Single-Cell Profiling of AKI in a Murine Model Reveals Novel Transcriptional Signatures, Profibrotic Phenotype, and Epithelial-to-Stromal Crosstalk

Valeria Rudman-Melnick; Mike Adam; Andrew Potter; Saagar M. Chokshi; Qing Ma; Keri A. Drake; Meredith P. Schuh; J. Matthew Kofron; Prasad Devarajan; S. Steven Potter

doi:10.1681/ASN.2020010052

This article requires a subscription to view the full text. If you have a subscription you may use the login form below to view the article. Access to this article can also be purchased.

Visual Abstract

Significance Statement

Because current management of the rapid renal-function decline in AKI is merely supportive, deeper understanding of the AKI-perturbed molecular pathways is needed to identify targets with potential to lead to improved treatment. In a murine AKI model, the authors used single-cell RNA sequencing, single-molecule in situ hybridization, and protein expression analyses to create the first comprehensive renal cell type–specific transcriptional profiles for multiple AKI stages. Their findings revealed a marked nephrogenic signature and surprising mixed-identity cells (expressing markers of different cell types) in the injured renal tubules. Moreover, the authors identified potential pathologic epithelial-to-stromal crosstalk and several novel genes not previously implicated in AKI, and demonstrated that older onset age exacerbates the AKI outcome. This work provides a rich resource for examining the molecular genetics of AKI.

Abstract

Background Current management of AKI, a potentially fatal disorder that can also initiate or exacerbate CKD, is merely supportive. Therefore, deeper understanding of the molecular pathways perturbed in AKI is needed to identify targets with potential to lead to improved treatment.

Methods We performed single-cell RNA sequencing (scRNA-seq) with the clinically relevant unilateral ischemia-reperfusion murine model of AKI at days 1, 2, 4, 7, 11, and 14 after AKI onset. Using real-time quantitative PCR, immunofluorescence, Western blotting, and both chromogenic and single-molecule in situ hybridizations, we validated AKI signatures in multiple experiments.

Results Our findings show the time course of changing gene expression patterns for multiple AKI stages and all renal cell types. We observed elevated expression of crucial injury response factors—including kidney injury molecule-1 (Kim1), lipocalin 2 (Lcn2), and keratin 8 (Krt8)—and of several novel genes (Ahnak, Sh3bgrl3, and Col18a1) not previously examined in kidney pathologies. AKI induced proximal tubule dedifferentiation, with a pronounced nephrogenic signature represented by Sox4 and Cd24a. Moreover, AKI caused the formation of “mixed-identity cells” (expressing markers of different renal cell types) that are normally seen only during early kidney development. The injured tubules acquired a proinflammatory and profibrotic phenotype; moreover, AKI dramatically modified ligand-receptor crosstalk, with potential pathologic epithelial-to-stromal interactions. Advancing age in AKI onset was associated with maladaptive response and kidney fibrosis.

Conclusions The scRNA-seq, comprehensive, cell-specific profiles provide a valuable resource for examining molecular pathways that are perturbed in AKI. The results fully define AKI-associated dedifferentiation programs, potential pathologic ligand-receptor crosstalk, novel genes, and the improved injury response in younger mice, and highlight potential targets of kidney injury.

View Full Text

If you are:

an ASN member, select the "ASN Member" login button.
an individual subscriber, login with you User Name and Password.
an Institutional user, select the Institution option where you will be presented with a list of Shibboleth federations. If you do not see your federation, contact publications@asn-online.org.

Log in through your institution

Purchase access

Pay Per Article - You may access this article (from the computer you are currently using) for 1 day for US$32.00

You will have access to the article for 24 hours.

If you do not have an account, you will need to create one and you will be asked for your name, email address and other information. Just like commercial web sites, we do need details from you in order to complete your purchase of an article. Select the "Create an Account" link to create your account.

You will then be asked to register a user name, email address and you will need to create a password that is at least eight characters in length. As you move through the registration page, you will have to verify you are a person by completing a Captcha request. Lastly, your first and last name will be required.

Once your information is successfully saved, the system will redisplay the home page of the journal. From there, navigate back to the article to purchase. Select the article and at the bottom of the page, use the credentials you just created to login. The article will be added to your shopping cart. You can continue to navigate across JASN and CJASN adding to your cart from both journals. When you are ready to complete your purchse, select the Shopping Cart from the upper right hand corner of the page and follow the onscreen instructions.