Novel in vivo techniques to visualize kidney anatomy and function

Peti‐Peterdi, Janos; Kidokoro, Kengo; Riquier‐Brison, Anne

doi:10.1038/ki.2015.65

Cited by 50 publications

(55 citation statements)

References 69 publications

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“…The present study confirmed the presence and passage of albumin-containing vesicles in the Bowman’s space in the rat PAN model. A recent report documented the rupture of albumin-containing pseudocysts that resulted in the emptying of the high albumin-containing cyst fluid into the Bowman’s space and downstream the nephron [25]. Albumin endocytosis by injured podocytes and the rupture of albumin-containing large pseudocysts are likely alternative mechanisms of albumin leakage through the GFB that contribute to the development of albuminuria.…”

Section: Discussionmentioning

confidence: 99%

Combined use of electron microscopy and intravital imaging captures morphological and functional features of podocyte detachment

Burford

Gyarmati

Shirato

et al. 2017

Pflugers Arch - Eur J Physiol

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The development of podocyte injury and albuminuria in various glomerular pathologies is still incompletely understood due to technical limitations in studying the glomerular filtration barrier (GFB) in real-time. We aimed to directly visualize the early morphological and functional changes of the GFB during the development of focal segmental glomerulosclerosis (FSGS) using a combination of transmission electron microscopy (TEM) and in vivo multiphoton microscopy (MPM) in the rat puromycin aminonucleoside (PAN) model. We hypothesized that this combined TEM + MPM experimental approach would provide a major technical improvement that would benefit our mechanistic understanding of podocyte detachment. Male Sprague-Dawley (for TEM) or Munich-Wistar-Frömter (for MPM) rats were given a single dose of 100–150 mg/kg body weight PAN i.p. and were either sacrificed and the kidneys processed for TEM or surgically instrumented for in vivo MPM imaging at various times 2–14 days after PAN administration. Both techniques demonstrated hypertrophy and cystic dilatations of the subpodocyte space that developed as early as 2–3 days after PAN. Adhesions of the visceral epithelium to the parietal Bowman’s capsule (synechiae) appeared at days 8–10. TEM provided unmatched resolution of podocyte foot process remodeling, while MPM revealed the rapid dynamics of pseudocyst filling, emptying, and rupture, as well as endothelial and podocyte injury, misdirected filtration, and podocyte shedding. Due to the complementary advantages of TEM and MPM, this combined approach can provide an unusally comprehensive and dynamic portrayal of the alterations in podocyte morphology and function during FSGS development. The results advance our understanding of the role and importance of the various cell types, hemodynamics, and mechanical forces in the development of glomerular pathology.

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Section: Discussionmentioning

confidence: 99%

Combined use of electron microscopy and intravital imaging captures morphological and functional features of podocyte detachment

Burford

Gyarmati

Shirato

et al. 2017

Pflugers Arch - Eur J Physiol

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“…1A). Because of strong light scattering, deeper live imaging is currently limited as compared to other organs such as the brain, where less scattering species are present [1,18,19]. Improving imaging depth can be achieved with: 1) an increment in laser power, 2) the use of a high numerical aperture of the objective lens with matched refractive indices of the sample and immersion medium, 3) a long free working distance (e.g., Olympus objectives: XLPLanN 25x/1.05W MP, UPlanSApo 30x/1.05 Silicon oil, XLUMPlanFI 20x/0.95 W), 4) longer excitation wavelength as achieved with an optical parametric oscillator [20,21].…”

Section: Resultsmentioning

confidence: 99%

Intravital imaging of the kidney

Hato

Winfree

Dagher

2017

Methods

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Two-photon intravital microscopy is a powerful tool that allows the examination of dynamic cellular processes in the live animal with unprecedented resolution. Indeed, it offers the ability to address unique biological questions that may not be solved by other means. While two-photon intravital microscopy has been successfully applied to study many organs, the kidney presents its own unique challenges that need to be overcome in order to optimize and validate imaging data. For kidney imaging, the complexity of renal architecture and salient autofluorescence merit special considerations as these elements directly impact image acquisition and data interpretation. Here, using illustrative cases, we provide practical guides and discuss issues that may arise during two-photon live imaging of the rodent kidney.

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“…Notwithstanding these limitations, some groups have been successful in deriving assays that might mimic some of the mechanistic processes associated with proteinuric disease 38, 39 and that can be used for drug screening purposes 40 . It will be interesting to determine if high throughput imaging system of podocyte function in vivo can be developed, and the scientific progress of this technique has been reviewed elsewhere 41 .…”

Section: Strategies To Identify Clinically Relevant Targetsmentioning

confidence: 99%

Drug discovery in focal and segmental glomerulosclerosis

Pullen

Fornoni

2016

Kidney International

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Despite the high medical burden experienced by patients with focal segmental glomerulosclerosis (FSGS), the etiology of the condition remains largely unknown. FSGS is highly heterogeneous in clinical and morphological manifestations. While this presents challenges for the development of new treatments, research investments over the last two decades have yielded a surfeit of potential avenues for therapeutic intervention. The development of many of those ideas and concepts into new therapies, however, has been very disappointing. Here, we describe some of the factors that have potentially contributed to the poor translational performance from this research investment, including the confidence we ascribe to a target, the conduct of experimental studies, and the availability of selective reagents to test hypotheses. We will discuss the significance of genetic and systems traits as well as other methods for reducing bias. We will analyze the limitations for a successful drug development. We will use specific examples hoping that these will guide a consensus for investment and drive greater translational quality. We hope that this substrate will serve to exemplify the tremendous opportunity for intervention as well as facilitate greater collaborative effort between industry, academia and private foundations in promoting appropriate validation of these targets. Only then will we have achieved our goal for curative therapies for this devastating disease.

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Novel in vivo techniques to visualize kidney anatomy and function

Cited by 50 publications

References 69 publications

Combined use of electron microscopy and intravital imaging captures morphological and functional features of podocyte detachment

Combined use of electron microscopy and intravital imaging captures morphological and functional features of podocyte detachment

Intravital imaging of the kidney

Drug discovery in focal and segmental glomerulosclerosis

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