Robert E. Seegmiller

Disproportionate micromelia (Dmm) in mice caused by a mutation in the C-propeptide coding region of Col2a1.

Mice that are homozygous for the autosomal semidominant disproportionate micromelia (Dmm) mutation are characterized by disproportionate micromelia, thoracic dysplasia, and cleft palate. Chondrocytes of the epiphyseal growth plates are not organized into columns, and ultrastructural analysis reveals excessive dilation of the endoplasmic reticulum and a paucity of collagen fibrils in the extracellular matrix. To map the Dmm locus, Dmm mice were crossed with the multiple ecotropic viral (MEV) linkage testing stock. Significant linkage of Dmm to the fourteen MEV linkage markers was not observed, thereby excluding approximately 50% of the genome as candidate regions encoding Dmm. Subsequently, microsatellite markers were used to assess linkage to the nonexcluded regions of the genome, revealing tight linkage to the locus of Col2a1, the gene encoding the α‐chains of type II collagen. α1(II) collagen cDNA, synthesized with RNA from homozygotes, was cloned and sequenced, revealing a three‐nucleotide deletion in the region encoding the C‐propeptide globular domain. The deletion leads to the substitution of one amino acid, Asn, in the mutant for two amino acids, Lys and Thr, in the wild type. Several human chondrodysplasias with similar phenotypes to that of Dmm are associated with defects in type II collagen. Thus, mice bearing the Dmm mutation serve as a model for studying the pathogenesis of these disorders while revealing novel insights into normal skeletal morphogenesis. Dev Dyn 208:25–33, 1997.

The mechanism of palatal clefting in the Col11a1 mutant mouse

The occurrence of cleft palate in mutant mice offers an opportunity to understand the possible role of specific genes in palatogenesis. Here, cleft palate in mice carrying the chondrodysplasia (cho) defect, which consists of an autosomal-recessive mutation in the collagen gene Col11a1, was investigated. The proposed cause of cleft palate in cho homozygous mice is failure of the palatal shelves to adhere and make contact due to mandibular growth abnormalities. Another cause of cleft palate that has recently been demonstrated in other animal models is failure of the midline epithelial seam forming between the shelves to undergo epithelial-mesenchymal transformation (EMT). The present strategy to test the likelihood of this second possibility was to culture the unfused cho/cho palatal shelves at different stages of development to see if they were capable of adhering and undergoing EMT in vitro. By using carboxydichlorofluorescein succinimidyl ester to trace the fate of the medial-edge epithelium (MEE), it was shown that cho/cho palates have full potential for MEE adherence and EMT up to embryonic day 17.5/18.5, when epithelia keratinize before birth, preventing the adherence of both the normal and homozygous palatal shelves. Thus, the major effect of the mutant collagen gene on the palate is likely to be via mandibular growth disruption. The possibility that unfused palatal shelves in other clinical syndromes can adhere and undergo EMT if brought into contact at appropriate times before birth has important therapeutic implications.

Osteoarthritis-like changes in the heterozygous sedc mouse associated with the HtrA1–Ddr2–Mmp-13 degradative pathway: a new model of osteoarthritis

OBJECTIVE To test the hypothesis that the spondyloepiphyseal dysplasia congenita (sedc) heterozygous (sedc/+) mouse, a COL2A1 mutant, is a model for the study of osteoarthritis (OA) in the absence of dwarfism and to investigate the presence of HtrA1, Ddr2, and Mmp-13 and their possible involvement in a universal mechanism leading to OA. DESIGN Whole mount skeletons of adult animals were analyzed to determine whether sedc/+ mice exhibit dwarfism. To characterize progression of osteoarthritic degeneration over time, knee and temporomandibular joints from sedc/+ and wild-type mice were analyzed histologically, and severity of articular cartilage degradation was graded using the Osteoarthritis Research Society International (OARSI) scoring system. Immunohistochemistry was used to detect changes in expression of HtrA1, Ddr2, and Mmp-13 in articular cartilage of knees. RESULTS As previously reported, the sedc/+ skeleton morphology was indistinguishable from wild type, and skeletal measurements revealed no significant differences. The sedc/+ mouse did, however, show significantly higher OARSI scores in knee (9, 12 and 18 months) and temporomandibular joints at all ages examined. Histological staining showed regions of proteoglycan degradation as early as 2 months in both temporomandibular and knee joints of the mutant. Cartilage fissuring and erosion were observed to begin between 2 and 6 months in temporomandibular joints and 9 months in knee joints from sedc/+ mice. Immunohistochemistry of mutant knee articular cartilage showed increased expression of HtrA1, Ddr2, and Mmp-13 compared to wild type, which upregulation preceded fibrillation and fissuring of the articular surfaces. CONCLUSIONS With regard to skeletal morphology, the sedc/+ mouse appears phenotypically normal but develops premature OA as hypothesized. We conclude that the sedc/+ mouse is a useful model for the study of OA in individuals with overtly normal skeletal structure and a predisposition for articular cartilage degeneration.

Protein consequences of the Col2a1 C-propeptide mutation in the chondrodysplastic Dmm mouse.

The Disproportionate micromelia (Dmm) mouse has a three nucleotide deletion in Col2a1 in the region encoding the C-propeptide which results in the substitution of one amino acid, Asn, for two amino acids, Lys-Thr. Western blot and immunohistochemical analyses failed to detect type II collagen in the cartilage matrix of the homozygous mice and showed reduced levels in the matrix of heterozygous mice. Type II collagen chains localized intracellularly within the chondrocytes of homozygote and heterozygote tissues. These findings provide evidence that the expression of type II procollagen chains containing the defective C-propeptide results in an intracellular retention and faulty secretion of type II procollagen molecules. A complete absence of mature type II collagen from the homozygote cartilage and an insufficiency of type II collagen in the heterozygote cartilage explains the Dmm mouse phenotype. The integrity of the C-propeptide is thus crucial for the biosynthesis of normal type II collagen by chondrocytes.

Osteoarthritis in Temporomandibular Joint of Col2a1 Mutant Mice

OBJECTIVE Col2a1 gene mutations cause premature degeneration of knee articular cartilage in disproportionate micromelia (Dmm) and spondyloepiphesial dysplasia congenita (sedc) mice. The present study analyses the temporomandibular joint (TMJ) in Col2a1 mutant mice in order to provide an animal model of TMJ osteoarthritis (OA) that may offer better understanding of the progression of this disease in humans. DESIGN Dmm/+ mice and controls were compared at two, six, nine and 12 months. Craniums were fixed, processed to paraffin sections, stained with Safranin-O/Fast Green, and analysed with light microscopy. OA was quantified using a Mankin scoring procedure. Unfolded protein response (UPR) assay was performed and immunohistochemistry (IHC) was used to assay for known OA biomarkers. RESULTS Dmm/+ TMJs showed fissuring of condylar cartilage as early as 6 months of age. Chondrocytes were clustered, leaving acellular regions in the matrix. Significant staining of HtrA1, Ddr2 and Mmp-13 was observed in Dmm/+ mice (p<0.01). We detected upregulation of the UPR in knee but not TMJ. CONCLUSIONS Dmm/+ mice are subject to early-onset OA in the TMJ. We observed upregulation of biomarkers and condylar cartilage degradation concomitant with OA. An upregulated UPR may exacerbate the onset of OA. The Dmm/+ mouse TMJ is a viable model for the study of the progression of OA in humans.

Auditory function associated with Col11a1 haploinsufficiency in chondrodysplasia (cho) mice

Heterozygosity for mutations in the fibrillar collagen gene COL11A1 causes sensorineural hearing loss in patients with Stickler syndrome or Marshall syndrome. Chondrodysplasia (cho) is a functional null allele of Col11a1 that causes lethal chondrodysplasia in cho/cho newborn mice, and osteoarthritis in cho/+ heterozygotes. To determine if Col11a1 haploinsufficiency causes hearing loss in cho/+ mice, auditory brainstem response (ABR) thresholds were measured at 2, 4, 6, 8 and 10 months of age. There was no difference in ABR thresholds for click and tone burst stimuli between cho/+ and +/+ mice at all ages. In contrast to the conclusion of a previous report, our results indicate that Col11a1 haploinsufficiency does not cause significant hearing loss on the C57BL/6 strain background. We conclude that Stickler syndrome and Marshall syndrome mutations in COL11A1 cause hearing loss via dominant negative effects upon wild-type fibrillar collagen polypeptides in the extracellular matrices of the cochlea.

A developmental toxicity study of tretinoin administered topically and orally to pregnant Wistar rats

BACKGROUND Although it is well established that oral tretinoin produces embryofetal developmental toxicity in various laboratory animals, the toxic potential of topical tretinoin has not been clearly established. OBJECTIVE This study of tretinoin administration to pregnant Wistar rats was conducted to determine whether topical tretinoin is associated with adverse effects on reproductive function or embryofetal growth and development and to compare outcomes with topical and oral tretinoin. METHODS Topical and oral tretinoin (1 to 20 mg/kg and 1 to 10 mg/kg, respectively) or vehicles alone were administered on gestational days 6 through 16 and 15, respectively. RESULTS Topical tretinoin: After topical treatment, dams receiving 10 mg/kg daily or greater had severe local and systemic toxicity prompting discontinuation of tretinoin. At doses of 2.5 mg/kg or greater, dam weight gain and food consumption were significantly less than those of control dams. Offspring of dams receiving 5 mg/kg weighed significantly less, and offspring of dams receiving 2.5 mg/kg or greater had a significantly greater occurrence of supernumerary ribs compared with control offspring. Oral tretinoin: After oral treatment, in the absence of maternal toxicity, significantly more offspring of dams receiving 5 mg/kg or greater had supernumerary ribs, and offspring of the 10 mg/kg treatment group had a greater incidence of cleft palate than had control offspring. CONCLUSION The local and systemic maternal toxicity found in association with supernumerary ribs and low weights in the offspring at topical tretinoin doses of 2.5 and 5 mg/kg suggests that these developmental effects may be nonspecific or maternally mediated. Oral tretinoin at doses of 10 mg/kg, however, is clearly associated with embryofetal alterations in the Wistar rat.

Induction of maternal toxicity in the rat by dermal application of retinoic acid and its effect of fetal outcome

Time-mated Sprague-Dawley rats were administered all-trans-retinoic acid (RA) dermally on gestational days 11 through 14 at three dosage levels (25, 100, and 250 mg/kg body weight). Dams administered ethylenethiourea (ETU) dermally on gestational days 11 to 12 or RA orally on day 12 were used to indicate the strains sensitivity to teratogenesis. The chemicals were dissolved in dimethylsulfoxide (DMSO) for dermal application or suspended in corn oil for treatment by gavage. The maternal weight gain, pup weight, number of resorptions and number of fetuses with gross malformations, and skeletal/organ-level anomalies were determined. Beginning with day 15, dams dermally treated with RA exhibited dermal lesions at the site of application, most dams showed vaginal bleeding by day 16, and approximately 20% did not survive to day 19. Relative to the DMSO control group, maternal weight gain in the dermal RA groups was decreased by approximately 50% at the lowest dose, with essentially no weight gain at the intermediate- and high-dose levels. The decrease in average fetal weight at the two higher doses was significant, whereas the resorption and malformation frequencies were not significantly increased by dermal treatment with RA. Without significantly affecting fetal weight or resorption frequency, dermal application of ETU significantly increased the frequency of skeletal anomalies, primarily tail defects. Oral administration of RA did not increase the malformation frequency nor produce significant maternal or fetotoxic effects. In summary, treatment of pregnant Sprague-Dawley rats by dermal application of RA dissolved in DMSO resulted in significant toxicity to the dam.(ABSTRACT TRUNCATED AT 250 WORDS)

Evidence for embryotoxicity of gossypol in mice and chicks with no evidence of mutagenic activity in the ames test

Effects of gossypol treatment were studied in pregnant mice and chick embryos. Pregnant Balb C mice were treated orally with 60 or 120 mg/kg of gossypol acetic acid on days 6-13 of pregnancy and killed on day 18. The uteri were removed, the number of resorptions and late fetal deaths were recorded, and the fetuses were weighed and assessed for malformations. Fertilized hen eggs were injected with 0.25 mg gossypol/egg at 24, 48, 72, or 96 h of incubation. The embryos were examined at day 9 of incubation. The mutagenic potential of gossypol was determined by the Ames test. Treatment of mice with gossypol produced significant adverse effects on the dam and offspring including decreased pregnancy weight gain of the dam and growth retardation of the offspring. There were increased resorptions and late fetal deaths in mice and high mortality in chick embryos. Exencephalic fetuses were observed in one of four litters exposed to the higher dose of gossypol, micromelia was observed in one of 26 chick embryos treated at 24 h, and gastroschisis was observed in one of 21 chick embryos treated at 72 h. No malformations were observed in the controls. The number of revertants per plate in the gossypol treatment group (100 or 500 mg gossypol/plate) did not differ significantly from that of control. This study provides evidence that gossypol has embryotoxic and possibly teratogenic activity in mouse and chick embryos but no mutagenic activity according to the Ames assay.

The Heterozygous Disproportionate Micromelia (Dmm) Mouse: Morphological Changes in Fetal Cartilage Precede Postnatal Dwarfism and Compared With Lethal Homozygotes Can Explain the Mild Phenotype

The disproportionate micromelia (Dmm) mouse has a mutation in the C-propeptide coding region of the Co/2a1 gene that causes lethal dwarfism when homozygous (Dmm/Dmm) but causes only mild dwarfism observable ∼1-week postpartum when heterozygous (Dmm/+). The purpose of this study was 2-fold: first, to analyze and quantify morphological changes that precede the expression of mild dwarfism in Dmm/+ animals, and second, to compare morphological alterations between Dmm/+ and Dmm/Dmm fetal cartilage that may correlate with the marked skeletal differences between mild and lethal dwarfism. Light and electron transmission microscopy were used to visualize structure of chondrocytes and extracellular matrix (ECM) of fetal rib cartilage. Both Dmm/+ and Dmm/Dmm fetal rib cartilage had significantly larger chondrocytes, greater cell density, and less ECM per unit area than +/+ littermates. Quantitative RT-PCR showed a decrease in aggrecan mRNA in Dmm/+ vs +/+ cartilage. Furthermore, the cytoplasm of chondrocytes in Dmm/+ and Dmm/Dmm cartilage was occupied by significantly more distended rough endoplasmic reticulum (RER) compared with wild-type chondrocytes. Fibril diameters and packing densities of +/+ and Dmm/+ cartilage were similar, but Dmm/Dmm cartilage showed thinner, sparsely distributed fibrils. These findings support the prevailing hypothesis that a C-propeptide mutation could interrupt the normal assembly and secretion of Type II procollagen trimers, resulting in a buildup of proα1(II) chains in the RER and a reduced rate of matrix synthesis. Thus, intracellular entrapment of proα1(II) seems to be primarily responsible for the dominant-negative effect of the Dmm mutation in the expression of dwarfism.