16 research outputs found

    CD34+ cells home, proliferate, and participate in capillary formation, and in combination with

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    Objective - Emerging evidence suggests that human blood contains bone marrow (BM)-derived endothelial progenitor cells that contribute to postnatal neovascularization. Clinical trials demonstrated that administration of BM-cells can enhance neovascularization. Most studies, however, used crude cell populations. Identifying the role of different cell populations is important for developing improved cellular therapies. Methods and Results - Effects of the hematopoietic stem cell-containing CD34+ cell population on migration, proliferation, differentiation, stimulation of, and participation in capillary-like tubule formation were assessed in an in vitro 3-dimensional matrix model using human microvascular endothelial cells. During movement over the endothelial monolayer, CD34+ cells remained stuck at sites of capillary tube formation and time- and dose-dependently formed cell clusters. Immunohistochemistry confirmed homing and proliferation of CD34+ cells in and around capillary sprouts. CD34+ cells were transduced with the LNGFR marker gene to allow tracing. LNGFR gene-transduced CD34 + cells integrated in the tubular structures and stained positive for CD31 and UEA-1. CD34+ cells alone stimulated neovascularization by 17%. Coculture with CD34- cells led to 68% enhancement of neovascularization, whereas CD34- cells displayed a variable response by themselves. Cell-cell contact between CD34+ and CD34- cells facilitated endothelial differentiation of CD34+ cells. Conclusions - Our data suggest that administration of CD34+-enriched cell populations may significantly improve neovascularization and point at an important supportive role for (endogenous or exogenous) CD34- cells. © 2005 American Heart Association, Inc. Chemicals / CAS: nitric oxide, 10102-43-9; Antigens, CD34; Biological Marker

    Bleeding risk of haemodialysis and peritoneal dialysis patients

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    Background. Dialysis patients have an increased bleeding risk as compared with the general population. However, there is limited information whether bleeding risks are different for patients treated with haemodialysis (HD) or peritoneal dialysis (PD). From a clinical point of view, this information could influence therapy choice. Therefore the aim of this study was to investigate the association between dialysis modality and bleeding risk.Methods. Incident dialysis patients from the Netherlands Cooperative Study on the Adequacy of Dialysis were prospectively followed for major bleeding events over 3years. Hazard ratios with 95% confidence intervals (CIs) were calculated for HD compared with PD using a time-dependent Cox regression analysis, with updates on dialysis modality.Results. In total, 1745 patients started dialysis, of whom 1211 (69.4%) received HD and 534 (30.6%) PD. The bleeding rate was 60.8/1000 person-years for HD patients and 34.6/1000 person-years for PD patients. The time-dependent Cox regression analysis showed that after adjustment for age, sex, primary kidney disease, prior bleeding, cardiovascular disease, antiplatelet drug use, vitamin K antagonist use, erythropoietin use, arterial hypertension, residual glomerular filtratin rate, haemoglobin and albumin levels, bleeding risk for HD patients compared with PD increased 1.5-fold (95% CI 1.0-2.2).Conclusions. In this large prospective cohort of incident dialysis patients, HD patients had an increased bleeding risk compared with PD patients. In particular, HD patients with a history of prior bleeding had an increased bleeding risk.Clinical epidemiolog

    Differentiated kidney tubular cell-derived extracellular vesicles enhance maturation of tubuloids

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    The prevalence of end-stage kidney disease (ESKD) is rapidly increasing with the need for regenerative therapies. Adult stem cell derived kidney tubuloids have the potential to functionally mimic the adult kidney tubule, but still lack the expression of important transport proteins needed for waste removal. Here, we investigated the potential of extracellular vesicles (EVs) obtained from matured kidney tubular epithelial cells to modulate in vitro tubuloids functional maturation. We focused on organic anion transporter 1 (OAT1), one of the most important proteins involved in endogenous waste excretion. First, we show that EVs from engineered proximal tubule cells increased the expression of several transcription factors and epithelial transporters, resulting in improved OAT1 transport capacity. Next, a more in-depth proteomic data analysis showed that EVs can trigger various biological pathways, including mesenchymal-to-epithelial transition, which is crucial in the tubular epithelial maturation. Moreover, we demonstrated that the combination of EVs and tubuloid-derived cells can be used as part of a bioartificial kidney to generate a tight polarized epithelial monolayer with formation of dense cilia structures. In conclusion, EVs from kidney tubular epithelial cells can phenotypically improve in vitro tubuloid maturation, thereby enhancing their potential as functional units in regenerative or renal replacement therapies. Graphical Abstract: [Figure not available: see fulltext.]

    Progenitor cells in the kidney: biology and therapeutic perspectives

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    Progenitor cells in the kidney: Biology and therapeutic perspectives. The stem cell may be viewed as an engineer who can read the blue print and become the building. The role of this fascinating cell in physiology and pathophysiology has recently attracted a great deal of interest. The archetype of stem cells is the zygote: one cell capable of endless proliferation and differentiation into all tissue types in the human body. Historically, the differentiation of embryonic stem cells is seen as an irreversible process with restricting possibilities for differentiation leading finally to a terminally differentiated cell type. Stem cells have also been described in the adult. They were first defined in tissues with a high cell turnover like skin and gut. Today, stem cells have also been shown in tissues with no or low regenerative potential and turnover, like the kidney. Traditionally, adult stem cells were thought to be restricted in their differentiative and regenerative potential to the tissues in which they reside. However, the stem cell concept is changing rapidly as evidence is mounting that adult stem cells not only reside locally in specific niches, but may also be recruited from the circulation to actively participate in the regeneration of various tissues. Furthermore, reverse differentiation has been demonstrated. This means that highly specialized cell types are able to dedifferentiate and engage in stem cell like activities. Moreover, transdifferentiation of mature cells into different cell types has been reported. This paper will review our current knowledge on renal stem cells and progenitor cells. Specifically, it will discuss the role of progenitor cells and transdifferentiation in renal repair and maintenance. Finally, the potential clinical implications of these findings will be discussed

    Vitamin K antagonist use and mortality in dialysis patients

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    Clinical epidemiolog

    BK virus nephropathy, collecting duct cell proliferation and malignancy in a renal allograft: Case history and review of the literature

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    We report an anti-SV40 positive collecting duct (CD) cell carcinoma in a renal allograft 4.5 years after transplantation that developed during smoldering BK virus (BKV) nephropathy. In the allograft biopsy six months after transplantation documenting BK nephropathy, anti-SV40 positivity co-localized with the CD marker CK-HMW and proliferation marker MIB-1, suggesting that BKV preferentially infects CD cells and causes them to proliferate. In previous reports on BKV related renal malignancies, immunohistochemistry also pointed to a CD origin of the tumors. Six additional cases of BKV induced renal tumors were found in four CD carcinoma case-reports and one large case-series of “usual” CD carcinomas, supporting the hypothesis that BKV specifically induce CD cell tumor formation. In view of the rarity of BKV induced tumors a second hit might be needed to induce malignancy. In our case the use of lithium—which also causes CD cell proliferation—at the time of BKV infection may have provided this second hit. Keywords: Kidney transplantation, BK virus, Collecting duct cell carcinom

    Vitamin K antagonist use and renal function in pre-dialysis patients

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    Diabetes mellitus: pathophysiological changes and therap

    Vitamin K antagonist use and renal function in pre-dialysis patients

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    Diabetes mellitus: pathophysiological changes and therap

    Modeling Distal Convoluted Tubule (Patho)Physiology: An Overview of Past Developments and an Outlook Toward the Future.

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    The kidneys are essential for maintaining electrolyte homeostasis. Blood electrolyte composition is controlled by active reabsorption and secretion processes in dedicated segments of the kidney tubule. Specifically, the distal convoluted tubule (DCT) and connecting tubule are important for regulating the final excretion of sodium, magnesium, and calcium. Studies unravelling the specific function of these segments have greatly improved our understanding of DCT (patho)physiology. Over the years, experimental models used to study the DCT have changed and the field has advanced from early dissection studies with rats and rabbits to the use of various transgenic mouse models. Developments in dissection techniques and cell culture methods have resulted in immortalized mouse DCT cell lines and made it possible to specifically obtain DCT fragments for ex vivo studies. However, we still do not fully understand the complex (patho)physiology of this segment and there is need for advanced human DCT models. Recently, kidney organoids and tubuloids have emerged as new complex cell models that provide excellent opportunities for physiological studies, disease modeling, drug discovery, and even personalized medicine in the future. This review presents an overview of cell models used to study the DCT and provides an outlook on kidney organoids and tubuloids as model for DCT (patho)physiology. Impact statement This study provides a detailed overview of past and future developments on cell models used to study kidney (patho)physiology and specifically the distal convoluted tubule (DCT) segment. Hereby, we highlight the need for an advanced human cell model of this segment and summarize recent advances in the field of kidney organoids and tubuloids with a focus on DCT properties. The findings reported in this review are significant for future developments toward an advanced human model of the DCT that will help to increase our understanding of DCT (patho)physiology
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