Generation of Functioning Nephrons by Implanting Human Pluripotent Stem Cell-Derived Kidney Progenitors

Bantounas, Ioannis; Ranjzad, Parisa; Zakaria, Tg Muhamad Faris Syafiq Tg; Silajdžić, Edina; Forster, Duncan; Asselin, Marie‐Claude; Lewis, Philip A.; Lennon, Rachel; Plagge, Antonius; Wang, Qi; Woolf, Adrian S.; Kimber, Susan J.

doi:10.1016/j.stemcr.2018.01.008

Cited by 151 publications

(192 citation statements)

References 46 publications

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“…A similar mechanism may operate in glomerular vascularization in mammals. Interestingly, most endothelial cells in the glomeruli in the transplantation experiments were derived from the host animals rather than from the transplanted iPSCs . In contrast, another group detected some integration of hiPSC‐derived endothelial cells upon transplantation.…”

Section: Vascularization Of Kidney Organoidsmentioning

confidence: 99%

From organoids to transplantable artificial kidneys

Naganuma

Nishinakamura

2019

Transpl Int

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Summary It is difficult to restore kidney function following chronic kidney damage. Although dialysis is currently used to treat patients with chronic kidney disease, it does not cure the disease, while severely restricting the patient's daily and social activities. Kidney transplantation is an alternative and curative therapy, but donor numbers remain limited. However, the generation of kidney organoids from human induced pluripotent stem cells represents an important recent advance in regenerative medicine. Kidney organoids are expected to be used for disease modeling and drug discovery, and may eventually be applicable for transplantation. In this review, we describe the current status of kidney organoids and discuss the hurdles that need to be overcome to generate transplantable artificial kidneys.

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Section: Vascularization Of Kidney Organoidsmentioning

confidence: 99%

From organoids to transplantable artificial kidneys

Naganuma

Nishinakamura

2019

Transpl Int

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“…The implications of this become the most stark when one considers the prospects for renal replacement. A number of groups have shown evidence that a transplanted organoid can draw in a host vasculature with evidence of substantive glomerular and tubular maturation (Sharmin et al 2016;Bantounas et al 2018;Tanigawa et al 2018;van den Berg et al 2018). However, if there is no prospect of ongoing nephrogenesis, all current approaches fall short with respect to tissue mass and will not generate new nephrons after transplantation.…”

Section: Accurate Lineage But Precocious Cessation Of Nephrogenesis Wmentioning

confidence: 99%

“…In addition, protocols for the generation of specific renal cell subtypes, such as podocyte or collecting duct epithelium, are being reported (Musah et al 2017;Taguchi and Nishinakamura 2017;Hale et al 2018;Yoshimura et al 2019). Finally, a variety of approaches have now been proposed to improve vascularization in vitro (Homan et al 2019) or provide vascular flow in vivo (Sharmin et al 2016;Bantounas et al 2018;van den Berg et al 2018;Garreta et al 2019;Gupta et al 2019). In most instances, these involve modifications of prior differentiation protocols (Table 2; Taguchi et al 2014;Freedman et al 2015;Morizane et al 2015;.…”

Section: Other Points Of Divergence Between Developing Organ and Orgamentioning

confidence: 99%

“…What is evident is that the provision of an ex vivo blood supply does improve tubular ultrastructure. This has been achieved via transplantation either under the renal capsule or subcutaneously in immunocompromised mice or culture of organoids on the chick chorioallantoic membrane (Bantounas et al 2018;van den Berg et al 2018;Garreta et al 2019). In both examples, a nascent host-derived vasculature grows into the grafted organoid with TEM evidence for the presence of glomerular capillaries.…”

Section: Other Points Of Divergence Between Developing Organ and Orgamentioning

confidence: 99%

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Kidney organoids: accurate models or fortunate accidents

2019

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There are now many reports of human kidney organoids generated via the directed differentiation of human pluripotent stem cells (PSCs) based on an existing understanding of mammalian kidney organogenesis. Such kidney organoids potentially represent tractable tools for the study of normal human development and disease with improvements in scale, structure, and functional maturation potentially providing future options for renal regeneration. The utility of such organotypic models, however, will ultimately be determined by their developmental accuracy. While initially inferred from mouse models, recent transcriptional analyses of human fetal kidney have provided greater insight into nephrogenesis. In this review, we discuss how well human kidney organoids model the human fetal kidney and how the remaining differences challenge their utility.

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“…The basic strategy of bioengineered kidney constructs is to exploit the structure of the native kidney through seeding cultured cells into a 3D scaffold system and subsequently implant the cell-seeded scaffold in vivo to restore kidney functions. Various scaffolding systems, including natural (e.g., collagen) and synthetic biomaterials, have been used, and recent advances have been made in the generation of kidney organoids in vitro that engraft in vivo [25, 26]. Although promising, these technologies are still far from clinical application due to difficulties in the fabrication of large-sized functional renal constructs with complex renal structures that could readily integrate into host kidney tissue for clinical translation [27].…”

Section: The Challenge For Chronic Hemodialysis Patients Is the Enginmentioning

confidence: 99%

Progress in the Development and Challenges for the Use of Artificial Kidneys and Wearable Dialysis Devices

Hueso

Navarro²,

Sandoval

et al. 2018

Kidney Dis

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Background: Renal transplantation is the treatment of choice for chronic kidney disease (CKD) patients, but the shortage of kidneys and the disabling medical conditions these patients suffer from make dialysis essential for most of them. Since dialysis drastically affects the patients’ lifestyle, there are great expectations for the development of wearable artificial kidneys, although their use is currently impeded by major concerns about safety. On the other hand, dialysis patients with hemodynamic instability do not usually tolerate intermittent dialysis therapy because of their inability to adapt to a changing scenario of unforeseen events. Thus, the development of novel wearable dialysis devices and the improvement of clinical tolerance will need contributions from new branches of engineering such as artificial intelligence (AI) and machine learning (ML) for the real-time analysis of equipment alarms, dialysis parameters, and patient-related data with a real-time feedback response. These technologies are endowed with abilities normally associated with human intelligence such as learning, problem solving, human speech understanding, or planning and decision-making. Examples of common applications of AI are visual perception (computer vision), speech recognition, and language translation. In this review, we discuss recent progresses in the area of dialysis and challenges for the use of AI in the development of artificial kidneys. Summary and Key Messages: Emerging technologies derived from AI, ML, electronics, and robotics will offer great opportunities for dialysis therapy, but much innovation is needed before we achieve a smart dialysis machine able to analyze and understand changes in patient homeostasis and to respond appropriately in real time. Great efforts are being made in the fields of tissue engineering and regenerative medicine to provide alternative cell-based approaches for the treatment of renal failure, including bioartificial renal systems and the implantation of bioengineered kidney constructs.

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Generation of Functioning Nephrons by Implanting Human Pluripotent Stem Cell-Derived Kidney Progenitors

Cited by 151 publications

References 46 publications

From organoids to transplantable artificial kidneys

From organoids to transplantable artificial kidneys

Kidney organoids: accurate models or fortunate accidents

Progress in the Development and Challenges for the Use of Artificial Kidneys and Wearable Dialysis Devices

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