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Browsing by Author "Mallipattu, Sandeep K."
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Item Krüppel-like factor 6-mediated loss of BCAA catabolism contributes to kidney injury in mice and humans(National Academy of Sciences, 2021) Piret, Sian E.; Guo, Yiqing; Attallah, Ahmed A.; Horne, Sylvia J.; Zollman, Amy; Owusu, Daniel; Henein, Justina; Sidorenko, Viktoriya S.; Revelo, Monica P.; Hato, Takashi; Ma’ayan, Avi; He, John Cijiang; Mallipattu, Sandeep K.; Medicine, School of MedicineThe kidney proximal tubule is particularly susceptible to acute injury, which results in loss of fatty acid oxidation (FAO), their primary energy source. Here, we show that loss of the transcription factor KLF6 specifically in the proximal tubule in mice protects against acute injury and fibrosis, with preservation of transcripts that mediate branched-chain amino acid (BCAA) catabolism, which were down-regulated in injured control mice. BCAA may provide tricarboxylic acid cycle intermediates in the absence of FAO, and we show that loss of BCAA catabolism in vitro resulted in decreased ATP production, while pharmacological activation of BCAA catabolism increased mitochondrial oxygen consumption. Thus, preservation of BCAA catabolism may be a possible therapeutic target in acute kidney injury.Item Krüppel-like factor 6–mediated loss of BCAA catabolism contributes to kidney injury in mice and humans(National Academy of Sciences, 2021-06-08) Piret, Sian E.; Guo, Yiqing; Attallah, Ahmed A.; Horne, Sylvia J.; Zollman, Amy; Owusu, Daniel; Henein, Justina; Sidorenko, Viktoriya S.; Revelo, Monica P.; Hato, Takashi; Ma’ayan, Avi; He, John Cijiang; Mallipattu, Sandeep K.; Medicine, School of MedicineAltered cellular metabolism in kidney proximal tubule (PT) cells plays a critical role in acute kidney injury (AKI). The transcription factor Krüppel-like factor 6 (KLF6) is rapidly and robustly induced early in the PT after AKI. We found that PT-specific Klf6 knockdown (Klf6PTKD) is protective against AKI and kidney fibrosis in mice. Combined RNA and chromatin immunoprecipitation sequencing analysis demonstrated that expression of genes encoding branched-chain amino acid (BCAA) catabolic enzymes was preserved in Klf6PTKD mice, with KLF6 occupying the promoter region of these genes. Conversely, inducible KLF6 overexpression suppressed expression of BCAA genes and exacerbated kidney injury and fibrosis in mice. In vitro, injured cells overexpressing KLF6 had similar decreases in BCAA catabolic gene expression and were less able to utilize BCAA. Furthermore, knockdown of BCKDHB, which encodes one subunit of the rate-limiting enzyme in BCAA catabolism, resulted in reduced ATP production, while treatment with BCAA catabolism enhancer BT2 increased metabolism. Analysis of kidney function, KLF6, and BCAA gene expression in human chronic kidney disease patients showed significant inverse correlations between KLF6 and both kidney function and BCAA expression. Thus, targeting KLF6-mediated suppression of BCAA catabolism may serve as a key therapeutic target in AKI and kidney fibrosis.Item Loss of proximal tubular transcription factor Krüppel-like factor 15 exacerbates kidney injury through loss of fatty acid oxidation(Elsevier, 2021) Piret, Sian E.; Attallah, Ahmed A.; Gu, Xiangchen; Guo, Yiqing; Gujarati, Nehaben A.; Henein, Justina; Zollman, Amy; Hato, Takashi; Ma’ayan, Avi; Revelo, Monica P.; Dickman, Kathleen G.; Chen, Chung-Hsin; Shun, Chia-Tung; Rosenquist, Thomas A.; He, John C.; Mallipattu, Sandeep K.; Medicine, School of MedicineLoss of fatty acid β-oxidation (FAO) in the proximal tubule is a critical mediator of acute kidney injury and eventual fibrosis. However, transcriptional mediators of FAO in proximal tubule injury remain understudied. Krüppel-like factor 15 (KLF15), a highly enriched zinc-finger transcription factor in the proximal tubule, was significantly reduced in proximal tubule cells after aristolochic acid I (AAI) treatment, a proximal tubule-specific injury model. Proximal tubule specific knockout of Klf15 exacerbated proximal tubule injury and kidney function decline compared to control mice during the active phase of AAI treatment, and after ischemia-reperfusion injury. Furthermore, along with worsening proximal tubule injury and kidney function decline, knockout mice exhibited increased kidney fibrosis as compared to control mice during the remodeling phase after AAI treatment. RNA-sequencing of kidney cortex demonstrated increased transcripts involved in immune system and integrin signaling pathways and decreased transcripts encompassing metabolic pathways, specifically FAO, and PPARα signaling, in knockout versus control mice after AAI treatment. In silico and experimental chromatin immunoprecipitation studies collectively demonstrated that KLF15 occupied the promoter region of key FAO genes, CPT1A and ACAA2, in close proximity to transcription factor PPARα binding sites. While the loss of Klf15 reduced the expression of Cpt1a and Acaa2 and led to compromised FAO, induction of KLF15 partially rescued loss of FAO in AAI-treated cells. Klf15, Ppara, Cpt1a, and Acaa2 expression was also decreased in other mouse kidney injury models. Tubulointerstitial KLF15 independently correlated with eGFR, PPARA and CPT1A appearance in expression arrays from human kidney biopsies. Thus, proximal tubule-specific loss of Klf15 exacerbates acute kidney injury and fibrosis, likely due to loss of interaction with PPARα leading to loss of FAO gene transcription.