OFCD syndrome and extraembryonic defects are revealed by conditional mutation of the Polycomb-group repressive complex 1.1 (PRC1.1) gene BCOR

BCOR is a critical regulator of human development. Heterozygous mutations of BCOR in females cause the X-linked developmental disorder Oculofaciocardiodental syndrome (OFCD), and hemizygous mutations of BCOR in males cause gestational lethality. BCOR associates with Polycomb group proteins to form one subfamily of the diverse Polycomb repressive complex 1 (PRC1) complexes, designated PRC1.1. Currently there is limited understanding of differing developmental roles of the various PRC1 complexes. We therefore generated a conditional exon 9-10 knockout Bcor allele and a transgenic conditional Bcor expression allele and used these to define multiple roles of Bcor, and by implication PRC1.1, in mouse development. Females heterozygous for Bcor exhibiting mosaic expression due to the X-linkage of the gene showed reduced postnatal viability and had OFCD-like defects. By contrast, Bcor hemizygosity in the entire male embryo resulted in embryonic lethality by E9.5. We further dissected the roles of Bcor, focusing on some of the tissues affected in OFCD through use of cell type specific Cre alleles. Mutation of Bcor in neural crest cells caused cleft palate, shortening of the mandible and tympanic bone, ectopic salivary glands and abnormal tongue musculature. We found that defects in the mandibular region, rather than in the palate itself, led to palatal clefting. Mutation of Bcor in hindlimb progenitor cells of the lateral mesoderm resulted in 2/3 syndactyly. Mutation of Bcor in Isl1-expressing lineages that contribute to the heart caused defects including persistent truncus arteriosus, ventricular septal defect and fetal lethality. Mutation of Bcor in extraembryonic lineages resulted in placental defects and midgestation lethality. Ubiquitous over expression of transgenic Bcor isoform A during development resulted in embryonic defects and midgestation lethality. The defects we have found in Bcor mutants provide insights into the etiology of the OFCD syndrome and how BCOR-containing PRC1 complexes function in development.

Chicken embryos as a potential new model for early onset type I diabetes

Diabetic retinopathy (DR) is the leading cause of blindness among the American working population. The purpose of this study is to establish a new diabetic animal model using a cone-dominant avian species to address the distorted color vision and altered cone pathway responses in prediabetic and early diabetic patients. Chicken embryos were injected with either streptozotocin (STZ), high concentration of glucose (high-glucose), or vehicle at embryonic day 11. Cataracts occurred in varying degrees in both STZ- and high glucose-induced diabetic chick embryos at E18. Streptozotocin-diabetic chicken embryos had decreased levels of blood insulin, glucose transporter 4 (Glut4), and phosphorylated protein kinase B (pAKT). In STZ-injected E20 embryos, the ERG amplitudes of both a- and b-waves were significantly decreased, the implicit time of the a-wave was delayed, while that of the b-wave was significantly increased. Photoreceptors cultured from STZ-injected E18 embryos had a significant decrease in L-type voltage-gated calcium channel (L-VGCC) currents, which was reflected in the decreased level of L-VGCCα1D subunit in the STZ-diabetic retinas. Through these independent lines of evidence, STZ-injection was able to induce pathological conditions in the chicken embryonic retina, and it is promising to use chickens as a potential new animal model for type I diabetes.

Clinicopathological study of bilateral developmental cataracts diagnosed in utero

BACKGROUND

We report a case of unusual, bilateral developmental cataracts in a fetus with a supernumerary chromosome.

METHODS

A 42-year-old woman presented during her 6th pregnancy for assessment of fetal karyotype. This showed a supernumerary chromosome derived from chromosome 21. Subsequently fetal ultrasound suggested the presence of bilateral cataracts and the pregnancy was terminated at 19 weeks and 3 days' gestation. Both eyes were submitted for histopathological and electron microscopical examination.

RESULTS

Histopathological examination revealed unusual bilateral developmental cataracts with abnormal bladder-type cells lining the posterior aspect of the lens vesicle, a poorly formed nuclear bow and a central mass of fibrillar material associated with macrophages lying within an area of liquefaction. Transmission electron microscopy revealed the presence of peg and socket joints in both central and posterior regions and degenerate crystallins in the posterior region.

CONCLUSIONS

We described an unusual case of developmental cataract diagnosed in utero by ultrasound. The morphological appearances suggest that the defect occurred during or after formation of the secondary lens fibres. Detailed descriptions of cases such as this one may contribute to our understanding of lens development and cataract formation.

Minoranomalien der Hornhaut bei der murinen Trisomie�16

BACKGROUND

The prevalence of human Down's syndrome is about 1:700. Investigations using animal models are therefore of clinical relevance for understanding its etiopathogenesis. No corneal changes have been reported with transgenic murine trisomy 16.

METHODS

A total of 20 fetal mice (n=40 eyes) with experimentally induced trisomy 16 were investigated from day 18 of pregnancy in order to determine whether visible developmental disorders of the cornea occur. All specimen were investigated microscopically in serial sections.

RESULTS

In addition to disturbances in systemic development, the transgenic mouse fetuses showed high rates of malformation of the eyes. Developmental and differentiation disorders of the corneal epithelial cell layers and structural disturbances of the corneal parenchyma were found. Our findings are the first demonstration of developmental disorders of the cornea in mouse fetuses with trisomy 16. These minor anomalies of the cornea could well have resulted in keratoconus if the animals had survived.

CONCLUSIONS

Our findings in transgenic mouse fetuses with trisomy 16 correspond to the clinical pattern of Down's syndrome in humans. Disturbed development of lids and lenses have a high prevalence, whereas corneal hypoplasia is found less often.

Coordinate Signaling by Src and p38 Kinases in the Induction of Cortical Cataracts

PURPOSE

The goals of this study were to determine whether MAP kinase signaling pathways play a role in the formation of lens cataracts and to examine the potential signaling relationship between Src and MAP kinases in signaling the induction of lens opacities.

METHODS

Embryonic day (E)10 chick lenses were cultured in Medium 199 containing 10% fetal bovine serum. The activation state of Src kinases and the MAP kinases extracellular signal-regulated protein kinase (ERK), c-jun N-terminal kinase (JNK), and p38 in the lens epithelium was determined over a time course from 10 minutes to 10 days in culture by immunoblot analysis. Src kinase activation was suppressed by exposure to the Src family kinase-specific inhibitor PP1. To examine the role of specific MAP kinases in the development of lens opacities, lenses were grown for 10 days in the presence or absence of inhibitors of ERK (U0126), JNK (SP600125), and p38 (SB203580). Lenses were observed and photographed daily, and the degree of opacification was quantified by using image-analysis software.

RESULTS

Within a short time after placing embryonic lenses in culture conditions that induce the formation of cataracts, there occurred a great increase in the activation state of the MAP kinase ERK. Activation of ERK was both rapid and transient. No activation of the MAP kinase JNK was observed in the cataract cultures beyond that which occurred in normal lens epithelium, even though JNK activation is often linked to the cellular response to stress. In contrast, although p38 activation was barely detected in the normal embryonic lens, this stress-activated protein kinase exhibited a robust activation in cataract cultures that was sustained throughout the culture period. Studies conducted to map the cataract signaling pathways indicate that the p38 MAP kinase functions upstream of the Src kinase. To analyze the potential role of ERK, JNK, and p38 in cataract induction, lenses were cultured in the presence of specific MAP kinase inhibitors. Although the inhibitors of ERK and JNK did not interfere with the formation of cataract, p38 inhibitors blocked the development of lens opacities with an efficacy similar to that of the Src kinase inhibitor PP1.

CONCLUSIONS

Activation of both Src and p38 kinases lead to the induction of cataract.

Effect of nicotine exposure during gestation on neonatal rat crystalline lenses

PURPOSE

To assess histologically the influence of maternal nicotine exposure during gestation in vivo on crystalline lenses in neonatal rats using different dosages of the test compound simulating the range of low, moderate, and heavy smokers in humans.

METHODS

Experimentally naive, adult female Wistar-albino rats (200-250 g) were mated with adult male rats over 2 days for copulation in the proportion of two females for every male animal. After confirming pregnancy with vaginal smear method, 40 gravid rats (dams) were then randomly assigned into four equal groups (three experimental and one control; n=10 in each). Groups 1, 2, and 3 experimental dams were treated with intraperitoneal (i.p.) (-)-nicotine tartrate at doses of 0.5, 1, and 2 mg/kg body weight/day, respectively, during pregnancy from gestational days 9 through 21. Group 4 control dams were given i.p. saline solution daily for the same period. After normal delivery, the eyes were removed at postnatal day 1 or day 30 for macroscopic and histopathologic investigation of the lenses.

RESULTS

Control and group 1 litters had normal anterior lens capsules with a single layer of anterior cuboidal epithelial cells, regularly orientated cortical and nuclear lens fibres, and a clear posterior lens capsule with no lining epithelial cells behind the equator. On the other hand, some lenses in groups 2 and 3 litters had mature or immature cataract macroscopically at postnatal 30th day. Histopathologic findings suggesting cataractogenesis included cortical lens fibre cell swelling and liquefaction, prominent epithelial cells lining the posterior lens capsule behind the equator, and the retention of lens nuclei into the deeper and central area. Moreover, some lenses were immature developmentally, indicating arrested lenticular embryogenesis at vesicle stage.

CONCLUSIONS

Nicotine exposure during pregnancy has teratogenic and cataractogenic effects on developing crystalline lenses in neonatal rats both macroscopically and histopathologically. If appropriate dose of nicotine can be identified, nicotine-induced cataract formation may possibly be used as a new experimental cataract model in animal studies. Therefore, future studies are needed in this respect. Eye (2004) 18, 67-73. doi:10.1038/sj.eye.6700511

The role of Src family kinases in cortical cataract formation

PURPOSE

The goal of this study was to determine the role of Src family kinases (SFKs) in the development of lens cataract. This question was particularly significant, because these tyrosine kinases mediate the stress pathways known to lead to cataract formation. The experiments were focused on whether the inhibition of SFK activity suppresses the formation of lens opacities.

METHODS

A whole-lens culture system was developed, in which cortical opacities formed within 5 days, in embryonic day (E)10 lenses grown in medium containing 10% fetal bovine serum. SFK activity was blocked in the cultured lenses by growth in the presence of the SFK-specific inhibitor PP1. Control cultures were grown in medium without inhibitor or in the presence of PP3, the inactive analogue of PP1. Lenses were cultured for 10 days, observed, and photographed daily. Opacification was quantified with image-analysis software. Tissue architecture was determined after hematoxylin and eosin staining and cellular organization by fluorescent localization of filamentous actin with fluorescein-conjugated phalloidin.

RESULTS

Almost all lenses in the control cultures developed cortical opacities covering approximately 50% of the lens area by day 10. Similar to control cultures, PP1-treated lenses showed mild posterior opacities during the first 5 days in culture, but then became strikingly transparent. Only 7% of the PP1-treated lenses showed development of cortical cataract, and the average area of opacity was just 0.5% by culture day 10. In all cultured lenses, even in the presence of the PP1 inhibitor, the bow region of the lens extended to the posterior pole, and distribution of nuclei from the posterior pole toward the anterior aspects of the lens suggested that newly added fiber cells were misdirected. However, neither this feature, nor the presence of vacuoles appeared to correlate with the development of opacity in the cultured lenses. Instead, the lens opacities appeared to result from gross abnormalities in the shape and organization of cells in the equatorial and cortical fiber zones, as observed by F-actin staining. Culturing the lenses in the presence of the SFK inhibitor prevented these lens cell aberrations as well as the development of lens opacity.

CONCLUSIONS

The formation of cataract can involve activation of SFK-mediated pathway(s) leading to disorganization of developing lens fiber cells, and inhibiting these tyrosine kinases blocks cataract progression.

Congenital nuclear cataracts and uveitis in HIV-transgenic mice

PURPOSE

Patients infected with HIV-1 develop ocular manifestations, some due to opportunistic infections and others attributed to the virus itself. Among the latter are retinal microvasculopathy and uveitis. We have analysed the ocular phenotype in HIV-transgenic mice.

METHODS

We have studied T26 transgenic mice which bear a gag-pol deleted HIV-1 genome. Transgene RNA was detected by Northern analysis. Ocular pathology was assessed by conventional histology, immunostaining for gp120 envelope protein, and in situ apoptosis detection with end-labelling.

RESULTS

Abnormalities of lens epithelial cell development were detected as early as embryonic day 14.5. Histological changes included the malformation of an embryonal lens nucleus and poor closure of the lens suture lines. This resulted in congenital nuclear cataracts, as occur in congenital viral infections in human patients. In the adult animals, lenses were notable for extensive vacuolation, liquefaction, and degeneration of the cortex. Mild iridocyclitis and vitritis were also noted in adult transgenic mice. Immunostaining demonstrated the expression of gp 120 envelope protein within the lens epithelial and fibre cells. End-labelling with terminal deoxyribonucleotidyl transferase showed increased numbers of apoptotic cells in the adult lens.

CONCLUSIONS

These findings suggest that one or more HIV-1 proteins are associated with congenital nuclear cataract formation and uveitis in HIV-transgenic mice.

Requirement for TGFβ receptor signaling during terminal lens fiber differentiation

Several families of growth factors have been identified as regulators of cell fate in the developing lens. Members of the fibroblast growth factor family are potent inducers of lens fiber differentiation. Members of the transforming growth factor β (TGFβ) family, particularly bone morphogenetic proteins, have also been implicated in various stages of lens and ocular development, including lens induction and lens placode formation. However, at later stages of lens development, TGFβ family members have been shown to induce pathological changes in lens epithelial cells similar to those seen in forms of human subcapsular cataract. Previous studies have shown that type I and type II TGFβ receptors, in addition to being expressed in the epithelium, are also expressed in patterns consistent with a role in lens fiber differentiation. In this study we have investigated the consequences of disrupting TGFβ signaling during lens fiber differentiation by using the mouse αΑ-crystallin promoter to overexpress mutant (kinase deficient), dominant-negative forms of either type I or type II TGFβ receptors in the lens fibers of transgenic mice. Mice expressing these transgenes had pronounced bilateral nuclear cataracts. The phenotype was characterized by attenuated lens fiber elongation in the cortex and disruption of fiber differentiation, culminating in fiber cell apoptosis and degeneration in the lens nucleus. Inhibition of TGFβ signaling resulted in altered expression patterns of the fiber-specific proteins, α-crystallin, filensin, phakinin and MIP. In addition, in an in vitro assay of cell migration, explanted lens cells from transgenic mice showed impaired migration on laminin and a lack of actin filament assembly, compared with cells from wild-type mice. These results indicate that TGFβ signaling is a key event during fiber differentiation and is required for completion of terminal differentiation.

Two interactive genes responsible for a new inherited cataract (RCT) in the mouse

We discovered a mutant mouse, RCT (Rinshoken cataract), with a new congenital cataract in strain SJL/J. The opacity of the lens associated with microphthalmia could be observed visually at 3 to 3.5 months of age. Marked degeneration of the lens, including loss of the fine structure of the lens fibers and swelling of epithelial cells with vacuoles of various sizes in the cortex, but no other defects except photoreceptor degeneration in the retina, was detected. Histological change in the lens was first observed at 2 days after birth. No sex-related differences were detected, and normal phenotypes in the F1 progeny of RCT and normal mice indicated that the cataract was recessive. The chromosomal location of the causative gene was determined by interval mapping by using intersubspecific backcross progeny of RCT and MSM/Ms, an inbred strain from the Japanese wild mouse Mus musculus molossinus. Backcross progeny were divided into three groups according to phenotype: mice (1) with an early-onset cataract, which can be detected visually as in RCT mice, (2) with a late-onset cataract, which can be detected histologically but not visually, and (3) with a normal lens. Three phenotypes were found to be expressed by allele combinations of two recessive genes, rct and mrct (a modifier of rct). The rct locus essential for the onset of the cataract was tightly linked to D4Mit278 on Chromosome (Chr) 4 with no recombination. The mrct locus was closely linked to D5Mit239 (chi2 = 66.3, P << 0.00001) on Chr 5.

Prenatal ultrasound detection of congenital cataract in trisomy 21

A 45-year-old woman underwent serial ultrasound screening procedures during late first and second trimesters of pregnancy for advanced maternal age. Cultured amniocytes karyotype indicated full trisomy 21. Subsequently, the fetus developed congenital cataract diagnosed at 24 weeks. This is the first antenatal diagnosis of this complication of Down syndrome.

Overlapping effects of different members of the FGF family on lens fiber differentiation in transgenic mice

Fibroblast growth factors (FGFs), such as FGF-1, have been shown to induce differentiation of lens epithelial cells both in tissue culture and in transgenic mice. In the present study, using the alpha A-crystallin promoter, we generated transgenic mice that express different FGFs (FGF-4, FGF-7, FGF-8, FGF-9) specifically in the lens. All four FGFs induced changes in ocular development. Microphthalmic eyes were evident in transgenic mice expressing FGF-8, FGF-9 and some lines expressing FGF-4. A developmental study of the microphthalmic eyes revealed that, by embryonic day 15, expression of these FGFs induced lens epithelial cells to undergo premature fiber differentiation. In less severely affected lines expressing FGF-4 or FGF-7, the lens epithelial cells exhibited a premature exit from the cell cycle and underwent a fiber differentiation response later in development, leading to cataract formation. The responsiveness of lens cells to different FGFs indicates that these proteins stimulate the same or overlapping downstream signalling pathway(s). These overlapping effects of different FGFs on a common cell type indicate that the normal developmental roles for these genes are determined by the temporal and spatial regulation of their expression patterns. The fact that any of these FGFs can induce ocular defects and loss of lens transparency implies that it is essential for the normal eye to maintain very specific spatial control over FGF expression in order to prevent cataract induction.

Is month of birth associated with cataract in later life?

BACKGROUND

It has been suggested that season of birth might influence the susceptibility to cataract in later life.

METHODS

This hypothesis was investigated using data pooled from two case-control studies carried out in Oxfordshire.

RESULTS/CONCLUSION

The results showed no relation between month or season of birth and cataract in later life in an English population.

Mice deficient for the secreted glycoprotein SPARC/osteonectin/BM40 develop normally but show severe age-onset cataract formation and disruption of the lens

SPARC (secreted protein acidic and rich in cysteine, also known as osteonectin/BM40) is a secreted Ca2+-binding glycoprotein that interacts with a range of extracellular matrix molecules, including collagen IV. It is widely expressed during embryogenesis, and in vitro studies have suggested roles in the regulation of cell adhesion and proliferation, and in the modulation of cytokine activity. In order to analyse the function of this protein in vivo, the endogenous Sparc locus was disrupted by homologous recombination in murine embryonic stem cells. SPARC-deficient mice (Sparctm1Cam) appear normal and fertile until around 6 months of age, when they develop severe eye pathology characterized by cataract formation and rupture of the lens capsule. The first sign of lens pathology occurs in the equatorial bow region where vacuoles gradually form within differentiating epithelial cells and fibre cells. The lens capsule, however, shows no qualitative changes in the major basal lamina proteins laminin, collagen IV, perlecan or entactin. These mice are an excellent resource for further studies on how SPARC affects cell behaviour in vivo.

Synthesis of monoesters of pyrroloquinoline quinone and imidazopyrroloquinoline, and radical scavenging activities using electron spin resonance in vitro and pharmacological activity in vivo

Monoesters with the ester groups at C-2 of pyrroloquinoline quinone (PQQ) and C-9 of imidazopyrroloquinoline (IPQ) were synthesized, and radical scavenging activities of coenzyme PQQ, IPQ compounds synthesized from PQQ and various amino acids, and monoesters of PQQ and IPQ were studied in vitro and in vivo. PQQ and PQQ monoesters had strong radical scavenging activity using ESR in in vitro experiments. The IC50 value for superoxide (O2-) was from 1 to 6 x 10(-8) M and that for the hydroxy radical (.OH) was from 4 to 6 x 10(-5) M. IPQ compounds and IPQ monoesters also showed radical scavenging activity. These compounds prevented injury during in vivo experiments, such as hydrocortisone-induced cataracts, endotoxin shock and CCl4-induced liver injury (isolated hepatocytes and rats). Especially, the monoesters of PQQ and IPQ prevented liver injury in rats equally by oral or intraperitoneal administration. These results suggest that PQQ functions as a radical scavenging factor in addition to being a cofactor of quinoprotein enzymes, and monoesters with the ester groups at C-2 of PQQ and C-9 of IPQ are developed as treatment or preventive medicine for disease caused by radical compounds on the basis of strong radical scavenging activities, absorbability into cells, toxicity, safety and chemical stability.

Reduced levels of gamma-crystallin transcripts during embryonic development of murine Cat2nop mutant lenses

BACKGROUND

From previous experiments it is known that the murine dominant cataract mutants carrying the gene Cat2 have a decreased content of gamma-crystallin-specific transcripts in the juvenile lens, when the cataract is completely expressed. Moreover, the mutant locus has been mapped recently to chromosome 1, closely linked to the gamma E-crystallin gene (map distance 0.3 +/- 0.3 cM). In the present paper we describe the phenotypic changes and the gamma-crystallin expression in embryonic lenses of the Cat2nop mutants as an example for the Cat2 allelic series.

METHODS

The technique of in situ hybridization was applied using a probe from the murine gamma D-crystallin gene, and, for control, from the murine alpha A-crystallin gene. Simultaneously, a series of lens sections was examined histologically.

RESULTS

The presence of gamma-crystallin mRNA was demonstrated from embryonic day 13.5 (E13.5) onward, but in the mutants to a lower extent than in the wild-type lenses. However, the first morphological abnormality in the mutant lenses was observed as swelling of lens fibers at day E15.5. Progressive degeneration of the lens core followed, leading to a cataracta immatura.

CONCLUSION

The reduced level of gamma-crystallin transcripts is the first alteration observable during the embryonic development of the Cat2 mutant lenses: it precedes the morphological changes. This result represents an additional line of argument that the gamma-crystallin genes may be the target of the mutation in the Cat2 mice.

Glucocorticoid-induced cataract of developing chick embryo as a screening model for anticataract agents

In order to develop an effective screening model for anticataract agents, we examined the age dependence of cataract induction by glucocorticoid in developing chick embryos. Hydrocortisone sodium succinate (0.25 mumol) was administered to chick embryos on day 15 (15-day-old) and cataract formation was examined 48 hr later. Administration earlier than on day 13 or later than on day 15 was a little or ineffective. These results indicate that the formation of glucocorticoid-induced cataract in developing chick embryos depends on developing stages. The embryos treated with hydrocortisone sodium succinate on day 15 decreased GSH amount in the lens, approximately 50% of the control in 48hr. However, the embryos treated at other ages, in which cataract was not induced, showed little or no decrease of GSH. The cataract formation in chick embryos appeared to depend on structure of steroid and was due to biological activities of glucocorticoids. Since cataract is easily produced in a reproducible manner with high incidence by glucocorticoid, our chick embryo model will be a valuable model system for screening anticataract agents.

Defective lens fiber differentiation and pancreatic tumorigenesis caused by ectopic expression of the cellular retinoic acid-binding protein I

All-trans retinoic acid, a metabolite of retinol, is a possible morphogen in vertebrate development. Two classes of cellular proteins, which specifically bind all-trans retinoic acid, are thought to mediate its action: the nuclear retinoic acid receptors (RAR alpha, beta, gamma), and the cytoplasmic binding proteins known as cellular retinoic acid-binding proteins I and II (CRABP I and II). The function of the retinoic acid receptors is to regulate gene transcription by binding to DNA in conjunction with the nuclear retinoid X receptors (RXR alpha, beta, gamma), which in turn have 9-cis retinoic acid as a ligand. Several lines of evidence suggest that the role of the cellular retinoic acid-binding proteins is to control the concentration of free retinoic acid reaching the nucleus in a given cell. Here, we have addressed the role of the cellular retinoic acid-binding protein I in development by ectopically expressing it in the mouse lens, under the control of the alpha A-crystallin promoter. We show that this ectopic expression interferes with the development of the lens and with the differentiation of the secondary lens fiber cells, causing cataract formation. These results suggest that correct regulation of intracellular retinoic acid concentration is required for normal eye development. In addition, the generated transgenic mice also present expression of the transgene in the pancreas and develop pancreatic carcinomas, suggesting that overexpression of the cellular retinoic acid-binding protein is the cause of the tumors. These results taken together provide evidence for a role of the cellular retinoic acid-binding protein in development and cell differentiation. The relevance of these findings to the possible role of the cellular retinoic acid-binding proteins in the transduction of the retinoic acid signal is discussed.

Sonographic diagnosis of fetal congenital cataracts

Five fetuses with congenital cataracts diagnosed in utero by ultrasound are reported. The fetuses, who were between 14 and 27 weeks' gestation, also had other severe malformations. The sonographic features of the cataracts are presented.

Morphogenesis of diabetes-induced congenital cataract in the rat

The eye development of rat fetuses and pups from normal and streptozotocin-diabetic mothers was studied histologically in order to verify the morphopathogenesis of congenital cataract. The first signs of lens alterations were observed in 17-day-old fetuses from diabetic mothers. The fibres swelled up, became hydropic and subsequently degenerated, giving rise to large cysts filled with amorphous material in the middle of the lens. The pathogenic route observed suggests an osmotic disturbance in the physiology of the lens fibres, probably related with an accumulation of some polyols.

An in vivo and in vitro study of the embryonic and adult lop mutant congenital cataractous lens

A detailed histological study of the embryonic and adult congenital cataract Lop mouse lens has been made. A comparison with the congenital cataract (CatFr) mouse lens has shown that the full range of lens anomalies noted in the congenital cataractous mice are very similar. However, the Lop mutant demonstrates these defects to a greater degree in both the embryonic and adult stages. The lens epithelial cells of the Lop adult lens have been cultured to ascertain their in vitro phenotype. These studies have shown that the proliferation pattern and population doubling level are similar to that of the CatFr lens epithelial cells. A comparison with non-cataractous mouse lens epithelial cells demonstrates that the congenital cataractous mice lens epithelial cells have a very limited life span in vitro. An increase in the nuclear diameter with population doubling level was observed in the cultured mouse lens epithelial cells.

Inexplicable infantile cataracts and partial maternal galactose disorder

Previous reports have suggested that partial maternal deficiency of galactose metabolising enzymes, particularly of galactokinase activity, could contribute to the formation of cataracts during developmental life, even in a fetus that is enzymatically normal. We have assayed erythrocyte galactokinase and uridyltransferase activities in 12 families with children suffering early onset cataracts. We did not observe any abnormality of galactose metabolising enzymes in either the mothers or the infants. Furthermore, we have looked for the occurrence of cataracts among children of seven mothers heterozygous for one of these two deficiencies. No children with enzyme activity in the normal or heterozygous range had cataracts.

[Mutant gene expression in mouse aggregation chimeras. 2. The dominant cataract-FR gene]

An analysis of dominant cataract-Fr (CatFr) gene in chimaeric mice CatFr/CatFr c/c in equilibrium +/+C/C has shown that CatFr gene is active in the differentiation lens fibres. The pycnosis of nuclei was observed in the primary lens fibres both in 14 day old chimaeric and CatFr/CatFr embryos. In the central part of lens of the 17 day old chimaeric embryos, there are, besides the fragmented pycnotic nuclei, nuclei with normal morphology which are not observed in CatFr/CatFr embryos. The pycnosis of nuclei was observed in some deep cortical lens fibres of both 17 day old chimaeric and CatFr/CatFr embryos. In the newborn chimaeric mice practically all centrally located lens fibres had destructive changes. The effect of gene CatFr, pycnosis of nuclei, was used as cell marker in clonal analysis of lens development. The count of pycnotic nuclei in the primary and secondary lens fibres of, respectively, 14 and 17 day old chimaeric embryos has shown a high degree of correlation in the ratio of normal and mutant cells between the left and right eye lenses. A high degree of correlation was also established in the ratio of pigmented and unpigmented cells in the retinal pigment epithelium between the left and right eye. A positive correlation was also shown in the ratio of mutant and normal cells between the lens and retinal pigment epithelium in both 14 and 17 day old chimaeric embryos.

An immunohistochemical study of lens development in a mutant small eye and cataractous mouse

The immunohistochemical method was used to study lens formation in a new dominant mouse strain with a small eye and lens cataract (gene symbol Cs). Antisera to pure alpha- and gamma-crystallins were used. In the homozygotes, the eyes have cataractous lenses about half the size of normal lenses. In the heterozygotes, the eyes show opacities of the lens but the lens itself is normal in size. The mouse strain has two genes in the same autosome which cause the phenogenetical characteristics of small eyes and cataracts. One reflects the defect of the gamma-crystallin synthesis in the secondary lens fibers in the equatorial zone. This is a recessive gene and it may cause the small lens. The other gene is responsible for the swollen, granular and misshaped fiber cells. This is a dominant gene like that in the Fraser's cataract and it may cause the cataract lens.

Developmental ocular abnormalities in rats with X-ray--induced cataract mutation

Prenatal and early postnatal devpelopment of eyes of Wistar rats with X-ray-induced cataract mutation was assessed histologically, to determine the events leading to cataract formation. A significant phenomenon appeared to be retinal folding, which occurred regularly at 14 to 15 days of gestation and might have pushed the lens against the cornea. A corneal reaction with the lens was indicated by corneal adhesions to the lens, seen frequently during and shortly after the period of retinal folding, and could have stimulated the epithelial hyperplasia that leads invariably to anterior polar cataract in these animals. Changes in the lens fiber cells, which could have been generated by the epithelial hyperplasia, included the sporadic detachment of newly developing fibers from the lens epithelium and the eventual swelling of the anterior ends of fibers still attached to the epithelium. The detached fibers became fusiform and developed postnatally into posterior, suture-associated vacuoles. Anterior uveitis was noted postnatally in some eyes and probably contributed to the subsequent development of the cataract. The results are discussed in the light of congenital anterior polar cataract formation reported in humans and other animals.

Sector shaped membranous cataract

A sector shaped membranous defect of the lens is described. Possible causes for the defect are discussed. An injury to a small area of the anterior layer of epithelial cells plus a localized rupture of the capsule occurring between the third and eighth months of development might account for this defect.

Cataract in a fetus at risk for oculo-cerebro-renal syndrome (Lowe)

A high-risk pregnancy for X-linked recessive inherited Lowe's syndrome was terminated due to a male karyotype in the cultured amniotic fluid cells. The eyes of the male fetus showed specific cataracteous changes of the lens. A posterior lenticonus was due to a defect of the lens capsule. The lenses were of normal size. Loss of lens material through a lens capsule defect could account for the small discoid lens usually seen in Lowe's syndrome. Amino acids in amniotic fluid had normal concentrations except lysine and proline which were markedly elevated.

Early cytologic changes of Fraser cataract. An electron microscopic study

The cataractous lens of the Fraser strain mouse was studied electron microscopically in its early developmental stage. Cytologic abnormalities were found in the cells of the invaginating ectodermal cell of the early optic cup. Morphogenetically degenerating cells were more numerous in this stage. In general, cells of the posterior layer of the developing lens elongated normally. However, they contained great numbers of dilated rough endoplasmic reticulum, vacuoles, and mitochondria, but less amounts of crystalline substance and polysomes. During the further differentiating stage (thirteenth and fourteenth fetal day), apical portions of these cells began to swell and the lens became opaque. The swollen lens cells degenerated after this stage.

Rubella cataract in vitro: Sensitive period of the developing human lens

The clinically known sensitive period of rubella cataract was studied in vitro by infecting 79 human eye rudiments from embryos aged 4-10 wk with rubella virus. The course of the infection was followed by histological and indirect immunofluorescence methods. Of the rudiments, 12 pairs were in the lens placode or open-lens-vesicle stage, 40 already had closed lens vesicles and in another 27 closed-stage pairs an incision was made in the lens capsule before infection to allow the virus to enter the lens. Uninfected controls differentiated well in vitro for 4-6 wk. The eye rudiments infected in the open-lens-vesicle stage showed lens fiber destruction and viral antigens within the lens. No damage or viral antigens were detected in rudiments infected in the closed stage unless the lens capsule was incisedmwhen this was done, however, fiber damage ensued and viral antigens appeared. The lens capsule was concluded to form a protective barrier around the sensirive fibers at the time of closure of the lens vesicle, confirming the earlier hypothesis and clinical findings.