Stillbirth and chronic disease link identified

Embargoed until: Publicly released: 2022-03-03 06:00

Australia; SA

Stillbirth is a devastating experience for approximately two million families worldwide each year. In a bid to find the causes of this tragedy, South Australian scientists have uncovered the genetic origins of a rare lymphatic disorder that is responsible for some of these deaths.

Media release

From: University of South Australia

In a world first discovery, South Australian researchers have identified a genetic mutation responsible for a lymphatic disorder that may cause stillbirth or severe, chronic disease in affected children.

An anomaly in the development of lymphatic vessels in unborn children, leading to fluid accumulating in the heart, lungs and other organs, has been uncovered by scientists from the Centre for Cancer Biology (CCB) based at the University of South Australia (UniSA) and SA Pathology.

The findings are published today in the journal Science Translational Medicine.

CCB Director Professor Natasha Harvey says a genetic study of six families affected by stillbirth or lymphoedema revealed the link between a mutated protein coding gene called MDFIC and fluid accumulation in vital organs and tissues.

This has demonstrated that MFDIC is important for controlling the growth and development of the lymphatic vessels in the fetus for the first time.

The Centre for Cancer Biology collaborated with scientists and clinical teams from the Women’s and Children’s Hospital, University of Adelaide, Belgium, Germany, the United States and Iran to make the breakthrough.

“The lymphatic system is a network of vessels (pipes) and nodes (filters and control centres) important for maintaining fluid balance in our tissues and transporting infection-fighting white blood cells throughout our bodies,” Prof Harvey says. .”

“We determined that MDFIC controls cell migration, an important early event during the formation of the lymphatic vessel valves. The genetic variants we have found in our study reveal a crucial, previously unrecognised, role for MDFIC in the lymphatic vasculature.

“If the lymphatic valves don’t form properly, lymph fluid accumulates in critical organs such as the heart and lungs, causing major respiratory problems that may eventuate in stillbirth or chronic disease.”

CCB researchers initially found the genetic link in an Australian family. Their international colleagues in Belgium, Germany and the US reported variants in the same gene, MDFIC, in several patients with the same lymphatic disorder.

Prof Harvey says the disorder, known as central conducting lymphatic anomaly (CCLA), is one of a group of severe lymphatic disorders and may result in stillbirth, or severe chronic disease in affected children.

Few effective treatments are available but with continued identification of the genetic causes of CCLAs, Prof Harvey says the next step is to develop new therapeutic drugs to combat the disease.

“There are existing drugs that maybe used to treat these disorders, but we need to make sure that the signalling pathway that’s treated by those drugs is the same pathway that is affected in our patients.”

Multimedia

World first discovery links lymphatic disorder to stillbirth

Journal/
conference: Science Translational Medicine

Research:Paper

Organisation/s: University of South Australia, The University of Adelaide

Funder: This work was supported by grants from the NHMRC (1146352 and 1146800 to N.L.H. and 1123341 to H.S.S.), Medical Research Future Fund (MRFF), Genomics Health Futures Mission grant ID GHFM76777 NHMRC (APP1123341), the Australian Genomic Health Alliance NHMRC Targeted Call for Research into Preparing Australia for the Genomics Revolution in Healthcare (GNT1113531) (to H.S.S. and C.B.), and the Australian Cancer Research Foundation (to H.S.S.). Additional support was provided by Cancer Council SA’s Beat Cancer Project on behalf of its donors and the State Government of South Australia through the Department of Health and NHMRC Fellowship (1023059 to H.S.S.); the Australian Government Research Training Program Scholarship and the Australian Genomics Health Alliance PhD Award and NHMRC (GNT1113531 to A.B.B.); and The Hospital Research Foundation Fellowship and Royal Adelaide Hospital Mary Overton Early Career Fellowship (to P.A.). M.R. was supported by a scholarship of the Gerhard Domagk program of the University Medicine Greifswald. The South Australian Genome Editing Facility is supported by Phenomics Australia through the Australian Government’s National Collaborative Research Infrastructure Strategy. These studies were also financially supported by the Fonds de la Recherche Scientifique (FNRS) grants T.0026.14, T.0247.19 (to M.V.), T.0146.16 (to L.M.B.), the Fund Generet managed by the King Baudouin Foundation (grant 2018-J1810250-211305) (to M.V.), and by la Région wallonne dans le cadre du financement de l’axe stratégique FRFS-WELBIO (WELBIO-CR-2019C-06) (to M.V.). P.B. is a Scientific Logistics Manager of the Genomics Platform of University of Louvain. We also thank the National Lottery, Belgium, and the Foundation against Cancer (2010-101), Belgium, for the support to the Genomics Platform of the University of Louvain and de Duve Institute, as well as the FNRS equipment grant U.N035.17 for the “Big data analysis cluster for NGS at UCLouvain.” S.E.S. is supported by CHOP, Uplifting Athletes, and the Lymphangiomatosis and Gorham’s Disease Alliance.

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