Functional avidity of tumor antigen-specific CTL recognition directly correlates with the stability of MHC/peptide multimer binding to TCR.

Avidity of Ag recognition by tumor-specific T cells is one of the main parameters that determines the potency of a tumor rejection Ag. In this study we show that the relative efficiency of staining of tumor Ag-specific T lymphocytes with the corresponding fluorescent MHC class I/peptide multimeric complexes can considerably vary with staining conditions and does not necessarily correlate with avidity of Ag recognition. Instead, we found a clear correlation between avidity of Ag recognition and the stability of MHC class I/peptide multimeric complexes interaction with TCR as measured in dissociation kinetic experiments. These findings are relevant for both identification and isolation of tumor-reactive CTL.

Mutations leading to X-linked hypohidrotic ectodermal dysplasia affect three major functional domains in the tumor necrosis factor family member ectodysplasin-A.

Mutations in the epithelial morphogen ectodysplasin-A (EDA), a member of the tumor necrosis factor (TNF) family, are responsible for the human disorder X-linked hypohidrotic ectodermal dysplasia (XLHED) characterized by impaired development of hair, eccrine sweat glands, and teeth. EDA-A1 and EDA-A2 are two splice variants of EDA, which bind distinct EDA-A1 and X-linked EDA-A2 receptors. We identified a series of novel EDA mutations in families with XLHED, allowing the identification of the following three functionally important regions in EDA: a C-terminal TNF homology domain, a collagen domain, and a furin protease recognition sequence. Mutations in the TNF homology domain impair binding of both splice variants to their receptors. Mutations in the collagen domain can inhibit multimerization of the TNF homology region, whereas those in the consensus furin recognition sequence prevent proteolytic cleavage of EDA. Finally, a mutation affecting an intron splice donor site is predicted to eliminate specifically the EDA-A1 but not the EDA-A2 splice variant. Thus a proteolytically processed, oligomeric form of EDA-A1 is required in vivo for proper morphogenesis.

Characterization of functional role of α-ketoglutarate receptor in the kidney : role of the intrinsic circadian timing system in renin expressing cells

Le rein joue un rôle essential dans le maintien de l'homéostasie des fluides extracellulaires (FEC) et la pression artérielle. L'objectif de notre groupe est d'identifier de nouveaux mécanismes impliqués dans le contrôle de l'homéostasie des FEC et de la pression artérielle par le rein. Projet 1) Caractérisation du rôle fonctionnel du récepteur à l'a-cétogluatarate Oxgrl dans le rein Oxgrl est le récepteur spécifique de l'a-cétogluatarate, une moléule intermédiaire du cycle de l'acide citrique, filtrée par le rein et réabsorbée ou secrétée au niveau des tubules proximaux. Le rôle fonctionnel de ces deux récepteurs reste inconnu. Nos résultats montrent qu'Oxgrl est localisé au niveau des cellules intercalaires du tube collecteur (CCD). Des souris (Oxgrr/_) montrent une diminution du pH urinaire ,une augmentation de la concentration de l'acide urinaire titrable et une augmentation des niveaux d'a-cétoglutarate. Le traitement au Na-bicarbonate provoque une augmentation plus prononcée de l'alcalose métabolique chez les souris Oxgrl"7"' accompagnée d'une augmentation de la concentration de bicarbonate et une diminution du niveau de chlore plasmatique. En parallèle, des études de microperfusion ont montré que a-cétoglutarate stimule la réabsorption éléctroneutre de NaCl dans le CCD des souris de type sauvage mais pas des souris Oxgrl"7". En résumé, ces résultats montrent que l'a-cétoglutarate joue un rôle de molécule messagère du tubule proximal jusqu'au tube collecteur au niveau du rein et qu'Oxgrl pourrait être impliqué dans la régulation de l'échange Cl/bicarbonate et la réabsorption du NaCl dans les cellules intercalées. Projet 2) Rôle du système circadien dans les cellules productrices de rénine. Le système chronologique circadien est un mécanisme moléculaire ubiquitaire qui permet à l'organisme de coordonner ses fonctions principales en fonction du temps géophysique. Comme l'activité de la rénine plasmatique montre une rythmicité circadienne nette chez l'homme et la souris ; dans ce projet, nous avons abordé la question à savoir dans quelle mesure le système circadien est impliqué dans cette variabilité circadienne. Pour cela, le gène Bmall, élément principal de l'horloge moléculaire, a été perturbé dans les cellules granulaires productrices de rénine par le système Cre-LoxP. Nos résultats montrent que les souris Renld- Cre/Bmalllox/lox (cKO) présentent de faibles taux d'ARNm de Reni, altèrent la dynamique d'expression de la protéine rénine, mais il le niveau de concentration plasmatique de la rénine reste le même. Cependant, les souris cKO montrent une réduction significative de la concentration plasmatique de l'aldostérone. Nos analyses de l'urine récupérée dans des intervalles de temps de 24 et 1 heure montrent une augmentation du volume urinaire, une tendance à une hypercalciurie, ainsi qu'une altération de la dynamique d'excrétion urinaire de sodium chez les souris cKO. Plusieurs gènes impliqués dans la production/sécrétion de la rénine et dans le contrôle de la fonction rénale montrent une altération de l'expression circadienne d'ARNm. Par ailleurs, les souris cKO montrent une baisse significative de la pression artérielle. Nos résultats suggèrent que l'horloge intrinsèque des cellules productrices de la rénine joue un rôle important dans le control des FEC et l'homéostasie de la pression artérielle via régulation de la fonction rénale.

Identification and functional characterization of Rca1, a transcription factor involved in both antifungal susceptibility and host response in Candida albicans.

The identification of novel transcription factors associated with antifungal response may allow the discovery of fungus-specific targets for new therapeutic strategies. A collection of 241 Candida albicans transcriptional regulator mutants was screened for altered susceptibility to fluconazole, caspofungin, amphotericin B, and 5-fluorocytosine. Thirteen of these mutants not yet identified in terms of their role in antifungal response were further investigated, and the function of one of them, a mutant of orf19.6102 (RCA1), was characterized by transcriptome analysis. Strand-specific RNA sequencing and phenotypic tests assigned Rca1 as the regulator of hyphal formation through the cyclic AMP/protein kinase A (cAMP/PKA) signaling pathway and the transcription factor Efg1, but also probably through its interaction with a transcriptional repressor, most likely Tup1. The mechanisms responsible for the high level of resistance to caspofungin and fluconazole observed resulting from RCA1 deletion were investigated. From our observations, we propose that caspofungin resistance was the consequence of the deregulation of cell wall gene expression and that fluconazole resistance was linked to the modulation of the cAMP/PKA signaling pathway activity. In conclusion, our large-scale screening of a C. albicans transcription factor mutant collection allowed the identification of new effectors of the response to antifungals. The functional characterization of Rca1 assigned this transcription factor and its downstream targets as promising candidates for the development of new therapeutic strategies, as Rca1 influences host sensing, hyphal development, and antifungal response.

A member of the PLEIOTROPIC DRUG RESISTANCE family of ATP binding cassette transporters is required for the formation of a functional cuticle in Arabidopsis.

Although the multilayered structure of the plant cuticle was discovered many years ago, the molecular basis of its formation and the functional relevance of the layers are not understood. Here, we present the permeable cuticle1 (pec1) mutant of Arabidopsis thaliana, which displays features associated with a highly permeable cuticle in several organs. In pec1 flowers, typical cutin monomers, such as ω-hydroxylated fatty acids and 10,16-dihydroxypalmitate, are reduced to 40% of wild-type levels and are accompanied by the appearance of lipidic inclusions within the epidermal cell. The cuticular layer of the cell wall, rather than the cuticle proper, is structurally altered in pec1 petals. Therefore, a significant role for the formation of the diffusion barrier in petals can be attributed to this layer. Thus, pec1 defines a new class of mutants. The phenotypes of the pec1 mutant are caused by the knockout of ATP BINDING CASSETTEG32 (ABCG32), an ABC transporter from the PLEIOTROPIC DRUG RESISTANCE family that is localized at the plasma membrane of epidermal cells in a polar manner toward the surface of the organs. Our results suggest that ABCG32 is involved in the formation of the cuticular layer of the cell wall, most likely by exporting particular cutin precursors from the epidermal cell.

Contrasting the functional properties of GABAergic axon terminals with single and multiple synapses in the thalamus

Diverse sources of GABAergic inhibition are a major feature of cortical networks, but distinct inhibitory input systems have not been systematically characterized in the thalamus. Here, we contrasted the properties of two independent GABAergic pathways in the posterior thalamic nucleus of rat, one input from the reticular thalamic nucleus (nRT), and one "extrareticular" input from the anterior pretectal nucleus (APT). The vast majority of nRT-thalamic terminals formed single synapses per postsynaptic target and innervated thin distal dendrites of relay cells. In contrast, single APT-thalamic terminals formed synaptic contacts exclusively via multiple, closely spaced synapses on thick relay cell dendrites. Quantal analysis demonstrated that the two inputs displayed comparable quantal amplitudes, release probabilities, and multiple release sites. The morphological and physiological data together indicated multiple, single-site contacts for nRT and multisite contacts for APT axons. The contrasting synaptic arrangements of the two pathways were paralleled by different short-term plasticities. The multisite APT-thalamic pathway showed larger charge transfer during 50-100 Hz stimulation compared with the nRT pathway and a greater persistent inhibition accruing during stimulation trains. Our results demonstrate that the two inhibitory systems are morpho-functionally distinct and suggest and that multisite GABAergic terminals are tailored for maintained synaptic inhibition even at high presynaptic firing rates. These data explain the efficacy of extrareticular inhibition in timing relay cell activity in sensory and motor thalamic nuclei. Finally, based on the classic nomenclature and the difference between reticular and extrareticular terminals, we define a novel, multisite GABAergic terminal type (F3) in the thalamus.

Molecular and functional characterization of a novel cardiac-specific human tropomyosin isoform.

BACKGROUND: Tropomyosin (TM), an essential actin-binding protein, is central to the control of calcium-regulated striated muscle contraction. Although TPM1alpha (also called alpha-TM) is the predominant TM isoform in human hearts, the precise TM isoform composition remains unclear. METHODS AND RESULTS: In this study, we quantified for the first time the levels of striated muscle TM isoforms in human heart, including a novel isoform called TPM1kappa. By developing a TPM1kappa-specific antibody, we found that the TPM1kappa protein is expressed and incorporated into organized myofibrils in hearts and that its level is increased in human dilated cardiomyopathy and heart failure. To investigate the role of TPM1kappa in sarcomeric function, we generated transgenic mice overexpressing cardiac-specific TPM1kappa. Incorporation of increased levels of TPM1kappa protein in myofilaments leads to dilated cardiomyopathy. Physiological alterations include decreased fractional shortening, systolic and diastolic dysfunction, and decreased myofilament calcium sensitivity with no change in maximum developed tension. Additional biophysical studies demonstrate less structural stability and weaker actin-binding affinity of TPM1kappa compared with TPM1alpha. CONCLUSIONS: This functional analysis of TPM1kappa provides a possible mechanism for the consequences of the TM isoform switch observed in dilated cardiomyopathy and heart failure patients.

Functional analysis of human POT1 and RPA : insights into the role of single stranded DNA binding proteins at telomeres

Abstract Telomeres, the natural ends of chromosomes, need to be protected from chromosome end fusions, aberrant homologous recombination and degradation. In humans, chromosome ends are specified through arrays of tandemly repeated 5'-TTAGGG-3' hexamers, ending in a 3' overhang. A complex formed by the six proteins TRF1, TRF2, hRap1, TIN2, TPP1 and POT1 specifically assocìates with and protects telomeres. Telomeres are maintained by semiconservative DNA replication and by a specialized reverse transcriptase, telomerase, that carries an RNA subunit which templates new telomeric repeat synthesis. The telomeric single stranded (ss) DNA binding protein POT1 protects the telomeric 3' overhang and modulates telomerase-mediated telomere elongation. It is possible that POT1 also influences DNA synthesis during semiconservative DNA replication, which is initiated by the DNA polymerase alpha-primase complex. The heterotrimeric ss DNA-binding protein RPA plays essential roles during DNA replication. RPA binds to ss DNA with high affinity in order to stabilize ss DNA and facilitate nascent strand synthesis at the replication fork. Here we investigate how the two proteins RPA and POT1 contribute to telomere maintenance by regulating semi-conservative DNA replication and telomerase. Using chromatin immunoprecipitation experiments, we show that RPA associates with telomeres during S-phase. Analysis of telomere structure in cells shRNA-depleted for RPA and POT1 reveals that loss of RPA and POT1 causes exposure of single-stranded DNA at telomeres, suggestive of incomplete DNA replication. Biochemical experiments using purified recombinant POT1 and RPA show that saturating telomeric oligonucleotides with POT1 or RPA reduces the primase activity of the DNA polymerase alpha-primase complex and the overall activity of telomerase. POT1 and RPA also increase the primer extension by DNA polymerase alpha-primase complex and the processivity of telomerase under certain conditions, although POT1 increases the activities to a greater extent than RPA. We propose that POT1 is required for proper replication of the lagging strand of telomeres and that some phenotypes observed in POT1-depleted cells may stern from incomplete DNA replication rather than de-protection of the single-stranded overhang. Résumé Les télomères, les extrémités normales des chromosomes linéaires, doivent être protégés des fusions chromosomiques, d'événements de recombinaison homologue aberrants et de phénomènes de dégradation. Chez l'Homme, les extrémités des chromosomes sont constitués d'ADN double brin répétitif de séquence 5'-TTAGGG-3', d'une extension simple brin 3' sortante et d'un complexe protéique formé des six facteurs TRF1, TRF2, hRap1, TIN2, TPP1 et POT1 qui, s'associant à cette séquence, protègent l'ADN télomèrique. Les télomères sont maintenus par la télomérase, une transcriptase inverse capable d'allonger l'extension 3' sortante télomérique. POT1 lie l'ADN simple brin télomérique et module l'élongation des télomères par la télomérase. POT1 pourrait en théorie également influencer la réplication semi-conservative de l'ADN. L'ADN-polymérase Pal alpha-primase amorce et initie la synthèse d'ADN. Pendant la réplication, l'ADN simple brin est stabilisé par RPA, un complexe hétérotrimèrique qui lie l'ADN simple brin. RPA facilite la synthèse du brin naissant à la fourche de réplication. Ici nous avons étudié comment ces deux protéines qui lient l'ADN simple brin, RPA et POT1, régulent la réplication des télomères par la télomérase et la machinerie classique de réplication de l'ADN. Par immunoprécipitation de chromatine (ChIP), nous montrons que RPA est localisé aux télomères lors de la phase S du cycle cellulaire. De plus, l'analyse de la structure des télomeres indique que !a perte de RPA ou de POT1 conduit à l'apparition d'ADN simple brin télomérique, suggérant une réplication incomplète de l'ADN télomérique in vivo. Par une approche complémentaire biochimique utilisant les protéines POT1 et RPA recombinantes purifiées, nous montrons également que la liaison de POT1 ou de RPA à des oligonucléotides télomériques bloque l'activité primase du complexe polymérase alpha/primase et réduit l'activité télomérase sur ces substrats. En revanche, leur liaison augmente l'activité ADN-polymérase du complexe polymérase alpha/primase, ainsi que fa processivité de la télomérase dans certaines conditions, POT1 étant le plus efficace des deux facteurs. Nous proposons que POT1 est nécessaire à la réplication du brin retardé au niveau des télomères, ce qui suggère que certains phénotypes des cellules déplétés en POT1 puissent résulter d'une réplication incomplète de l'ADN télémétrique plutôt que d'une déprotection de l'extrémité sortante des télomères.

Chimioprévention actuelle et visions futures [Present chemoprevention and future vision].

Cancer chemoprevention is defined as the use of natural or synthetic agents to reverse, suppress or prevent carcinogenic progression to invasive cancer. The success of several clinical trials within high-risk patients suggests that chemoprevention is a rational and promising strategy. This review will resume the principal molecular mechanisms of chemoprevention and discuss results and clinical outcome of selected clinical trials. The difficulties in clinical application and future directions will be highlighted.

Precursors of functional MHC class I- or class II-restricted CD8alphaalpha(+) T cells are positively selected in the thymus by agonist self-peptides.

The origin and specificity of alphabeta TCR(+) T cells that express CD8alphaalpha have been controversial issues. Here we provide direct evidence that precursors of functional CD8alphaalpha T cells are positively selected in the thymus in the presence of agonist self-peptides. Like conventional positive selection, this agonist selection process requires functional TCR alpha-CPM, whereas it is independent of CD8beta expression. Furthermore, CD8alphaalpha expression on mature, agonist-selected T cells does not imply selection by MHC class I, and CD8alphaalpha(+) T cells can be either class I or class II restricted. Our data define a distinct agonist-dependent, positive selection process in the thymus, and they suggest a function for CD8alphaalpha distinct from the conventional TCR coreceptor function of CD8alphabeta or CD4.

ARE PPARS NOVEL THERAPEUTIC TARGETS TO IMPROVE MELANOMA TREATMENT ?

Cutaneous melanoma is an aggressive malignant tumor of melanocytes, the pigment- producing cells of the epidermis, with a high incidence in developed countries. Despite some major clinical breakthroughs in the last few years, efficient therapies for metastatic melanoma, which portends a very bad prognosis, are still lacking. Among the potential therapeutic targets that have been attracting at-tention in melanoma are the peroxisome proliferator-activated receptors (PPARs). These members - a, ß and 7 - of the nuclear hormone receptor family, which are ligand-gated transcription factors endowed with a multitude of functions besides metabolism homeostasis, have displayed promising antitumor properties in a wide range of cancer cells, including melanoma. However, our knowledge of PPARs' functions in this skin cancer is far from complete, making the usefulness of any of the a, ß or 7 isotype as a therapeutic target uncertain. In this work, we showed that all three PPAR isotypes are expressed in normal melanocytes, in most melanoma cell lines and in primary and metastatic melanomas, and that PPAR/3 and 7 display transcriptional activity in normal melanocytes and melanoma cells. We also showed that the PPAR7 agonist rosiglitazone had anti-melanoma properties largely independent of PPAR7 expression, which was widely varying across the different cell lines and melanoma biopsies we evaluated and was not correlated with cell line stage. Consistent with the general view of PPAR7 as a tumor suppressor gene, we found that, in human samples, PPAR7 was less expressed in melanoma than in normal skin. Transcriptornic profiling of metastatic melanoma cells in which PPAR7 was pharmacologically modulated revealed an association with epithelial-to-mesenchymal transition, though the functional relevance of this finding remains to be determined. Collectively, our results suggests that PPAR7 activity in melanoma is highly complex and that a straightforward picture of PPAR7's role in this skin cancer is difficult to draw. In this study, we also provided compelling evidence that thioredoxin interacting protein (TXNIP) is, in melanoma, a bona fide PPAR7 target gene, the expression of which is repressed by PPAR7 activation. Although TXNIP is mostly known as an inhibitor of the major antioxidant thioredoxin, it has demonstrated a range of biological functions and is generally considered as a tumor suppressor gene. Consistently, we found that TXNIP expression is associated with growth arrest of melanoma cells in vitro and that forced expression of TXNIP strongly impairs cell proliferation. Interestingly, we also discovered that TXNIP favors melanoma cell migration while it diminishes their adhesion. Finally, we provided several lines of evidence that TXNIP may regulate these processes at the transcriptional level as well as by direct protein-protein interactions in the plasma membrane. Altogether, our findings suggest that the PPAR7 target TXNIP may be a double-edged sword in melanoma, hindering tumor growth but promoting invasion and dissemination. Experiments to evaluate the net biological outcome of TXNIP modulation in vivo are ongoing. -- Le mélanome cutané est une tumeur maligne agressive des mélanocytes, cellules de l'épiderme qui produisent la mélanine. Ce cancer présente un taux d'incidence élevé dans les pays développés et est grevé d'un pronostic très sombre une fois qu'il a disséminé. Malgré les importants progrès réalisés ces dernières années, aucune thérapie lie s'est encore montrée véritablement efficace contre le mélanome métastatique. Parmi les cibles thérapeutiques potentielles, nombre de groupes de recherche se sont penchés sur les peroxisome proliferator-activated receptors (PPARs). Ces récepteurs - a, ß et 7 - font partie de la famille des récepteurs nucléaires aux hormones, des facteurs de transcription activés par des ligands et dotés d'une multitude de fonctions en sus de la régulation du métabolisme. Ces protéines ont démontré des propriétés anti-tumorales prometteuses dans une large gamme de cellules cancéreuses, y compris le mélanome. Cependant, nous connaissons encore très mal les fonctions des PPARs dans ce cancer de la peau, rendant l'utilité thérapeutique de l'un des isotypes a, ß ou 7 incertaine. Dans ce travail, nous avons montré que les trois isotypes sont exprimés dans les mélanocytes normaux, dans la plupart des lignées de mélanome ainsi que dans des mélanomes primaires et métastatiques; nous avons aussi montré que PPAR/3 et 7 sont actifs sur le plan transcriptionnel dans les mélanocytes normaux et les cellules de mélanome. La rosiglitazone, un agoniste de PPAR7, a démontré des propriétés anti-mélanome essentiellement indépendantes de l'expression de PPAR7, qui semble très variable dans les lignées et les biopsies que nous avons évaluées; de plus, l'expression de PPAR7 n'est pas corrélée avec le stade de la lignée. En accord avec la vision communément admise de PPAR7 comme étant un gène suppresseur de tumeur, nous avons observé dans des échantillons humains que PPAR7 est moins exprimé dans les mélanomes que dans la peau normale. Une étude transcrip- tomique de cellules de mélanome métastatique a révélé que la modulation phar-macologique de PPAR7 est associée avec la transition épithélio-mésenchymateuse, même si la pertinence fonctionnelle de cette trouvaille reste à déterminer. Collec-tivement, ces résultats suggèrent que l'activité de PPAR/y dans le mélanome est hautement complexe et qu'une image claire du rôle de PPAR7 dans ce cancer est difficile à dessiner. Dans cette étude, nous avons également fourni de solides preuves que la thiore-doxin interacting protein (TXNIP) est, dans le mélanome, un gène cible bona fide de PPAR7 dont l'expression est réprimée par l'activation de PPAR7. Bien que TXNIP soit surtout connu comme un inhibiteur de la thiorédoxine -un anti-oxydant majeur - cette protéine a démontré une large gamme de fonctions biologiques et est généralement considérée comme un gène suppresseur de tumeur. En accord avec cette conception, nous avons trouvé que l'expression de TXNIP est associée avec l'arrêt de croissance des cellules de mélanome in vitro et que l'expression forcée de TXNIP freine considérablement la prolifération cellulaire. Nous avons aussi découvert que TXNIP favorise la migration des cellules de mélanome alors qu'elle diminue leur adhésion. Enfin, nous avons obtenu plusieurs preuves que TXNIP pourrait réguler ces processus tant au niveau transcriptionnel que par des interactions protéine-protéine au sein de la membrane plasmique. En conclusion, nos résultats suggèrent que la cible de PPAR7 TXNIP pourrait être une épée à double tranchant dans le mélanome, freinant la croissance tumorale mais favorisant l'invasion et la dissémination. Des expériences permettant d'évaluer l'effet biologique net de la modulation de TXNIP in vivo sont en cours.

Autosomal Recessive Posterior Microphthalmos/Nanophthalmos is Caused by Loss-of-function Mutations in LOC646960, a Novel Gene Encoding a Trypsin-like Serine Protease

Purpose: Posterior microphthalmos (MCOP)/nanophthalmos (NNO) is a developmental anomaly characterized by extreme hyperopia due to short axial length. The population of the Faroe Islands shows a high prevalence of an autosomal recessive form (arMCOP). The gene mutated in arMCOP is not yet known.Methods: Genetic mapping by linkage analysis using microsatellite and single nucleotide polymorphisms, mutation analysis by PCR and sequencing, molecular modellingResults: Having refined the position of the disease locus (MCOP6) in an interval of 250 kb in chromosome 2q37.1 in Faroese families, we detected 3 mutations in a novel gene, LOC646960: Patients of 10 different Faroese families were either homozygous (n=22) for c.926G>C (p.Trp309Ser) or compound heterozygous (n=6) for c.926G>C and c.526C>G (p.Arg176Gly), whereas a homozygous 1 bp duplication (c.1066dupC) was identified in patients with arNNO from a Tunisian family. In two unrelated patients with MCOP, no LOC646960 mutation was found. LOC646960 is expressed in the human adult retina and RPE. The expression of the mouse homologue in the eye can be first detected at E17 and is highest in adults. The predicted protein is a 603 amino acid long secreted trypsin-like serine peptidase. c.1066dupC should result in a functional null allele. Molecular modelling of the p.Trp309Ser mutant suggests that both affinity and reactivity of the enzyme towards in vivo substrates are substantially reduced.Conclusions: Postnatal growth of the eye is important for proper development of the refractive components (emmetropization), and is mainly due to elongation of the posterior segment from 10-11 mm at birth to 15-16 mm at the age of 13 years. Optical defocus leads to changes in axial length by moving the retina towards the image plane. arMCOP may theoretically be explained, in line with the expression pattern of LOC646960, by a postnatal growth retardation of the posterior segment.

RAX and anophthalmia in humans: Evidence of brain anomalies.

PURPOSE: To report the clinical and genetic study of two families of Egyptian origin with clinical anophthalmia. To further determine the role of the retina and anterior neural fold homeobox gene (RAX) in anophthalmia and associated cerebral malformations. METHODS: Three patients with clinical anophthalmia and first-degree relatives from two consanguineous families of Egyptian origin underwent full ophthalmologic, general and neurologic examination, and blood tests. Cerebral magnetic resonance imaging (MRI) was performed in the index cases of both families. Genomic DNA was prepared from venous leukocytes, and direct sequencing of all the exons and intron-exon junctions of RAX was performed after PCR amplification. RESULTS: Clinical bilateral anophthalmia was observed in all three patients. General and neurologic examinations were normal; obesity and delay in psychomotor development were observed in the isolated case. Orbital MRI showed a hypoplastic orbit with present but rudimentary extraocular muscles and normal lacrimal glands. Cerebral MRI showed agenesis of the optic nerves, optic tracts, and optic chiasma. In the index case of family A, the absence of the frontal and sphenoidal sinuses was also noted. In the index case of family B, only the sphenoidal sinus was absent, and there was significant cortical atrophy. The three patients carried a novel homozygous c.543+3A>G mutation (IVS2+3A>G) in RAX. Parents were healthy heterozygous carriers. No mutations were detected in orthodenticle homeobox 2 (OTX2), ventral anterior homeobox 1 (VAX1), or sex determining region Y-box 2 (SOX2). CONCLUSIONS: This is the first report of a homozygous splicing RAX mutation associated with autosomal recessive bilateral anophthalmia. To our knowledge, only two isolated cases of anophthalmia, three null and one missense case affecting nuclear localization or the DNA-binding homeodomain, have been found to be caused by compound heterozygote RAX mutations. A novel missense RAX mutation was identified in three patients with bilateral anophthalmia and a distinct systemic and neurologic phenotype. The mutation potentially affects splicing of the last exon and is thought to result in a protein that has an aberrant homeodomain and no paired-tail domain. Functional consequences of this change still need to be characterized.

Electron microscopy of RecA-DNA complexes: Two different states, their functional significance and relation to the solved crystal structure

Seven different electron microscopy techniques habe been employed to study the RecA protein of E. coli. This review provides a summary of the conclusions that have been drawn from these studies, and attempts to relate these observations to models for the role of RecA protein in homologous recombination.