Ex vivo live cell tracking in kidney organoids using light sheet fluorescence microscopy

Held, Marie; Santeramo, Ilaria; Wilm, Bettina; Murray, Patricia; Lévy, Raphaël

doi:10.1371/journal.pone.0199918

Cited by 27 publications

(15 citation statements)

References 56 publications

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“…Improved retinal organoid culturing methods using bioreactors or microfluidic organ-on-a-chip technology, which also allows for tight control of the physiological microenvironment, bring us a further step towards an in vivo like retina [167,215,326]. Furthermore, retinal organoid models derived from patients may be used in conjunction with two-photon imaging and light sheet microscopy as well as tissue clearing methods such as DISCO and PACT [47,169,[327][328][329]. This will allow unparalleled analysis of live and fixed cellular events including spatiotemporal process such as proliferation, differentiation and migration.…”

Section: Discussionmentioning

confidence: 99%

Retinogenesis of the Human Fetal Retina: An Apical Polarity Perspective

Quinn

Wijnholds

2019

Genes

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The Crumbs complex has prominent roles in the control of apical cell polarity, in the coupling of cell density sensing to downstream cell signaling pathways, and in regulating junctional structures and cell adhesion. The Crumbs complex acts as a conductor orchestrating multiple downstream signaling pathways in epithelial and neuronal tissue development. These pathways lead to the regulation of cell size, cell fate, cell self-renewal, proliferation, differentiation, migration, mitosis, and apoptosis. In retinogenesis, these are all pivotal processes with important roles for the Crumbs complex to maintain proper spatiotemporal cell processes. Loss of Crumbs function in the retina results in loss of the stratified appearance resulting in retinal degeneration and loss of visual function. In this review, we begin by discussing the physiology of vision. We continue by outlining the processes of retinogenesis and how well this is recapitulated between the human fetal retina and human embryonic stem cell (ESC) or induced pluripotent stem cell (iPSC)-derived retinal organoids. Additionally, we discuss the functionality of in utero and preterm human fetal retina and the current level of functionality as detected in human stem cell-derived organoids. We discuss the roles of apical-basal cell polarity in retinogenesis with a focus on Leber congenital amaurosis which leads to blindness shortly after birth. Finally, we discuss Crumbs homolog (CRB)-based gene augmentation.

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Section: Discussionmentioning

confidence: 99%

Retinogenesis of the Human Fetal Retina: An Apical Polarity Perspective

Quinn

Wijnholds

2019

Genes

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“…Long-term imaging of primary organoids has been achieved via light-sheet microscopy ( Drost et al, 2015 ; Serra et al, 2019 ; Verissimo et al, 2016 ) and these efforts have benefited from the lower phototoxicity provided by SPIM imaging. However, regarding fast dividing cells in tumor organoids, tracking single-cell dynamics necessitates high resolution imaging which in turn limits the time frame in which organoids can be imaged without phototoxic effects ( Held et al, 2018 ). Conversely, imaging primary organoids for longer time periods requires an offset of temporal and cellular resolution that eventually cannot allow single-cell fate tracking ( Dekkers et al, 2016 ).…”

Section: Introductionmentioning

confidence: 99%

Tracking cells in epithelial acini by light sheet microscopy reveals proximity effects in breast cancer initiation

Alladin¹,

Chaible²,

Valle³

et al. 2020

eLife

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Cancer clone evolution takes place within tissue ecosystem habitats. But, how exactly tumors arise from a few malignant cells within an intact epithelium is a central, yet unanswered question. This is mainly due to the inaccessibility of this process to longitudinal imaging together with a lack of systems that model the progression of a fraction of transformed cells within a tissue. Here, we developed a new methodology based on primary mouse mammary epithelial acini, where oncogenes can be switched on in single cells within an otherwise normal epithelial cell layer. We combine this stochastic breast tumor induction model with inverted light-sheet imaging to study single-cell behavior for up to four days and analyze cell fates utilizing a newly developed image-data analysis workflow. The power of this integrated approach is illustrated by us finding that small local clusters of transformed cells form tumors while isolated transformed cells do not.

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“…Advances in imaging technologies and gene editing have opened multiple avenues to dissect the roles of specific genes during human brain development using organoids. Using advanced imaging of cortical organoids, such as light-sheet live-cell imaging microscopy [62], will allow scientists to track in real-time the high dynamic processes of human neurogenesis.…”

Section: Future Perspectivesmentioning

confidence: 99%

Cerebral organoids as tools to identify the developmental roots of autism

et al. 2020

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Some autism spectrum disorders (ASD) likely arise as a result of abnormalities during early embryonic development of the brain. Studying human embryonic brain development directly is challenging, mainly due to ethical and practical constraints. However, the recent development of cerebral organoids provides a powerful tool for studying both normal human embryonic brain development and, potentially, the origins of neurodevelopmental disorders including ASD. Substantial evidence now indicates that cerebral organoids can mimic normal embryonic brain development and neural cells found in organoids closely resemble their in vivo counterparts. However, with prolonged culture, significant differences begin to arise. We suggest that cerebral organoids, in their current form, are most suitable to model earlier neurodevelopmental events and processes such as neurogenesis and cortical lamination. Processes implicated in ASDs which occur at later stages of development, such as synaptogenesis and neural circuit formation, may also be modeled using organoids. The accuracy of such models will benefit from continuous improvements to protocols for organoid differentiation.

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Ex vivo live cell tracking in kidney organoids using light sheet fluorescence microscopy

Cited by 27 publications

References 56 publications

Retinogenesis of the Human Fetal Retina: An Apical Polarity Perspective

Retinogenesis of the Human Fetal Retina: An Apical Polarity Perspective

Tracking cells in epithelial acini by light sheet microscopy reveals proximity effects in breast cancer initiation

Cerebral organoids as tools to identify the developmental roots of autism

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