug screening, and possibly future therapeutic application. At the same time, use of these PSC-derived organoids is hampered by lack of maturation and off-target differentiation. Here, we review the main protocols for the generation of kidney organoids from human-induced PSCs, discussing their advantages and limitations. In particular, we will focus on the vascularization of the kidney organoids, which appears to be one of the critical factors to achieve maturation and functionality of the organoids. Show less
Balbi, C.; Lodder, K.; Costa, A.; Moimas, S.; Moccia, F.; Herwaarden, T. van; ... ; Bollini, S. 2019
The data and information presented here refer to the research article entitled: "Reactivating endogenous mechanisms of cardiac regeneration via paracrine boosting with the human amniotic fluid stem... Show moreThe data and information presented here refer to the research article entitled: "Reactivating endogenous mechanisms of cardiac regeneration via paracrine boosting with the human amniotic fluid stem cell secretome" (Balbi et al., 2019, Apr 04). This dataset illustrates the in vitro paracrine effect exerted by the human amniotic fluid stem cell secretome on rodent neonatal cardiomyocytes, human endothelial progenitors and different subsets of cardiac progenitor cells. Cytokine/chemokine profiling of the human amniotic fluid stem cell secretome is provided as well. This data can provide useful insights in regenerative medicine as demonstrating the in vitro cardioprotective and proliferative secretory paracrine potential of human fetal stem cells. (c) 2019 The Author(s). Published by Elsevier Inc. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). Show less
Myocardial infarction results in a permanent loss of function in the heart. Currently, there is no therapy available that addresses the heart of the problem: the loss of cardiomyocytes. Cell... Show moreMyocardial infarction results in a permanent loss of function in the heart. Currently, there is no therapy available that addresses the heart of the problem: the loss of cardiomyocytes. Cell transplantation has been a focus of cardiac regenerative studies. Interestingly, cell transplantation has effect on cardiac function and vessel formation in the absence of cardiac differentiation, suggesting a role for the paracrine factors. Besides replacing cardiomyocytes, restoring blood flow to the infarcted area is vital. We showed that vasculogenesis is not hampered by the loss of endoglin, but angiogenesis, and network formation was impaired with reduced endoglin expression. We also studied the effect of extracellular vesicles (EVs) secreted by mesenchymal stromal cells (MSC) and cardiac progenitor cells (CPC) on angiogenesis and infarct size. Both in vitro and in vivo angiogenesis was significantly improved in the presence of these EVs. Knockdown of the pro-angiogenic factor EMMPRIN resulted in a reduction in angiogenesis. Injection of the CPC derived EVs into the heart after MI resulted in a decrease in infarct size. Furthermore, total proliferation was increase in the border zone and infarcted area as seen by an increase in Ki67 and Yap. These results show therapeutic potential of EVs for cardiac regeneration. Show less
Vascular remodeling is an active process of structural changes in the vasculature due to changes in the blood flow. It comprises diseases and processes such peripheral artery disease (PAD),... Show moreVascular remodeling is an active process of structural changes in the vasculature due to changes in the blood flow. It comprises diseases and processes such peripheral artery disease (PAD), coronary artery disease (CAD), neovascularization and vein graft disease (VGD), that are covered by cardiovascular diseases (CVD). The main underlying pathology of CVD is atherosclerosis, which can cause ischemia distal to atherosclerotic occlusions. Neovascularization (angiogenesis and arteriogenesis) naturally occurs in the body to form new blood vessels and restore blood flow to ischemic tissue. In case of severe atherosclerotic lesions, when the neovascularization capability of the body is not sufficient and revascularization interventions are no longer possible, bypass surgery is indicated with preferaby a vein graft. However, due to VGD, patency rates of vein grafts after 10 years are low. The aim of this thesis was to elucidate the role of the innate and adaptive immune system on vascular remodeling. We investigated the role of Toll-like receptors, Interferon regulatory factors and T cells on neovascularisation and VGD. In conclusion, new knowledge was obtained on several contributing factors in vascular remodeling. Described molecules of the innate and adaptive immune system might be used as targets to prevent VGD and stimulate neovascularization. Show less
Witjas, F.M.R.; Berg, B.M. van den; Berg, C.W. van den; Engelse, M.A.; Rabelink, T.J. 2019
All tissues are surrounded by a mixture of noncellular matrix components, that not only provide physical and mechanical support to cells, but also mediate biochemical signaling between cells. The... Show moreAll tissues are surrounded by a mixture of noncellular matrix components, that not only provide physical and mechanical support to cells, but also mediate biochemical signaling between cells. The extracellular matrix (ECM) of endothelial cells, also known as the perivascular matrix, forms an organ specific vascular niche that orchestrates mechano-, growth factor, and angiocrine signaling required for tissue homeostasis and organ repair. This concise review describes how this perivascular ECM functions as a signaling platform and how this knowledge can impact the field of regenerative medicine, for example, when designing artificial matrices or using decellularized scaffolds from organs. Stem Cells Translational Medicine 2019;8:375-382 Show less