Yu Leng Phua scite author profile

MicroRNAs are small noncoding RNAs that post-transcriptionally regulate mRNA levels. While previous studies have demonstrated that miRNAs are indispensable in the nephron progenitor and ureteric bud lineage, little is understood about stromal miRNAs during kidney development. The renal stroma (marked by expression of FoxD1) gives rise to the renal interstitium, a subset of peritubular capillaries, and multiple supportive vascular cell types including pericytes and the glomerular mesangium. In this study, we generated FoxD1GC;Dicerfl/fl transgenic mice that lack miRNA biogenesis in the FoxD1 lineage. Loss of Dicer activity resulted in multifaceted renal anomalies including perturbed nephrogenesis, expansion of nephron progenitors, decreased renin-expressing cells, fewer smooth muscle afferent arterioles, and progressive mesangial cell loss in mature glomeruli. Although the initial lineage specification of FoxD1+ stroma was not perturbed, both the glomerular mesangium and renal interstitium exhibited ectopic apoptosis, which was associated with increased expression of Bcl2l11 (Bim) and p53 effector genes (Bax, Trp53inp1, Jun, Cdkn1a, Mmp2, and Arid3a). Using a combination of high-throughput miRNA profiling of the FoxD1+-derived cells and mRNA profiling of differentially expressed transcripts in FoxD1GC;Dicerfl/fl kidneys, at least 72 miRNA:mRNA target interactions were identified to be suppressive of the apoptotic program. Together, the results support an indispensable role for stromal miRNAs in the regulation of apoptosis during kidney development.

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Distinct sites of renal fibrosis in Crim1 mutant mice arise from multiple cellular origins

Phua

Martel

Pennisi

et al. 2013

The Journal of Pathology

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Crim1 is a transmembrane protein that regulates the bioavailability of growth factors such as VEGFA. Crim1(KST264)(/)(KST264) hypomorphic mice develop renal disease characterized by glomerular cysts and loss of endothelial integrity, progressing to peritubular and pericystic fibrosis. Peritubular capillary endothelial cells display morphological changes as well as detachment from the basement membrane. In this study, gene expression profiling of CD31(+) endothelial cells isolated from Crim1(KST264)(/)(KST264) kidneys showed up-regulation of transcripts associated with fibrosis (Col3a1, Loxl1), endothelial dysfunction (Abp1, Dcn, Lcn2), biomarkers of renal damage (Lcn2, Havcr1/Kim1) as well as evidence for a TGFβ1/TNF-associated inflammatory process. To determine whether the aberrant endothelium may in part contribute to the fibrogenic process, Tie2Cre-DsRed lineage tracing was undertaken in Crim1(KST264/KST264) mice. Approximately 31% of de novo αSMA(+) myofibroblasts detected within the tubulointerstitium were Tie2(+) DsRed(+) . However, 5.3% were F4/80(+) DsRed(+) , indicating a small population of myofibroblasts of monocytic rather than endothelial origin. In contrast, only 12% of myofibroblasts located around glomerular cysts were Tie2(+) DsRed(+) , with 7.7% being monocyte-derived (F4/80(+) DsRed(+) ). Collectively, this model supports the involvement of endothelial cells/monocytes in fibrosis within the tubulointerstitium, but also the heterogeneity of the fibrotic process even within distinct regions of the same kidney.

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Association between congenital defects in papillary outgrowth and functional obstruction in Crim1 mutant mice

Wilkinson

Kurniawan

Phua

et al. 2012

The Journal of Pathology

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The authors have declared no conflicts of interest exist. AbstractCrim1 hypomorphic (Crim1 KST264/KST264 ) mice display progressive renal disease characterised by glomerular defects, leaky peritubular vasculature and progressive interstitial fibrosis. Here we show that 27% of these mice also present with hydronephrosis, suggesting obstructive nephropathy. Using magnetic resonance imaging, T 2 -weighted hypointense staining was observed in the kidneys of Crim1 KST264/KST264 mice suggesting pooling of filtrate within the renal parenchyma.Rhodamine dextran (10kD) clearance was also delayed in Crim1 KST264/KST264 mice.Pyeloureteric peristalsis, while present, was less coordinated in Crim1 KST264/KST264 mice and electrophysiological studies of isolated ureter/pelvis identified a reduced frequency of smooth muscle contraction, despite evidence for pacemaker activity.An analysis of maturation during the immediate postnatal period (postnatal day (P)0-20) revealed marked defects in papillary extension in Crim1 KST264/KST264 mice Crim1 expression was observed in pelvic smooth muscle and strongly in the interstitium and loops of Henle of the extending papilla, commencing at the tip and disseminating throughout the papilla by P10. These results, as well as implicating Crim1 in papillary extension and pelvic smooth muscle contractility, highlights the previously unrecognised association between defects in papillary development and progression to chronic kidney disease later in life.(183 words)

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The Lhx1-Ldb1 complex interacts with Furry to regulate microRNA expression during pronephric kidney development

Espiritu

Crunk

Bais

et al. 2018

Sci Rep

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The molecular events driving specification of the kidney have been well characterized. However, how the initial kidney field size is established, patterned, and proportioned is not well characterized. Lhx1 is a transcription factor expressed in pronephric progenitors and is required for specification of the kidney, but few Lhx1 interacting proteins or downstream targets have been identified. By tandem-affinity purification, we isolated FRY like transcriptional coactivator (Fryl), one of two paralogous genes, fryl and furry (fry), have been described in vertebrates. Both proteins were found to interact with the Ldb1-Lhx1 complex, but our studies focused on Lhx1/Fry functional roles, as they are expressed in overlapping domains. We found that Xenopus embryos depleted of fry exhibit loss of pronephric mesoderm, phenocopying the Lhx1-depleted animals. In addition, we demonstrated a synergism between Fry and Lhx1, identified candidate microRNAs regulated by the pair, and confirmed these microRNA clusters influence specification of the kidney. Therefore, our data shows that a constitutively-active Ldb1-Lhx1 complex interacts with a broadly expressed microRNA repressor, Fry, to establish the kidney field.

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Mesenchymal stem cell energy deficit and oxidative stress contribute to osteopenia in the Pahenu2 classical PKU mouse

Dobrowolski

Sudano

Phua

et al. 2021

Molecular Genetics and Metabolism

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Persistent DNA damage underlies tubular cell polyploidization and progression to chronic kidney disease in kidneys deficient in the DNA repair protein FAN1

Airik

Phua

Huynh

et al. 2022

Kidney International

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A MicroRNA Cluster miR‐23–24–27 Is Upregulated by Aldosterone in the Distal Kidney Nephron Where it Alters Sodium Transport

Liu

Edinger

Klemens

et al. 2017

Journal Cellular Physiology

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The epithelial sodium channel (ENaC) is expressed in the epithelial cells of the distal convoluted tubules, connecting tubules, and cortical collecting duct (CCD) in the kidney nephron. Under the regulation of the steroid hormone aldosterone, ENaC is a major determinant of sodium (Na+) and water balance. The ability of aldosterone to regulate microRNAs (miRs) in the kidney has recently been realized, but the role of miRs in Na+ regulation has not been well established. Here we demonstrate that expression of a miR cluster mmu-miR-23–24–27, is upregulated in the CCD by aldosterone stimulation both in vitro and in vivo. Increasing the expression of these miRs increased Na+ transport in the absence of aldosterone stimulation. Potential miR targets were evaluated and miR-27a/b was verified to bind to the 3′-untranslated region of intersectin-2, a multi-domain protein expressed in the distal kidney nephron and involved in the regulation of membrane trafficking. Expression of Itsn2 mRNA and protein was decreased after aldosterone stimulation. Depletion of Itsn2 expression, mimicking aldosterone regulation, increased ENaC-mediated Na+ transport, while Itsn2 overexpression reduced ENaC’s function. These findings reinforce a role for miRs in aldosterone regulation of Na+ transport, and implicate miR-27 in aldosterone’s action via a novel target.

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Bimgene dosage is critical in modulating nephron progenitor survival in the absence of microRNAs during kidney development

et al. 2017

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Low nephron endowment at birth has been associated with an increased risk for developing hypertension and chronic kidney disease. We demonstrated in an earlier study that conditional deletion of the microRNA (miRNA)-processing enzyme Dicer from nephron progenitors results in premature depletion of the progenitors and increased expression of the proapoptotic protein Bim (also known as Bcl-2L11). In this study, we generated a compound mouse model with conditional deletion of both and, to determine the biologic significance of increased Bim expression in -deficient nephron progenitors. The loss of partially restored the number of nephron progenitors and improved nephron formation. The number of progenitors undergoing apoptosis was significantly reduced in kidneys with loss of a single allele, or both alleles, of compared to mutant kidneys. Furthermore, 2 miRNAs expressed in nephron progenitors ( and regulated Bim levels and Together, these data suggest that miRNA-mediated regulation of Bim controls nephron progenitor survival during nephrogenesis, as one potential means of regulating nephron endowment.-Cerqueira, D. M., Bodnar, A. J., Phua, Y. L., Freer, R., Hemker, S. L., Walensky, L. D., Hukriede, N. A., Ho, J. gene dosage is critical in modulating nephron progenitor survival in the absence of microRNAs during kidney development.

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Yu Leng Phua

Renal stromal miRNAs are required for normal nephrogenesis and glomerular mesangial survival

Distinct sites of renal fibrosis in Crim1 mutant mice arise from multiple cellular origins

Association between congenital defects in papillary outgrowth and functional obstruction in Crim1 mutant mice

The Lhx1-Ldb1 complex interacts with Furry to regulate microRNA expression during pronephric kidney development

Mesenchymal stem cell energy deficit and oxidative stress contribute to osteopenia in the Pahenu2 classical PKU mouse

Persistent DNA damage underlies tubular cell polyploidization and progression to chronic kidney disease in kidneys deficient in the DNA repair protein FAN1

A MicroRNA Cluster miR‐23–24–27 Is Upregulated by Aldosterone in the Distal Kidney Nephron Where it Alters Sodium Transport

Bimgene dosage is critical in modulating nephron progenitor survival in the absence of microRNAs during kidney development

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