Collagens carry hydroxylysine residues that act as attachment sites for carbohydrate units and are important for the stability of crosslinks but have been regarded as nonessential for vertebrate survival. We generated mice with targeted inactivation of the gene for one of the three lysyl hydroxylase isoenzymes, LH3. The null embryos developed seemingly normally until embryonic day 8.5, but development was then retarded, with death around embryonic day 9.5. Electron microscopy (EM) revealed fragmentation of basement membranes (BMs), and immuno-EM detected type IV collagen within the dilated endoplasmic reticulum and in extracellular aggregates, but the typical BM staining was absent. Amorphous intracellular and extracellular particles were also seen by collagen IV immunofluorescence. SDS͞PAGE analysis demonstrated increased mobilities of the type IV collagen chains, consistent with the absence of hydroxylysine residues and carbohydrates linked to them. These results demonstrate that LH3 is indispensable for biosynthesis of type IV collagen and for BM stability during early development and that loss of LH3's functions leads to embryonic lethality. We propose that the premature aggregation of collagen IV is due to the absence of the hydroxylysine-linked carbohydrates, which thus play an essential role in its supramolecular assembly. L ysyl hydroxylase (LH, EC 1.14.11.4, Plod) catalyzes the hydroxylation of lysine residues in -X-Lys-Gly-triplets in collagens and other proteins with collagen-like sequences (1). The hydroxylysine residues formed have two important functions: (i) they serve as attachment sites for carbohydrates, either monosaccharide galactose or disaccharide glucosylgalactose, and (ii) they have an important role in the stabilization of intermolecular collagen crosslinks that provide tensile strength and mechanical stability for the collagen fibrils. The extent of lysine hydroxylation and hydroxylysine glycosylation varies between collagen types. Nearly 90% of all lysines are hydroxylated and hydroxylysines glycosylated in types IV and VI collagen, whereas Ͻ20% of the lysines are hydroxylated in type III collagen (2). The functions of the hydroxylysine-linked carbohydrates are poorly understood, but in the case of fibril-forming collagens, they are thought to regulate the formation and morphology of the fibrils (1, 3).Three human LH isoenzymes have been identified (1, 4-6). Mutations in the LH1 gene lead to the kyphoscoliotic type of Ehlers-Danlos syndrome, which is characterized by scoliosis, joint laxity, skin fragility, ocular manifestations, and severe muscle hypotonia (7-9). Mutations in the LH2 gene have recently been reported in two families with Bruck syndrome, which is characterized by fragile bones, joint contractures, scoliosis, and osteoporosis (10).No mutations have been characterized in the gene for the isoenzyme LH3, and its in vivo functions have not yet been elucidated. This protein differs from the other two lysyl hydroxylase isoenzymes in that it also possesses relatively low levels...
