Activating and deactivating mutations in the receptor interaction site of GDF5 cause symphalangism or brachydactyly type A2
Petra Seemann, … , Petra Knaus, Stefan Mundlos
Petra Seemann, … , Petra Knaus, Stefan Mundlos
Published September 1, 2005
Citation Information: J Clin Invest. 2005;115(9):2373-2381. https://doi.org/10.1172/JCI25118.
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Research Article Genetics

Activating and deactivating mutations in the receptor interaction site of GDF5 cause symphalangism or brachydactyly type A2

Abstract

Here we describe 2 mutations in growth and differentiation factor 5 (GDF5) that alter receptor-binding affinities. They cause brachydactyly type A2 (L441P) and symphalangism (R438L), conditions previously associated with mutations in the GDF5 receptor bone morphogenetic protein receptor type 1b (BMPR1B) and the BMP antagonist NOGGIN, respectively. We expressed the mutant proteins in limb bud micromass culture and treated ATDC5 and C2C12 cells with recombinant GDF5. Our results indicated that the L441P mutant is almost inactive. The R438L mutant, in contrast, showed increased biological activity when compared with WT GDF5. Biosensor interaction analyses revealed loss of binding to BMPR1A and BMPR1B ectodomains for the L441P mutant, whereas the R438L mutant showed normal binding to BMPR1B but increased binding to BMPR1A, the receptor normally activated by BMP2. The binding to NOGGIN was normal for both mutants. Thus, the brachydactyly type A2 phenotype (L441P) is caused by inhibition of the ligand-receptor interaction, whereas the symphalangism phenotype (R438L) is caused by a loss of receptor-binding specificity, resulting in a gain of function by the acquisition of BMP2-like properties. The presented experiments have identified some of the main determinants of GDF5 receptor-binding specificity in vivo and open new prospects for generating antagonists and superagonists of GDF5.

Authors

Petra Seemann, Raphaela Schwappacher, Klaus W. Kjaer, Deborah Krakow, Katarina Lehmann, Katherine Dawson, Sigmar Stricker, Jens Pohl, Frank Plöger, Eike Staub, Joachim Nickel, Walter Sebald, Petra Knaus, Stefan Mundlos

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Figure 3

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Functional analysis of Gdf5 mutants in micromass culture. (A) Chicken mi...
Functional analysis of Gdf5 mutants in micromass culture. (A) Chicken micromass cultures were assayed after 4 days for extracellular matrix production and analyzed after 7 days for ALP activity. Cells were infected with virus containing WT Gdf5 or mutant sequences and coinfected with Nog or not coinfected. The mutants differed drastically in their biological activity. Coinfection with Nog completely represses chondrogenesis irrespective of the Gdf5 variant expressed. Magnification, ×1 objective (AxioCam HRc camera; Zeiss). (B) Alcian blue incorporation into the extracellular matrix of micromass cultures reflecting the production of proteoglycan-rich cartilaginous matrix measured at day 4 was quantified after extraction. Biological activity of R438L mutant was comparable to that of Gdf5, whereas the L441P mutant displayed only small effects on matrix production. (C) ALP activity of micromass cultures at day 7 was quantified by a specific enzymatic assay. While Gdf5 and R438L induced ALP activity effectively, L441P caused only a small amount of induction, slightly above control activity. Contr, control.