Olivia Matthews scite author profile

Olivia Matthews

3Publications

15Citation Statements Received

65Citation Statements Given

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Affiliations

The Queen's Medical Research Institute, University of Edinburgh

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Transfer of hepatocellular microRNA regulates cytochrome P450 2E1 in renal tubular cells

et al. 2020

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Background Extracellular microRNAs enter kidney cells and modify gene expression. We used a Dicer-hepatocyte-specific microRNA conditional-knock-out (Dicer-CKO) mouse to investigate microRNA transfer from liver to kidney. Methods Dicer flox/flox mice were treated with a Cre recombinase-expressing adenovirus (AAV8) to selectively inhibit hepatocyte microRNA production (Dicer-CKO). Organ microRNA expression was measured in health and following paracetamol toxicity. The functional consequence of hepatic microRNA transfer was determined by measuring the expression and activity of cytochrome P450 2E1 (target of the hepatocellular miR-122), and by measuring the effect of serum extracellular vesicles (ECVs) on proximal tubular cell injury. In humans with liver injury we measured microRNA expression in urinary ECVs. A murine model of myocardial infarction was used as a non-hepatic model of microRNA release. Findings Dicer-CKO mice demonstrated a decrease in kidney miR-122 in the absence of other microRNA changes. During hepatotoxicity, miR-122 increased in kidney tubular cells; this was abolished in Dicer-CKO mice. Depletion of hepatocyte microRNA increased kidney cytochrome P450 2E1 expression and activity. Serum ECVs from mice with hepatotoxicity increased proximal tubular cell miR-122 and prevented cisplatin toxicity. miR-122 increased in urinary ECVs during human hepatotoxicity. Transfer of microRNA was not restricted to liver injury –miR-499 was released following cardiac injury and correlated with an increase in the kidney. Interpretation Physiological transfer of functional microRNA to the kidney is increased by liver injury and this signalling represents a new paradigm for understanding the relationship between liver injury and renal function. Funding Kidney Research UK, Medical Research Scotland, Medical Research Council.

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Transfer of hepatocellular microRNA regulates cytochrome P450 2E1 in renal tubular cells

Matthews

Morrison

Tranter

et al. 2020

Preprint

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Extracellular microRNAs have been demonstrated to have the ability to enter kidney tubular cells and modify gene expression. We have used a Dicer--hepatocyte--specific microRNA conditional knock--out (Dicer--CKO) mouse to investigate functional microRNA transfer from liver to kidney under physiological conditions and in the context of drug toxicity. Dicer--CKO mice demonstrated a time-dependent decrease in the hepatocyte--derived microRNA, miR--122, in the kidney in the absence of other microRNA changes. During hepatotoxicity, miR--122 increased in kidney tubular cells; this was abolished in Dicer--CKO mice. Depletion of hepatocyte microRNAs increased expression and activity of the miR--122 target --cytochrome (CYP) P450 2E1 --in the kidney. Serum extracellular vesicles (ECVs) from mice with hepatotoxicity increased proximal tubular cell miR--122 and prevented cisplatin proximal tubular cell toxicity. miR--122 also increased in urinary ECVs during hepatotoxicity in humans.Transfer of microRNA was not restricted to liver injury -we detected miR--499 release with murine cardiac injury, and this correlated with an increase in the kidney. In summary, a physiological transfer of microRNA to the kidney exists, which is increased by liver injury. Regulation of renal drug response due to signalling by microRNA of hepatic origin represents a new paradigm for understanding and preventing nephrotoxicity.

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Inter-organ signalling by hepatocyte-derived microRNA-122

Matthews¹

2021

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Olivia Matthews

Transfer of hepatocellular microRNA regulates cytochrome P450 2E1 in renal tubular cells

Transfer of hepatocellular microRNA regulates cytochrome P450 2E1 in renal tubular cells

Inter-organ signalling by hepatocyte-derived microRNA-122

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