Supplement can lessen kidney damage linked to genetic mutations in transgenic fruit flies – Medical Xpress

April 20, 2017 Back row, l. to r.: Feng Zhao, Adam Richman, Junyi Zhu and Yiming Ma. Front row, l. to r.: Yulong Fu; Zhe Han, Ph.D., principal investigator and associate professor in the Center for Cancer & Immunology Research at Children's National Health System, and senior study author; Simone Kirkland; and Wen Huang. Credit: Children's National Health System

An off-the-shelf dietary supplement available for pennies per dose demonstrated the ability to reverse cellular damage linked to specific genetic mutations in transgenic fruit flies, an experimental model of genetic mutation-induced renal cell injury that features striking similarities to humans, a Children's National Health System research team reports April 20 in Journal of the American Society of Nephrology.

"Transgenic Drosophila that carry mutations in this critical pathway are a clinically relevant model to shed light on the genetic mutations that underlie severe kidney disease in humans, and they could be instrumental for testing novel therapies for rare diseases, such as focal segmental glomerulosclerosis (FSGS), that currently lack treatment options," says Zhe Han, Ph.D., principal investigator and associate professor in the Center for Cancer & Immunology Research at Children's National and senior study author.

Nephrotic syndrome (NS) is a cluster of symptoms that signal kidney damage, including excess protein in the urine, low protein levels in blood, swelling and elevated cholesterol. The version of NS that is resistant to steroids is a major cause of end stage renal disease. Of more than 40 genes that cause genetic kidney disease, the research team concentrated on mutations in genes involved in the biosynthesis of Coenzyme Q10 (CoQ10), an important antioxidant that protects the cell against damage from reactive oxygen.

"This represents a benchmark for precision medicine," Han adds. "Our gene-replacement approach silenced the fly homolog in the tissue of interest - here, the kidney cells - and provided a human gene to supply the silenced function. When we use a human gene carrying a mutation from a patient for this assay, we can discover precisely how a specific mutation - in many cases only a single amino acid change - might lead to severe disease. We can then use this personalized fly model, carrying a patient-derived mutation, to perform drug testing and screening to find and test potential treatments. This is how I envision using the fruit fly to facilitate precision medicine."

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Drosophila pericardial nephrocytes perform renal cell functions including filtering of hemolymph (the fly's version of blood), recycling of low molecular weight proteins and sequestration of filtered toxins. Nephrocytes closely resemble, in structure and function, the podocytes of the human kidney. The research team tailor-made a Drosophila model to perform the first systematic in vivo study to assess the roles of CoQ10 pathway genes in renal cell health and kidney function.

One by one, they silenced the function of all CoQ genes in nephrocytes. As any individual gene's function was silenced, fruit flies died prematurely. But silencing three specific genes in the pathway associated with NS in humans - Coq2, Coq6 and Coq8 - resulted in abnormal localization of slit diaphragm structures, the most important of the kidney's three filtration layers; collapse of membrane channel networks surrounding the cell; and increased numbers of abnormal mitochondria with deformed inner membrane structure.

The flies also experienced a nearly three-fold increase in levels of reactive oxygen, which the study authors say is a sufficient degree of oxidative stress to cause cellular injury and to impair function - especially to the mitochondrial inner membrane. Cells rely on properly functioning mitochondria, the cell's powerhouse, to convert energy from food into a useful form. Impaired mitochondrial structure is linked to pathogenic kidney disease.

The research team was able to "rescue" phenotypes caused by silencing the fly CoQ2 gene by providing nephrocytes with a normal human CoQ2 gene, as well as by providing flies with Q10, a readily available dietary supplement. Conversely, a mutant human CoQ2 gene from an patient with FSGS failed to rescue, providing evidence in support of that particular CoQ2 gene mutation causing the FSGS. The finding also indicated that the patient could benefit from Q10 supplementation.

Explore further: Drosophila effectively models human genes responsible for genetic kidney diseases

More information: A Personalized Model of COQ2 Nephropathy Rescued by the Wild-Type COQ2 Allele or Dietary Coenzyme Q10 Supplementation, Journal of the American Society of Nephrology (2017). DOI: 10.1681/ASN.2016060626 , http://jasn.asnjournals.org/content/early/2017/04/19/ASN.2016060626.abstract

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Supplement can lessen kidney damage linked to genetic mutations in transgenic fruit flies - Medical Xpress