A reduction in the vascular smooth muscle cell focal adhesion component syndecan-4 is associated with abdominal aortic aneurysm formation.

BACKGROUND: Abdominal aortic aneurysm (AAA) is a serious vascular disease for which there is no effective drug treatment. The incidence of AAA increases significantly as a subject ages, and the molecular mechanism of AAA formation remains elusive. In the present study, we investigated the role of syndecan-4 (SDC4), an important component of focal adhesions, in AAA formation and its association with phenotypic changes in vascular smooth muscle cells (VSMCs). METHODS AND RESULTS: The protein expression levels of SDC4 were significantly decreased in human AAA tissue and those of an AAA mouse model. Moreover, SDC4 knockout (KO) in mice accelerated the formation and rupture of AAAs induced by angiotensin II (Ang II) and calcium chloride (CaCl2 ) Mechanistically, the decrease in SDC4 led to the transformation of cultured VSMCs from a contractile to a secretory phenotype. The RhoA-F/G-actin-myocardin-related transcription factor-A (MRTF-A) signalling pathway was shown to be involved in SDC4-dependent VSMC alteration. Sphingosine-1-phosphate (S1P), a G-protein-coupled receptor, attenuated the AAA formation in SDC4-KO and wild-type (WT) mice in response to Ang II and CaCl2 stimulation. CONCLUSION: We herein demonstrated that silencing SDC4 was associated with increased AAA formation and phenotypic changes in VSMCs via the RhoA-F/G-actin-MRTF-A pathway. These findings indicated that a reduction in SDC4 expression was an important pathological alteration and potential therapeutic target for AAA formation.

A Phe377del mutation in ANK leads to impaired osteoblastogenesis and osteoclastogenesis in a mouse model for craniometaphyseal dysplasia (CMD).

Craniometaphyseal dysplasia (CMD) is a rare genetic disorder with hyperostosis of craniofacial bones and widened metaphyses in long bones. Patients often suffer from neurological symptoms due to obstruction of cranial foramina. No proven treatment is available and the pathophysiology is largely unknown. A Phe377 (TTC(1130-1132)) deletion in exon 9 of the pyrophosphate (PPi) transporter ANK leads to CMD-like features in an Ank(KI/KI) mouse model. Here, we investigated the effects of CMD-mutant ANK on mineralization and bone mass at a cellular level. Ank(KI/KI) osteoblast cultures showed decreased mineral deposition. Expression of bone mineralization regulating genes Mmp13, Ocn, Osx and Phex was reduced in Ank(KI/KI) osteoblasts, while the Fgf23 mRNA level was highly elevated in Ank(KI/KI) calvarial and femoral bones. Since ANK is a known PPi transporter, we examined other regulators of Pi/PPi homeostasis Enpp1 and Tnap. Significantly increased ENPP1 activity may compensate for dysfunctional mutant ANK leading to comparable extracellular PPi levels in Ank(+/+) osteoblasts. Similar to Ank(KI/KI) bone marrow-derived macrophage cultures, peripheral blood cultures from CMD patients exhibited reduced osteoclastogenesis. Cell-autonomous effects in Ank(KI/KI) osteoclasts resulted in disrupted actin ring formation and cell fusion. In addition, Ank(KI/KI) osteoblasts failed to adequately support osteoclastogenesis. Increased bone mass could partially be rescued by bone marrow transplants supporting our hypothesis that reduced osteoclastogenesis contributes at least in part to hyperostosis. We conclude that the Phe377del mutation in ANK causes impaired osteoblastogenesis and osteoclastogenesis resulting in hypomineralization and a high bone mass phenotype.

Increased incidence of vaginal septum in C57BL/6J mice since 1976.

Decreased fertility was observed in a breeding colony of C57BL/6J mice. On examination, a dorsoventral vaginal septum was detected in many females. This defect was identified in 1976, with incidence of 4.0% in this strain. Our objective was to determine whether incidence of this condition has increased and whether this defect was associated with the observed infertility. We report incidence of 11.3%, nearly triple the original reported incidence. For comparison, incidence of vaginal septum in C57BL/6N females was determined and was found to be 1%. We performed a breeding study using normal and affected C57BL/6J females to evaluate fertility in affected females. Our data were consistent with those of the 1976 report; fertility was decreased in females with an intact vaginal septum. In 50% of affected females, the septum remained intact after breeding. The fertility for this subgroup of vaginal septum-retained females was 14.3%, compared with 85.7% in females whose septum ruptured and 75.0% in normal females (statistically significant, P = 0.02). On the basis of our results, we provide animal and financial loss data due to the defect. Lastly, we provide suggestions on how to minimize animal losses and be in accordance with the principles of the 3Rs (replacement, refinement, reduction).

Mouse model of Sanfilippo syndrome type B: relation of phenotypic features to background strain.

Sanfilippo syndrome type B or mucopolysaccharidosis type III B (MPS IIIB) is a lysosomal storage disorder that is inherited in autosomal recessive manner. It is characterized by systemic heparan sulfate accumulation in lysosomes due to deficiency of the enzyme alpha-N-acetylglucosaminidase (Naglu). Devastating clinical abnormalities with severe central nervous system involvement and somatic disease lead to premature death. A mouse model of Sanfilippo syndrome type B was created by targeted disruption of the gene encoding Naglu, providing a powerful tool for understanding pathogenesis and developing novel therapeutic strategies. However, the JAX GEMM Strain B6.129S6-Naglutm1Efn mouse, although showing biochemical similarities to humans with Sanfilippo syndrome, exhibits aging and behavioral differences. We observed idiosyncrasies, such as skeletal dysmorphism, hydrocephalus, ocular abnormalities, organomegaly, growth retardation, and anomalies of the integument, in our breeding colony of Naglu mutant mice and determined that several of them were at least partially related to the background strain C57BL/6. These background strain abnormalities, therefore, potentially mimic or overlap signs of the induced syndrome in our mice. Our observations may prove useful in studies of Naglu mutant mice. The necessity for distinguishing background anomalies from signs of the modeled disease is apparent.

Minimal ischaemic neuronal damage and HSP70 expression in MF1 strain mice following bilateral common carotid artery occlusion.

Investigation into the influence of specific genes and gene products upon the pathophysiology of cerebral ischaemia has been greatly enhanced by the use of genetically modified mice. A simple model of global cerebral ischaemia in mouse is bilateral common carotid artery occlusion (BCCAo) and the neuropathological impact of BCCAo has been investigated in several mouse strains. Bilateral carotid occlusion produces extensive neuronal damage in C57Bl/6J strain mice and this damage is linked to posterior communicating artery (PcomA) hypoplasticity in the circle of Willis. In the present study, we investigated the effect of BCCAo in MF1 strain mice and compared them with C57Bl/6J mice. The neuropathological consequences of BCCAo were assessed using standard histochemical staining and heat shock protein 70 (HSP70) immunohistochemical staining (to demarcate cells that had been ischaemically stressed). The effect of BCCAo on mean arterial blood pressure (MABP) was also measured. The plasticity of the circle of Willis was recorded using carbon black perfusion. MF1 mice displayed significantly less ischaemic neuronal damage and HSP70 immunoreactivity compared to C57Bl/6J mice following 10-20 min BCCAo. Moreover, ischaemic neuronal damage and HSP70 immunoreactivity in MF1 mice subjected to extended BCCAo (25-45 min) was never as extensive or widespread as that observed in C57Bl/6J mice after 20 min BCCAo. MABP in MF1 mice (102+/-5 mmHg) was significantly higher than in C57Bl/6J mice (87+/-5) during 20 min BCCAo. MABP in MF1 mice during 20 and 40 min (103+/-12 mmHg) BCCAo remained above pre-occlusion values for the entire occlusion period. MF1 mice had significantly greater circle of Willis plasticity (more PcomAs) than C57Bl/6J mice did. These data indicate that MF1 mice are less susceptible to BCCAo than C57Bl/6J mice and that this could be due to maintained increases in MABP during BCCAo and the lower prevalence of abnormalities of the circle of Willis in MF1 mice.

Microphthalmia and associated abnormalities in inbred black mice.

Although microphthalmia and anophthalmia develop in many animals, they are a consistent and frequent finding in inbred and congenic strains of C57BL mice. Many investigators fail to take account of an incidence that may be as high as 12%, and this may lead to misinterpretation of experimental results. Further confusion may arise from the higher frequency in female mice and from the effects of various environmental and breeding conditions. In anophthalmic and severely microphthalmic mice, there is faulty tear drainage function, which often leads to ocular infections. It should be emphasized that these infections are a function of the ocular malformations arising from the genetic characteristics of C57BL strains and do not represent a failure in proper animal husbandry practices. Histologic studies confirm the consistency and the variability of the ocular findings in these strains. The eye abnormalities may be unilateral or bilateral and, for unexplained reasons, have a strong predilection for the right eye. Microphthalmia may be subtle and clinical anophthalmia may actually represent severe microphthalmia. Accordingly, any conclusions for these inbred strains regarding the eyes should be accompanied by careful microscopic examination of all animals. The most common findings include central corneal opacities, iridocorneal and corneal-lenticular adhesions, abnormal formation of the iris and ciliary body, cataracts, extrusion of lens cortical material with dispersion throughout the eye, failure of vitreous development, and retinal folding. The incidence of all of these findings is increased by exposure to alcohol at critical stages of embryogenesis. Mesodermal dysgenesis of the anterior segment in human eyes mimics the findings seen in inbred C57BL strains of mice, although severe microphthalmia or anophthalmia is less commonly seen. These similar human findings have been associated with a complexity of chromosomal abnormalities and inheritance patterns. Development of the fetal alcohol syndrome in human eyes also provides a phenocopy of the anterior segment abnormalities of mice and of the human familial syndromes. The events, which result in abnormalities in mice and humans, all center around the time in embryogenesis when the optic cup and lens vesicle are developing. In all instances, the lens tends to be smaller than normal and may be displaced in position with relation to the optic cup. This relationship between lens and optic cup is critical in normal development of other ocular structures, including the iris, ciliary body, vitreous, and retina.(ABSTRACT TRUNCATED AT 400 WORDS)

Spontaneous, asymmetrical microphthalmia in C57B1/6J mice.

An investigation was undertaken to evaluate ocular size and shape by objective and subjective criteria to establish the incidence and laterality of spontaneous microphthalmia in the C57B1/6J mouse strain. The purpose was to provide useful information of normal and abnormal ocular development in a laboratory strain frequently used for teratogenic studies. Ten-week-old C57B1/6J mice were time mated and sacrificed at gestational day 14. Eye normality was evaluated subjectively using veterinary ophthalmology methods, and objectively by a computer derived method. A distinct laterality was noted in the right eye when compared to the left eye. Degree of laterality varied with assessment methodology (19.0% vs. 6.9% and 8.9% vs. 4.0% for the subjective and objective methods respectively). Mean eye area and histogram distributions for the right eye were consistently smaller than the left eye for all anatomical rating groups, thereby suggesting that asymmetry found in the C57B1/6J may be due to an inherent discrepancy in eye size in the strain. The data from this study suggest that when C57B1/6J mouse eyes are used as end points for teratological testing each eye should be treated as an independent unit of measure.