Origin of regenerating tubular cells after acute kidney injury

Berger, Katja; Bangen, Jörg–Martin; Hammerich, Linda; Liedtke, Christian; Floege, Jürgen; Smeets, Bart; Moeller, Marcus J.

doi:10.1073/pnas.1316177111

Cited by 143 publications

(140 citation statements)

References 22 publications

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“…[21][22][23][24] These works hypothesized that these cells might represent a committed intratubular stem cell population. [21][22][23][24] To address this controversy, Kusaba et al 25 and Berger et al 26 have used transgenic mice to genetically label this scattered tubular cell population. Both groups independently concluded that scattered tubular cells do not represent a fixed progenitor population but rather, a phenotype that can be adopted by almost any proximal tubular cell on injury.…”

Section: Mechanisms Of Normal Repairmentioning

confidence: 99%

Targeting Endogenous Repair Pathways after AKI

Humphreys

Cantaluppi

Portilla

et al. 2016

Journal of the American Society of Nephrology

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AKI remains a highly prevalent disease associated with poor short-and long-term outcomes and high costs. Although significant advances in our understanding of repair after AKI have been made over the last 5 years, this knowledge has not yet been translated into new AKI therapies. A consensus conference held by the Acute Dialysis Quality Initiative was convened in April of 2014 and reviewed new evidence on successful kidney repair to identify the most promising pathways that could be translated into new treatments. In this paper, we provide a summary of current knowledge regarding successful kidney repair and offer a framework for conceptualizing the therapeutic targeting that may facilitate this process. We outline gaps in knowledge and suggest a research agenda to more efficiently bring new discoveries regarding repair after AKI to the clinic.

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Section: Mechanisms Of Normal Repairmentioning

confidence: 99%

Targeting Endogenous Repair Pathways after AKI

Humphreys

Cantaluppi

Portilla

et al. 2016

Journal of the American Society of Nephrology

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“…Second, in a previous study we detected ANXA3 in a specific population of proximal tubular cells of the kidney, the so-called scattered tubular cells. 19,20 Scattered tubular cells express similar proteins as PECs. In the present study, we found that within the glomerulus ANXA3 was expressed exclusively by PECs and infiltrating leukocytes 21 ( Figure 7D).…”

Section: Detecting Pecs In Sclerotic Lesions By Using Akap12 or Anxa3mentioning

confidence: 99%

Detection of Activated Parietal Epithelial Cells on the Glomerular Tuft Distinguishes Early Focal Segmental Glomerulosclerosis from Minimal Change Disease

Smeets

Stucker

Wetzels

et al. 2014

The American Journal of Pathology

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In rodents, parietal epithelial cells (PECs) migrating onto the glomerular tuft participate in the formation of focal segmental glomerulosclerosis (FSGS) lesions. We investigated whether immunohistologic detection of PEC markers in the initial biopsies of human patients with first manifestation of idiopathic nephrotic syndrome with no immune complexes can improve the sensitivity to detect sclerotic lesions compared with standard methods. Ninety-five renal biopsies were stained for claudin-1 (PEC marker), CD44 (activated PECs), and LKIV69 (PEC matrix); 38 had been diagnosed as early primary FSGS and 57 as minimal change disease. PEC markers were detected on the tuft in 87% of the biopsies of patients diagnosed as primary FSGS. PEC markers were detected in FSGS lesions from the earliest stages of disease. In minimal change disease, no PEC activation was observed by immunohistology. However, in 25% of biopsies originally diagnosed as minimal change disease the presence of small lesions indicative of a sclerosing process were detected, which were undetectable on standard periodic acid-Schiff staining, even though only a single histologic section for each PEC marker was evaluated. Staining for LKIV69 detected lesions with the highest sensitivity. Two novel PEC markers A-kinase anchor protein 12 and annexin A3 exhibited similar sensitivity. In summary, detection of PECs on the glomerular tuft by immunostaining improves the differentiation between minimal change disease and primary FSGS and may serve to guide clinical decision making.

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“…The PEC transgenic mouse line recapitulated this program because it also labeled STCs with high sensitivity in the proximal tubule and allowed us to trace these cells in vivo. 10 Our results showed that any tubular cell may transiently acquire the STC phenotype, which is a specific transcriptional program in response to virtually any tubular injury. We found no experimental support for STCs representing a fixed intrinsic progenitor population.…”

Section: Search For Progenitor Cells In the Proximal Tubulementioning

confidence: 54%

“…These markers are also part of the common transcriptional program and are expressed by both PECs and proximal tubular cells with the STC phenotype. 10 When culturing urinary PECs and proximal tubular cells, one can expect that they will activate the common STC transcriptional program in response to stimulatory culture conditions as used by Lazzeri et al (the authors used 20% FCS supplemented with a mixture of growth factors) so that many of them may acquire an RPC phenotype (i.e., coexpressing RPC markers, including CD24 and glyCD133). Further characterization of the cell populations isolated by Lazzeri et al will therefore be required in future studies.…”

Section: Search For Progenitor Cells In the Proximal Tubulementioning

confidence: 99%