Press Release5 Minute ReadApr | 11 | 2022
Research in human kidney organoids reveals target to prevent irreversible kidney damage
- Certain genes involved in DNA repair are expressed in the kidneys during normal tissue repair, but they’re switched off when normal repair transitions to incomplete repair that leads to permanent damage
- A compound called SCR7 supports DNA repair to prevent irreparable tissue damage and chronic kidney disease progression.
- The findings were discovered through research conducted in human kidney organoids.
Ryuji Morizane, MD, PhD
We have shown that the activation of a DNA repair mechanism can help to maintain healthy kidney status.
Division of Nephrology, Massachusetts General Hospital
BOSTON – To a certain extent, kidneys have the capacity to repair themselves after being injured, but a switch can occur from such intrinsic repair to incomplete repair that leads to irreversible damage and chronic kidney disease (CKD). A team led by researchers at Massachusetts General Hospital (MGH) recently used kidney organoids derived from human stem cells to identify genes that are important for maintaining healthy repair in the kidneys. The findings, which are published in Science Translational Medicine, may lead to new targets to help prevent or treat CKD.
Although various factors involved in kidney repair have been identified in animal studies, translating these findings into the clinical been difficult because many treatments deemed safe and effective in animals have subsequently been found to be toxic or ineffective in clinical trials. Human kidney organoids, which are like miniature kidneys, may help investigators avoid these setbacks.
“We have pioneered the work of human kidney organoids and think they’ll be useful for therapeutic development for CKD,” says lead author Navin Gupta, MD, an investigator in the Division of Nephrology at MGH. “As physician-scientists, we wanted to create a new CKD model in human cells to facilitate drug development.”
When Gupta and his colleagues exposed human kidney organoids to the chemotherapy drug cisplatin, which can damage the kidneys, the treatment altered the express of 159 genes and 29 signal pathways within kidney cells undergoing intrinsic repair. Many of the genes they identified, including 2 called FANCD2 and Rad51, were activated
during intrinsic repair, but their expression dropped as kidney damage became irreversible. These genes code for proteins that play a role in the repair of DNA when it becomes damaged within cells. Additional experiments in mouse models of kidney injury and in human kidney biopsies confirmed the findings discovered in the kidney organoids.
Finally, through drug screening tests, the scientists identified a compound known as SCR7 that helped to maintain FANCD2 and RAD51 activity to rescue normal tissue repair and prevent the progression of CKD in the researchers’ cisplatin-induced organoid injury model.
“We have shown that the activation of a DNA repair mechanism can help to maintain healthy kidney status,” says senior author Ryuji Morizane, MD, PhD, a principal investigator in the Division of Nephrology at MGH. “In the future, this approach might become a new therapeutic option for patients with CKD.”
Additional study authors include Takuya Matsumoto, Ken Hiratsuka, Edgar Garcia Saiz, Pierre Galichon, Tomoya Miyoshi, Koichiro Susa, Narihito Tatsumoto, and Michifumi Yamashita.
This work was supported by a National Institutes of Health (NIH) T32 fellowship training grant, a Harvard Stem Cell Institute interdisciplinary grant, two Brigham and Women’s Hospital Research Excellence Awards, a Cell Science Research Foundation Award, an NCATS UCLA CTSI KL2 grant, a Cedars-Sinai CTSI Clinical Scholar Grant, a Brigham and Women’s Hospital Faculty Career Development Award , a Harvard Stem Cell Institute Seed Grant, a DiaComp Pilot & Feasibility Program, an NIH DP2EB029388 award, and an NIH U01EB028899 grant.
About the Massachusetts General Hospital
Massachusetts General Hospital, founded in 1811, is the original and largest teaching hospital of Harvard Medical School. The Mass General Research Institute conducts the largest hospital-based research program in the nation, with annual research operations of more than $1 billion and comprises more than 9,500 researchers working across more than 30 institutes, centers and departments. In August 2021, Mass General was named #5 in the U.S. News & World Report list of "America’s Best Hospitals." MGH is a founding member of the Mass General Brigham health care system.