Cux1 promotes cell proliferation and polycystic kidney disease progression in an ADPKD mouse model

Porath, Binu; Livingston, Safia; Andres, Erica L.; Petrie, Alexandra M.; Wright, J. L. W.; Woo, Anna; Carlton, Carol G.; Baybutt, Richard; Heuvel, Gregory B. Vanden

doi:10.1152/ajprenal.00380.2016

Cited by 7 publications

(7 citation statements)

References 46 publications

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“…An important question is whether RPGRIP1L hypomorphism causes proliferative and/or cell fate specification changes in POMC-expressing progenitors or neurons that derive from them. RPGRIP1L, a component of the centrosome, and CUX1 are implicated in the control of the cell cycle (47,48), a cellular process coordinated with ciliary formation arising from the centrosome and ciliary disassembly (49). Nevertheless, it is not clear whether the primary cilium regulates cell division.…”

Section: Discussionmentioning

confidence: 99%

Ciliary gene RPGRIP1L is required for hypothalamic arcuate neuron development

et al. 2019

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Section: Discussionmentioning

confidence: 99%

Ciliary gene RPGRIP1L is required for hypothalamic arcuate neuron development

et al. 2019

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“…Previously, significant DNA methylation alterations have been reported in CKD where more than one dmCpG site was located within CUX1 compared to individuals with no evidence of kidney disease (20). Additionally, genetic abnormalities within CUX1 have been linked to polycystic kidney disease (94) and myelodysplastic syndrome (95) in mouse models. Significant dmCpGs from Analyses 2 and 4 were located within the body of this gene which additionally showed an increase in FC in individuals with T1DM-ESKD, but this gene has not previously been explored in individuals post kidney transplant.…”

Section: Discussionmentioning

confidence: 99%

Assessment of differentially methylated loci in individuals with end-stage kidney disease attributed to diabetic kidney disease

Smyth

Kilner

Nair

et al. 2020

Preprint

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A subset of individuals with type 1 diabetes mellitus (T1DM) are predisposed to developing diabetic kidney disease (DKD), which is the most common cause globally of end-stage kidney disease (ESKD). Emerging evidence suggests epigenetic changes in DNA methylation may have a causal role in both T1DM and DKD. The aim of this investigation was to assess differences in blood-derived DNA methylation patterns between individuals with T1DM-ESKD and individuals with long-duration T1DM but no evidence of kidney disease upon repeated testing. Blood-derived DNA from individuals (107 cases, 253 controls and 14 experimental controls) were bisulphite treated before DNA methylation patterns from both groups were generated and analysed using Illumina's Infinium MethylationEPIC BeadChip arrays (n=862,927 sites). Differentially methylated CpG sites (dmCpGs) were identified (false discovery rate adjusted p≤x10-8 and fold change ±2) by comparing methylation levels between ESKD cases and T1DM controls at single site resolution. Gene annotation and functionality was investigated to enrich and rank methylated regions associated with ESKD in T1DM. Top-ranked genes within which several dmCpGs were located and supported by in silico functional data, and replication where possible, include; AFF3, ARID5B, CUX1, ELMO1, FKBP5, HDAC4, ITGAL, LY9, PIM1, RUNX3, SEPTIN9, and UPF3A. Top-ranked enrichment pathways included pathways in cancer, TGF-β signalling and Th17 cell differentiation. Epigenetic alterations provide a dynamic link between an individual's genetic background and their environmental exposures. This robust evaluation of DNA methylation in carefully phenotyped individuals, has identified biomarkers associated with ESKD, revealing several genes and implicated key pathways associated with ESKD in individuals with T1DM.

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“…Deletion of the cathepsin-L processing site in Cux1 in Cys1 cpk mice similarly resulted in the accumulation of Cux1 (Alcalay et al, 2008). The increased expression of Cux1 in PKD is associated with increased cell proliferation and disease progression resulting from the down regulation of the cyclin kinase inhibitor p27 (Alcalay et al, 2008; Porath et al, 2017). However, forced expression of Cux1 in transgenic mice results in multiorgan hyperplasia, but does not result in cystic kidney disease (Ledford et al, 2002).…”

Section: Discussionmentioning

confidence: 99%

“…Moreover, sustained overexpression of Cux1 failed to induce rapid cyst formation after the disruption of cilia in the kidneys of adult mice (Sharma et al, 2013). To determine whether Cux1 is required for PKD progression, we crossed mice carrying a targeted deletion of Cux1 with Pkd1 CD mice, which have Pkd1 deleted in the collecting ducts (Porath et al, 2017). Mice that were homozygous mutant for both Cux1 and Pkd1 showed no cystic disease, and mice that were heterozygous for Cux1 and homo-zygous for Pkd1 showed significantly reduced cystic disease (Porath et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

“…This is similar to the protracted cyst development that occurs when the Pkd1 gene is deleted in mice after a developmental switch (Piontek et al, 2007). A number of studies have shown that renal injury induces rapid cyst growth in mice when Pkd1 or cilia genes are disrupted after a developmental switch collecting duct deletion of Pkd1 and a targeted deletion of Cux1 showed that Cux1 is required for cyst growth (Porath et al, 2017). Reduced Cux1 expression in PKD mice suppresses cyst growth, and tubules in which both Cux1 and Pkd1 were deleted showed increased expression of p27 and diminished cell proliferation.…”

Section: Introductionmentioning

confidence: 99%

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Cux1 regulation of the cyclin kinase inhibitor p27kip1 in polycystic kidney disease is attenuated by HDAC inhibitors

Livingston

Carlton

Sharma

et al. 2019

Gene

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Cux1 is a homeodomain protein involved in cell cycle regulation and kidney development. Cux1 represses the cyclin kinase inhibitor p27 during early kidney development, promoting cell proliferation in the nephrogenic zone. Promoter reporter analysis of p27 revealed that Cux1 represses p27 in a concentration dependent manner, and immunoprecipitation showed that Cux1 interacts with the co-repressor Grg4 and the histone deacetylases HDAC1 and HDAC3. Chromatin immunoprecipitation (ChIP) identified the interaction of Cux1, Grg4, HDAC1, and HDAC3 at two different sites in the p27 promoter. To determine whether there was an interaction between these two loci in the developing kidney, we performed chromatin conformation capture (3C) assay. Analysis of newborn kidney tissue with 3C and ChIP-loop showed that the p27 promoter forms a loop intersecting at these two loci and that Cux1 bridges these two sites. To determine whether HDACs are required for Cux1 repression of p27 we analyzed p27 promoter activity in the presence of the HDAC inhibitor trichostatin A (TSA). TSA treatment completely relieved the repression of p27 by Cux1 and Grg4, demonstrating that Cux1 represses p27 in an HDAC dependent manner. To begin to test whether HDAC inhibitors could be used to target Cux1 repression of p27 for the treatment of PKD, we treated Pkd1 targeted pregnant mice with TSA or vehicle beginning at embryonic day 10.5 until embryonic day 18.5. Newborn Pkd1 mutant mice that received vehicle exhibited extensive collecting duct cysts, while newborn Pkd1 mutant mice that received TSA showed a significant reduction in cysts. Moreover, p27 expression was upregulated in TSA treated Pkd1 mice. Taken together, these results suggest that HDACs are required for cyst growth, and further support studies indicating that HDAC inhibitors may be an effective treatment for PKD.

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Cux1 promotes cell proliferation and polycystic kidney disease progression in an ADPKD mouse model

Cited by 7 publications

References 46 publications

Ciliary gene RPGRIP1L is required for hypothalamic arcuate neuron development

Ciliary gene RPGRIP1L is required for hypothalamic arcuate neuron development

Assessment of differentially methylated loci in individuals with end-stage kidney disease attributed to diabetic kidney disease

Cux1 regulation of the cyclin kinase inhibitor p27kip1 in polycystic kidney disease is attenuated by HDAC inhibitors

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