Belgian research couple rewarded for their work on incurable diseases
The Gagna & Van Heck International Prize for incurable diseases is awarded for the first time to a Belgian team.
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The Human Molecular Genetics laboratory of the de Duve Institute (UCLouvain), headed by Professor Miikka Vikkula, has identified a novel gene responsible for a lymphatic disease called primary lymphedema. Together with the group of Professor Kari Alitalo in Finland, they identified mutations that alter the function of a protein that is known to play a role in vascularization. They also found how these mutations result in loss of the protein’s normal function. This important discovery, published in Science Translational Medicine, is essential for the proper diagnosis of patients suffering from primary lymphedema, and opens a novel pathway for developing treatments.
Lymphedema is a strongly invalidating chronic disease resulting from abnormal development or function of the lymphatic system. Lymph is not drained from interstitial tissues, but accumulates, most often in the legs or arms, causing swelling, fibrosis, predisposition to secondary infections, and limited mobility of the affected body part. Lymphedema can be either primary, where there is no known underlying cause, or secondary, where it results from removed or damaged lymph vessels, e.g. after surgery, infection or cancer treatment. Primary lymphedema is sometimes inherited.
The team of WELBIO investigator Miikka Vikkula has a large international network of collaborators, including the Center for Vascular Anomalies and the Center for Medical Genetics of the Saint-Luc hospital, Brussels. Together, they have collected samples from almost 900 patients (and family members) suffering from primary lymphedema. By using whole-exome sequencing (i.e. the sequencing of all the coding parts of the genes in our genome), the team was able to discover mutations in a gene called ANGPT2 in five families with occurrence of lymphedema.
ANGPT2 encodes the angiopoietin 2 molecule, a ligand of the TIE2 receptor. Angpt2 had previously been shown to influence lymphatic development in mice, but this is the first time that mutations in this gene are found to cause a disease in human being. Among the identified mutations, one deletes one copy of the entire gene, whereas the four other ones are amino acid substitutions in well conserved positions. To characterize the impact of these changes on the function of ANGPT2, the Finnish collaborators (group of Prof K. Alitalo – a Foreign Member of the Royal Academy of Medicine of Belgium) produced and analyzed in detail the mutant proteins. They were able to show that three of the mutants are not properly secreted, even hampering partially the secretion of the protein produced from the remaining normal allele and thus having so called dominant-negative effect. The fourth one is hyper-active, inducing increased proliferation of dilated lymphatic vessels in a mouse ear model. This mutant more specifically demonstrated altered integrin binding. Whether they induce development of too few or too many lymphatic vessels, these mutations result in primary lymphedema in patients.
In Europe, over a million people are affected by lymphedema. Therapy is limited to repeated manual lymphatic drainage and use of compressive garments. In some cases, surgery may be helpful. No cure exists and only in a minority of cases it resolves or ameliorates with time.
The team of the de Duve Institute has previously identifiedseveral disease-causative genes for primary lymphedema, and demonstrated that mutations can be dominant, recessive or even de novo. Some cause a much wider fetal lymphatic dysfunction (hydrops fetalis) or a syndrome, enlarging diagnostic testing indications. For many patients however, the cause of the disease is still unknown. Until now, 28genes have been found to cause primary lymphedema and/or predispose to the secondary form, but these account only for less than a third of the patients, each gene explaining a defined percentage of cases. Identifying the genetic causes is crucial for a better management of the disease. It makes a more precise and reliable diagnosis possible, where today many people with the disease are still not diagnosed. It also leads to insight in the underlying cellular mechanisms, which may be targets for the development of new therapies.
Article describing this research
Characterization of ANGPT2 mutations associated with primary lymphedema
Leppänen V-M, Brouillard P, Korhonen EA, Sipilä T, Jha SK, Revencu N, Labarque V, Fastré E, Schlögel M, Ravoet M, Singer A, Luzzatto C, Angelone D, Crichiutti G, D’Elia A, Kuurne J, Elamaa H, Koh GY, Saharinen P, Vikkula M and Alitalo K
Sci. Transl. Med. (2020) - 12(560):eaax8013
In the press
GenomeWeb.com - Primary Lymphedema Genetic Study Reveals Role for Angiopoietin Gene - 9/09/2020
Helsinki.fi - Researchers discovered a novel gene involved in primary lymphedema - 10/09/2020
VACure.eu - Discovery of a novel gene involved in primary lymphedema - 10/09/2020
News-Medical.net - A novel gene involved in primary lymphedema identified - 10/09/2020
MedIndia.net - Novel gene mutation identified in generalized lymph node swelling - 10/09/2020
LaLibre.be - Des chercheurs de l'UCLouvain identifient un gène responsable de la maladie des "jambes gonflées" - 9/09/2020
LeSoir.be - Des chercheurs découvrent des gènes responsables du syndrome du membre gonflé - 10/09/2020
DailyScience.be - Identification d’un nouveau gène responsable de lymphœdème - 10/09/2020
GazetteLabo.fr - Membres gonflés (lymphœdème): un espoir pour de nouveaux traitements - 11/09/2020
LeJournalDuMédecin.com - Lymphœdème primaire : un nouveau gène suscite l'espoir - 12/11/2020
DailyScience.be - Onderzoekers van UCLouvain vinden nieuw gendefect dat lymfoedeem veroorzaakt - 10/09/2020
STTInfo.fi - Tutkijat löysivät perinnölliseen lymfaturvotukseen liittyvän uuden geenin – löydös auttaa uusien hoitomuotojen kehittämisessä - 10/09/2020
Bio1000.com - 研究人员发现了一种与原发性淋巴水肿有关的新基因 - 11/09/2020
LotGain.com - 搜索将覆盖在初级淋巴结上孵化的新基因 - 12/09/2020
Also on MedicalXpress.com, MirageNews.com, Biomedicum.fi, ScienceCodex.com, Knowledia.com, ScienMag.com, NewZealandOnlineNews.co.nz, and CentralQueenslandOnlineNews.com.au
Funding
The main funding sources for this research are the FNRS, the WELBIO programme and the Generet Prize.