Section on Heritable Disorders of Bone and Extracellular Matrix, NICHD, NIH, Bethesda, MD, USA.
Ludwig Boltzmann Institute of Osteology at Hanusch Hospital of OEGK and AUVA Trauma Centre Meidling, 1st Med. Dept. Hanusch Hospital, Vienna, Austria.
Matrix Biol. 2020 Aug;90:20-39. doi: 10.1016/j.matbio.2020.02.003. Epub 2020 Feb 26.
Null mutations in CRTAP or P3H1, encoding cartilage-associated protein and prolyl 3-hydroxylase 1, cause the severe bone dysplasias, types VII and VIII osteogenesis imperfecta. Lack of either protein prevents formation of the ER prolyl 3-hydroxylation complex, which catalyzes 3Hyp modification of types I and II collagen and also acts as a collagen chaperone. To clarify the role of the A1 3Hyp substrate site in recessive bone dysplasia, we generated knock-in mice with an α1(I)P986A substitution that cannot be 3-hydroxylated. Mutant mice have normal survival, growth, femoral breaking strength and mean bone mineralization. However, the bone collagen HP/LP crosslink ratio is nearly doubled in mutant mice, while collagen fibril diameter and bone yield energy are decreased. Thus, 3-hydroxylation of the A1 site α1(I)P986 affects collagen crosslinking and structural organization, but its absence does not directly cause recessive bone dysplasia. Our study suggests that the functions of the modification complex as a collagen chaperone are thus distinct from its role as prolyl 3-hydroxylase.
CRTAP 或 P3H1 中的无义突变,分别编码软骨相关蛋白和脯氨酰 3-羟化酶 1,可导致严重的骨发育不良,即 VII 型和 VIII 型成骨不全症。这两种蛋白任一缺失都会阻止内质网脯氨酰 3-羟化酶复合物的形成,该复合物可催化 I 型和 II 型胶原的 3Hyp 修饰,同时也作为胶原伴侣。为了阐明 A1 3Hyp 底物位点在隐性骨发育不良中的作用,我们构建了一种带有无法进行 3-羟化修饰的 P986A 取代的α1(I) knock-in 小鼠。突变小鼠具有正常的生存、生长、股骨断裂强度和平均骨矿化。然而,突变小鼠的骨胶原 HP/LP 交联比几乎增加了一倍,而胶原纤维直径和骨产能降低。因此,A1 位点α1(I)P986 的 3-羟化作用影响胶原交联和结构组织,但它的缺失并不会直接导致隐性骨发育不良。我们的研究表明,修饰复合物作为胶原伴侣的功能与作为脯氨酰 3-羟化酶的功能不同。
