Intraoperative imaging for remnant viability assessment in bilateral posterior retroperitoneoscopic partial adrenalectomy in an experimental model.

BACKGROUND: A surgical approach preserving functional adrenal tissue allows biochemical cure while avoiding the need for lifelong steroid replacement. The aim of this experimental study was to evaluate the impact of intraoperative imaging during bilateral partial adrenalectomy on remnant perfusion and function. METHODS: Five pigs underwent bilateral posterior retroperitoneoscopic central adrenal gland division (9 divided glands, 1 undivided). Intraoperative perfusion assessment included computer-assisted quantitative fluorescence imaging, contrast-enhanced CT, confocal laser endomicroscopy (CLE) and local lactate sampling. Specimen analysis after completion adrenalectomy (10 adrenal glands) comprised mitochondrial activity and electron microscopy. RESULTS: Fluorescence signal intensity evolution over time was significantly lower in the cranial segment of each adrenal gland (mean(s.d.) 0·052(0·057) versus 0·133(0·057) change in intensity per s for cranial versus caudal parts respectively; P = 0·020). Concordantly, intraoperative CT in the portal phase demonstrated significantly lower contrast uptake in cranial segments (P = 0·031). In CLE, fluorescein contrast was observed in all caudal segments, but in only four of nine cranial segments (P = 0·035). Imaging findings favouring caudal perfusion were congruent, with significantly lower local capillary lactate levels caudally (mean(s.d.) 5·66(5·79) versus 11·58(6·53) mmol/l for caudal versus cranial parts respectively; P = 0·008). Electron microscopy showed more necrotic cells cranially (P = 0·031). There was no disparity in mitochondrial activity (respiratory rates, reactive oxygen species and hydrogen peroxide production) between the different segments. CONCLUSION: In a model of bilateral partial adrenalectomy, three intraoperative imaging modalities consistently discriminated between regular and reduced adrenal remnant perfusion. By avoiding circumferential dissection, mitochondrial function was preserved in each segment of the adrenal glands. Surgical relevance Preservation of adrenal tissue to maintain postoperative function is essential in bilateral and hereditary adrenal pathologies. There is interindividual variation in residual adrenocortical stress capacity, and the minimal functional remnant size is unknown. New intraoperative imaging technologies allow improved remnant size and perfusion assessment. Fluorescence imaging and contrast-enhanced intraoperative CT showed congruent results in evaluation of perfusion. Intraoperative imaging can help to visualize the remnant vascular supply in partial adrenalectomy. Intraoperative assessment of perfusion may foster maximal functional tissue preservation in bilateral adrenal pathologies and procedures.

ANTECEDENTES: Un abordaje quirúrgico que preserve la función del tejido suprarrenal permite lograr la curación bioquímica, a la vez que evita la necesidad de tratamiento sustitutivo con corticoides de por vida. El objetivo de este estudio experimental fue evaluar el impacto de las técnicas de imagen intraoperatorias en la suprarrenalectomía parcial (partial adrenalectomy, AE) bilateral sobre la perfusión y función del remanente glandular. MÉTODOS: Cinco cerdos fueron sometidos a una división bilateral central de la glándula suprarrenal por retroperitoneoscopia posterior (n = 9, 1 sin dividir). Durante la intervención, la evaluación de la perfusión incluyó la fluorescencia con cuantificación asistida por ordenador (Realidad Aumentada basada en la Fluorescencia, FLuorescence-based Enhanced Reality, FLER), tomografía computarizada (computed tomography, CT), endomicroscopia con laser confocal (confocal laser endomicroscopy, CLE) y un muestreo local de lactato. El análisis de la pieza quirúrgica tras completar la AE (n = 10) incluyó actividad mitocondrial y microscopia electrónica. RESULTADOS: La evolución de la intensidad de la señal de fluorescencia a lo largo del tiempo (ΔI/s) fue significativamente más baja en el segmento craneal de cada una de las glándulas (0,052 ± 0,057 craneal versus 0,133 ± 0,057 caudal, P = 0,02). De forma concordante, la CT intraoperatoria en la fase portal demostró una captación de contraste significativamente más baja en los segmentos craneales (P = 0,03). En la CLE, el contraste de fluoresceína se observó en todos los segmentos caudales, pero solo en el 44% de los segmentos craneales (P = 0,04). Los hallazgos obtenidos en las pruebas de imagen favorables a la perfusión caudal fueron congruentes con niveles significativamente más bajos de lactato capilar a nivel local (11,58 ± 6,53 mmol/L craneal versus 5,66 ± 5,79 mmol/L caudal, P = 0,008). A nivel craneal, la microscopia electrónica mostró más células necróticas (P = 0,03). La actividad mitocondrial (tasas de respiración, especies reactivas de oxígeno y producción de H2 O2 ) no mostraron disparidad entre los diferentes segmentos. CONCLUSIÓN: En un modelo de AE parcial bilateral, las tres modalidades de pruebas de imagen intraoperatorias podrían discriminar de forma consistente una perfusión regular y reducida del remanente suprarrenal. Al evitar una disección circunferencial, se preservó la función mitocondrial en cada segmento de las glándulas suprarrenales.

Abnormal lipid storage related to adipocyte shrinkage in acquired partial lipodystrophy (Barraquer-Simons syndrome).

BACKGROUND: Acquired partial lipodystrophy (APL) is characterized by the gradual symmetrical loss of subcutaneous fat starting from the face, spreading towards the upper part of the body and sparing the lower extremities. OBJECTIVE: We report a 33-year-old woman with facial lipodystrophy, loss of buccal fat pads and breast fat tissue. The subcutaneous fat was preserved in other anatomic regions, and we noted some excess of fat accumulation in the lower abdomen and thighs. She had a low serum level of C3 that was positive for a polyclonal immunoglobulin C3NeF in the serum. She was diagnosed with APL. METHODS: We examined fat from lipoatrophic and healthy areas and compared it to subcutaneous fat samples from a healthy control. RESULTS: Using scanning electron microscopy, we saw shrunken adipocytes with numerous small lipid droplets detaching from the surface of the adipocytes as compared to the classic aspect of adipose tissue in the control subject where the cytoplasm is occupied by one big lipid droplet. A loss of contact between adipocytes was observed in the APL patient when compared to the normal network of adipocytes in the control subject. The healthy fat seemed not affected by lipoatrophy; we observed normal-sized adipocytes, though their surface was not as regular as in the control samples. CONCLUSION: The significance and mechanism of the electron microscopic findings are unknown, but they suggest adipocyte shrinkage related to a defect in the retaining triglycerides, which could contribute to the pathogenesis of this disorder.

Matrix metalloproteinase-11/stromelysin-3 exhibits collagenolytic function against collagen VI under normal and malignant conditions.

The substrate of matrix metalloproteinase 11 (MMP11) remains unknown. We have recently shown that MMP11 is a negative regulator of adipogenesis, able to reduce and even to revert mature adipocyte differentiation. Here, we have used mouse 3T3L1 cells and human U87MG and SaOS cells to show that MMP11 cleaves the native alpha3 chain of collagen VI, which is an adipocyte-related extracellular matrix component. It is known that extracellular proteolytic processing of this chain is required for correct collagen VI folding. Interestingly, MMP11-deficient fat tissue is less cohesive and exhibits collagen VI alteration, dramatic adipocyte plasma and basement membrane abnormalities and lipid leakage. MMP11 is thus required for correct collagen VI folding and therefore for fat tissue cohesion and adipocyte function. Both MMP11 and collagen VI favor tumor progression. Similar spatio-temporal overexpression at the adipocyte-cancer cell interface has been reported for the two proteins. MMP11-dependent collagen VI processing might therefore be expected to occur during malignancy. Accordingly, collagen VI no longer delineates adipocytes located at the invasive front of breast carcinomas. In conclusion, the native alpha3 chain of collagen VI constitutes a specific MMP11 substrate. This MMP11 collagenolytic activity is functional in fat tissue ontogenesis as well as during cancer invasive steps.

[Genetic dissection of retinoic acid function in epidermis physiology]. / Dissection génétique de la fonction de l'acide rétinoïque dans la physiologie de l'épiderme.

The active metabolite of vitamin A (retinoic acid, RA) acts through the nuclear receptors RARalpha, beta and gamma and RXRalpha, beta and gamma. These receptors form RAR/RXR heterodimers, which bind to genetic regulatory DNA sequences and activate transcription of RA target genes. As RXR form heterodimers with a number of other nuclear receptors, such as the vitamin D3 receptor (VDR) and are involved in several signaling pathways. In the skin, RARgamma and RXRalpha predominate, but RARalpha and RXRbeta are also expressed. To elucidate the role of RA in skin physiology, we produced mutant mouse lines null for RAR or RXR. On the one hand, null mutations for RARa or RXRbeta have no effect on the skin, whereas a RARgamma-null mutation induces alterations in the granular cell layer. On the other, genetic inactivation of RXRa leads to embryonic lethality before epidermal development. Consequently, to determine the role of RXRa in adult mice, studies were performed using conditional somatic mutagenesis (permitting inactivation of a given gene in a specific tissue and in a time-dependent manner). Using this novel genetic approach, mutant mice were obtained in which RXRalpha was not expressed in the skin. These mice developed hair follicle degeneration, then alopecia, similar to that observed in VDR-null mutants, suggesting that hair follicle homeostasis depends on RXRalpha/VDR heterodimers. A similar genetic approach applied to the RARgamma locus demonstrated that topical administration of RA on the skin activates RARgamma/RXR heterodimers in suprabasal cells, and induces expression of a paracrine growth factor (HB-EGF) in these cells which, in turn, stimulates the proliferation of basal cells.

Ablation of serotonin 5-HT(2B) receptors in mice leads to abnormal cardiac structure and function.

BACKGROUND: Identification of factors regulating myocardial structure and function is important to understand the pathogenesis of heart disease. Because little is known about the molecular mechanism of cardiac functions triggered by serotonin, the link between downstream signaling circuitry of its receptors and the heart physiology is of widespread interest. None of the serotonin receptor (5-HT(1A), 5-HT(1B), or 5-HT(2C)) disruptions in mice have resulted in cardiovascular defects. In this study, we examined 5-HT(2B) receptor-mutant mice to assess the putative role of serotonin in heart structure and function. METHODS AND RESULTS: We have generated G(q)-coupled 5-HT(2B) receptor-null mice by homologous recombination. Surviving 5-HT(2B) receptor-mutant mice exhibit cardiomyopathy with a loss of ventricular mass due to a reduction in number and size of cardiomyocytes. This phenotype is intrinsic to cardiac myocytes. 5-HT(2B) receptor-mutant ventricles exhibit dilation and abnormal organization of contractile elements, including Z-stripe enlargement and N-cadherin downregulation. Echocardiography and ECG both confirm the presence of left ventricular dilatation and decreased systolic function in the adult 5-HT(2B) receptor-mutant mice. CONCLUSIONS: Mutation of 5-HT(2B) receptor leads to a cardiomyopathy without hypertrophy and a disruption of intercalated disks. 5-HT(2B) receptor is required for cytoskeleton assembly to membrane structures by its regulation of N-cadherin expression. These results constitute, for the first time, strong genetic evidence that serotonin, via the 5-HT(2B) receptor, regulates cardiac structure and function.

Embryonic retinoic acid synthesis is essential for heart morphogenesis in the mouse.

Retinoic acid (RA), the active derivative of vitamin A, has been implicated in various steps of cardiovascular development, but its contribution to early heart morphogenesis has not been clearly established in a mammalian system. To block endogenous RA synthesis, we have disrupted the gene encoding RALDH2, the first retinaldehyde dehydrogenase whose expression has been detected during early mouse post-implantation development. We describe here the heart abnormalities of the RA-deficient Raldh2 mutants that die in utero at gestational day 10.5. The embryonic heart tube forms properly, but fails to undergo rightward looping and, instead, forms a medial distended cavity. Expression of early heart determination factors is not altered in mutants, and the defect in heart looping does not appear to involve the Nodal/Lefty/Pitx2 pathway. Histological and molecular analysis reveal distinct anteroposterior components in the mutant heart tube, although posterior chamber (atria and sinus venosus) development is severely impaired. Instead of forming trabeculae, the developing ventricular myocardium consists of a thick layer of loosely attached cells. Ultrastructural analysis shows that most of the ventricular wall consists of prematurely differentiated cardiomyocytes, whereas undifferentiated cells remain clustered rostrally. We conclude that embryonic RA synthesis is required for realization of heart looping, development of posterior chambers and proper differentiation of ventricular cardiomyocytes. Nevertheless, the precise location of this synthesis may not be crucial, as these defects can mostly be rescued by systemic (maternal) RA administration. However, cardiac neural crest cells cannot be properly rescued in Raldh2(-/- )embryos, leading to outflow tract septation defects.

RXR-alpha ablation in skin keratinocytes results in alopecia and epidermal alterations.

RXR-alpha is the most abundant of the three retinoid X receptors (RXRs) in the epidermis. In this study, we have used Cre-mediated recombination to selectively disrupt the mouse gene for RXR-alpha in epidermal and hair follicle keratinocytes. We show that RXR-alpha is apparently dispensable for prenatal epidermal development, while it is involved in postnatal skin maturation. After the first hair pelage, mutant mice develop a progressive alopecia, histologically characterised by the destruction of hair follicle architecture and the formation of utriculi and dermal cysts in adult mice. Our results demonstrate that RXR-alpha plays a key role in anagen initiation during the hair follicle cycle. In addition, RXR-alpha ablation results in epidermal interfollicular hyperplasia with keratinocyte hyperproliferation and aberrant terminal differentiation, accompanied by an inflammatory reaction of the skin. Our data not only provide genetic evidence that RXR-alpha/VDR heterodimers play a major role in controlling hair cycling, but also suggest that additional signalling pathways mediated by RXR-alpha heterodimerised with other nuclear receptors are involved in postnatal hair follicle growth, and homeostasis of proliferation/differentiation of epidermal keratinocytes and of the skin's immune system.

Skin abnormalities generated by temporally controlled RXRalpha mutations in mouse epidermis.

Nuclear receptors for retinoids (RARs) and vitamin D (VDR), and for some other ligands (TRs, PPARs and LXRs), maybe critical in the development and homeostasis of mammalian epidermis. It is believed that these receptors form heterodimers with retinoid X receptors (RXRs) to act as transcriptional regulators. However, most genetic approaches aimed at establishing their physiological functions in the skin have been inconclusive owing either to pleiotropic effects and redundancies between receptor isotypes in gene knockouts, or to equivocal interpretation of dominant-negative mutant studies in transgenic mice. Moreover, knockout of RXRalpha, the main skin RXR isotype, is lethal in utero before skin formation. Here we have resolved these problems by developing an efficient technique to create spatiotemporally controlled somatic mutations in the mouse. We used tamoxifen-inducible Cre-ER(T) recombinases to ablate RXRalpha selectively in adult mouse keratinocytes. We show that RXRalpha has key roles in hair cycling, probably through RXR/VDR heterodimers, and in epidermal keratinocyte proliferation and differentiation.

Serotonin 2B receptor is required for heart development.

Several lines of evidence suggest that the serotonin (5-hydroxytryptamine, 5-HT) regulates cardiovascular functions during embryogenesis and adulthood. 5-HT binds to numerous cognate receptors to initiate its biological effects. However, none of the 5-HT receptor disruptions in mice have yet resulted in embryonic defects. Here we show that 5-HT(2B) receptor is an important regulator of cardiac development. We found that inactivation of 5-HT(2B) gene leads to embryonic and neonatal death caused by heart defects. 5-HT(2B) mutant embryos exhibit a lack of trabeculae in the heart and a specific reduction in the expression levels of a tyrosine kinase receptor, ErbB-2, leading to midgestation lethality. These in vivo data suggest that the Gq-coupled receptor 5-HT(2B) uses the signaling pathway of tyrosine kinase receptor ErbB-2 for cardiac differentiation. All surviving newborn mice display a severe ventricular hypoplasia caused by impaired proliferative capacity of myocytes. In adult mutant mice, cardiac histopathological changes including myocyte disarray and ventricular dilation were consistently observed. Our results constitute genetic evidence that 5-HT via 5-HT(2B) receptor regulates differentiation and proliferation of developing and adult heart. This mutation provides a genetic model for cardiopathy and should facilitate studies of both the pathogenesis and therapy of cardiac disorders in humans.

Targeted somatic mutagenesis in mouse epidermis.

Gene targeting in the mouse is a powerful tool to study mammalian gene function. The possibility to efficiently introduce somatic mutations in a given gene, at a chosen time and/or in a given cell type will further improve such studies, and will facilitate the generation of animal models for human diseases. To create targeted somatic mutations in the epidermis, we established transgenic mice expressing the bacteriophage P1 Cre recombinase or the tamoxifen-dependent Cre-ER(T2) recombinase under the control of the human keratin 14 (K14) promoter. We show that LoxP flanked (floxed) DNA segments were efficiently excised in epidermal keratinocytes of K14-Cre transgenic mice. Furthermore, Tamoxifen administration to adult K14-Cre-ER(T2) mice efficiently induced recombination in the basal keratinocytes, whereas no background recombination was detected in the absence of ligand treatment. These two transgenic lines should be very useful to analyse the functional role of a number of genes expressed in keratinocytes.

MDM2 overexpression generates a skin phenotype in both wild type and p53 null mice.

The MDM2 proto-oncogene is overexpressed in human tumours and regulates the activities of the tumour suppressors p53 and pRB. We created mice that overexpress MDM2 under the control of the CMV promoter. These mice did not display an increased tumour incidence, but rather a specific skin phenotype, characterized by desquamation and hyperkeratosis. Transgenic MDM2 was found to be overexpressed in the epidermis, a tissue that normally expresses high levels of MDM2. The phenotype appeared during the first week after birth and then lessened with age, closely following the level of expression of the transgene. MDM2 overexpression was associated with an increase in proliferation in the basal layer, thickening of the epidermis, altered expression of the differentiation markers cytokeratin CK14, CK10 and CK1, and a decrease in the size and the number of granules that contain products of differentiation. Transgenic mice on a p53 null background displayed similar although not identical changes, showing that the effects of MDM2 are to a certain degree p53 independent. The skin is a major site of MDM2 expression in mice, raising the possibility that MDM2 overexpression perturbs the normal pattern of MDM2 expression and inhibits differentiation of the epidermis.

Essential role of alpha 6 integrins in cortical and retinal lamination.

Extracellular matrix (ECM) is believed to play important roles in many aspects of nervous system development [1]. The laminins are ECM glycoproteins expressed in neural tissues and are potent stimulators of neurite outgrowth in vitro [1-3]. Genetic approaches using Drosophila and Caenorhabditis elegans have demonstrated a role for laminin and a laminin receptor in vivo in axon pathfinding and fasciculation, respectively [4,5]. In higher organisms, however, the role of laminins in the development of the nervous system is poorly understood. Integrins alpha 6 beta 1 and alpha 6 beta 4 are major laminin receptors. A role for the alpha 6 integrin in neurulation has been reported in amphibians [6]. We previously described mice lacking integrin alpha 6; these mice died at birth with severe skin blistering [7]. Detailed analyses of integrin alpha 6-/- mice reported here revealed abnormalities in the laminar organization of the developing cerebral cortex and retina. Ectopic neuroblastic outgrowths were found on the brain surface and in the vitreous body in the eye. Alterations of laminin deposition were found in mutant brains. Thus, this study provides evidence for an essential role of integrin-laminin interactions in the proper development of the nervous system. These observations are particularly significant given the recent report that human patients suffering from epidermolysis bullosa can carry mutations in ITGA6, the gene encoding the alpha 6 integrin chain [8,9].

Contribution of retinoic acid receptor beta isoforms to the formation of the conotruncal septum of the embryonic heart.

To investigate the relative contribution of retinoic acid receptor (RAR)beta isoforms in conotruncal septation, RAR beta 1 and beta 3 were inactivated in the mouse. Mice lacking RAR beta 1 and beta 3 appear normal. Disruption of these isoforms in RAR alpha or RAR gamma null genetic backgrounds results in a high postpartum lethality. However, except for ocular defects found in RAR beta 1-3/RAR gamma compound mutants, the double null mutants display only abnormalities seen in single null mutants. This probably reflects a functional redundancy with other RARs, most notably with RAR beta 2 which is five- to sixfold more abundant than RAR beta 1 and beta 3 and whose domain of expression is largely overlapping. The conotruncal ridges form normally in retinoid X receptor (RXR)alpha/RAR beta compound mutants but fail to fuse, apparently as a result of excessive apoptosis of mesenchymal cells. Additionally, many cardiomyocytes in the conotruncal wall of these mutants appear necrotic. Although RAR beta 1 and beta 3 are expressed specifically in the conotruncal ridges, failure of fusion of these structures is not more frequent in RXR alpha/RAR beta 1-3 double null mutants than in RXR alpha single null mutants. Similarly, the disruption of the sole RAR beta 2 isoform in a RXR alpha null genetic background does not result in an increase of the frequency of conotruncal septum agenesis. However, this agenesis is fully penetrant in RXR alpha/RAR beta +/- mutants, which reflects distinct role of RXR alpha:RAR beta 1 (and beta 3) and RXR alpha:RAR beta 2 heterodimers in promoting the survival of conotruncal mesenchymal cells. Unexpectedly, we discovered that, in wild-type embryos, the conotruncal mesenchyme is a major site of morphogenetic cell death and that conotruncal myocytes are occasionally necrotic. Thus, excessive cell death in the conotruncus is a potential cause of ventricular septal defects in humans.

Preparing for preimplantation genetic diagnosis in France.

Preimplantation genetic diagnosis (PGD) allows the detection of genetic defects before implantation, thus circumventing the possible need for abortion. France's current legislation allows the practice of PGD under certain circumstances which include the prerequisite agreement of the French health authority. Unfortunately, to enact the pending 'bioethical law', voted in July 1994, a decree still needs to be published. So, for the moment, although we know that PGD should be authorized, its practice is currently impossible in France. In order to prepare for licensing, we are setting up the relevant technologies, by performing biopsy on mouse embryos and fluorescent in-situ hybridization (FISH) experiments on human lymphoblast cells. We briefly describe the French legal situation with regard to PGD and the work we have performed in this context to obtain the licensing to offer PGD to patients. After a period of preparation, 95.9% of biopsies were successful and up to 95.4% of the biopsied blastomeres were properly spread onto slides. Biopsied and control mouse embryos were reimplanted into pseudopregnant females and similar birth rates were obtained (34.4 and 30.9% respectively). In these experiments we noticed a birth delay of 12-24 h for the biopsied embryos compared with the controls. Furthermore, scanning electron microscopy of the biopsied embryos allowed assessment of the hole made by the Tyrode's acid. By intercrossing adults derived from biopsied embryos for two successive generations, it was shown that the biopsy did not generate defects affecting their reproductive ability. FISH experiments were performed using specific probes for chromosomes X, Y and 1 on nuclei spread by a conventional protocol or a Tween/HCl blastomere spreading protocol; in the latter case, slides with 1-5 cells were prepared. A similar percentage of correct X,Y,1,1 signal was obtained from all three types of spreading, varying from 85.5 to 89.9%.

Role of the retinoic acid receptor beta (RARbeta) during mouse development.

Homozygous RAR beta mutants are growth-deficient, but are fertile and have a normal longevity. They display homeotic transformations and malformations of cervical vertebrae and a retrolenticular membrane. This latter abnormality arises from the persistence and hyperplasia of the primary vitreous body. In contrast, we found that abnormalities of cranial nerves IX and X which were previously proposed to be specific features of the RAR beta mutant phenotype (Luo et al., Mech. Dev. 53: 61-71, 1995) occur with the same low penetrance in wildtype littermates. Although the RAR beta protein is expressed at high levels in the striatum and interdigital mesenchyme, the brain and limbs of RAR beta mutants appear morphologically normal. RAR alpha/RAR beta double mutants display numerous visceral abnormalities, most of which are incompatible with post-natal life. The majority of these abnormalities was previously detected in RAR alpha/RAR beta2 mutants with the notable exceptions of agenesis of the stapedial (2nd aortic arch-derived) artery, thymic and spleen agenesis and abnormal inferior vena cava. RAR beta/RAR gamma double mutants show major ocular defects including a shortening of the ventral retina and pre-natal retinal dysplasia, both of which represent the only abnormalities of the fetal vitamin-A deficiency (VAD) syndrome not previously detected in RAR beta2/RAR gamma compound mutants. In addition, RAR beta is apparently functionally redundant with either RAR alpha or RAR gamma for the formation of a small subset of craniofacial skeletal elements, as well as for eyelid development and digit separation. We also provide evidence that, at least in some instances, this phenomenon of functional redundancy between RARs may be an artifactual consequence of gene knock-out.

5-HT2B receptor-mediated serotonin morphogenetic functions in mouse cranial neural crest and myocardiac cells.

During embryogenesis, serotonin has been reported to be involved in craniofacial and cardiovascular morphogenesis. The detailed molecular mechanisms underlying these functions, however remain unknown. From mouse and human species, we have recently reported the cloning of 5-HT2B receptors which share signal transduction pathways with other 5-HT2 receptor subtypes (5-HT2A and 5-HT2C). In addition to phospholipase C stimulation, it appears that these three subtypes of receptor transduce a common serotonin-induced mitogenic activity, which could be important for cell differentiation and proliferation. We have first investigated the expression of 5-HT2 receptor mRNAs in the mouse embryo. Interestingly, a peak of 5-HT2B receptor mRNA expression was detected 8-9 days postcoitum, whereas there was only low level 5-HT2A and no 5-HT2C receptor mRNA expression at this stage. Expression of this receptor was confirmed by binding assays using a 5-HT2-specific ligand which revealed a peak of binding to membrane preparations from 9 days postcoitum embryos. In addition, whole mount in situ hybridisation and immunohistochemistry on similar stage embryos detected 5-HT2B expression in neural crest cells, heart myocardium and somites. The requirement for functional 5-HT2B receptors between 8 and 9 days postcoitum is supported by culture of embryos exposed to 5-HT2-specific ligands; 5-HT2B high-affinity antagonist such as ritanserin, induced morphological defects in the cephalic region, heart and neural tube. These antagonistic treatments interfere with cranial neural crest cell migration, induce their apoptosis, and are responsible for abnormal sarcomeric organisation of the subepicardial layer and for the absence of the trabecular cell layer in the ventricular myocardium. This report indicates for the first time that 5-HT2B receptors are actively mediating the action of serotonin on embryonic morphogenesis, probably by preventing the differentiation of cranial neural crest cells and myocardial precursor cells.

Developmental expression pattern of Stra6, a retinoic acid-responsive gene encoding a new type of membrane protein.

Retinoic acid plays important roles in development, growth and differentiation by regulating the expression of target genes. A new retinoic acid-inducible gene, Stra6, has been identified in P19 embryonal carcinoma cells using a subtractive hybridization cDNA cloning technique. Stra6 codes for a very hydrophobic membrane protein of a new type, which does not display similarities with previously characterized integral membrane proteins. Stra6, which exhibits a specific pattern of expression during development and in the adult, is strongly expressed at the level of blood-organ barriers. Interestingly, in testis Sertoli cells, Stra6 has a spermatogenic cycle-dependent expression which is lost in testes of RAR alpha null mutants where Stra6 is expressed in all tubules. We suggest that the Stra6 protein may be a component of an as yet unidentified transport machinery.

Spatio-temporally controlled site-specific somatic mutagenesis in the mouse.

The efficient introduction of somatic mutations in a given gene, at a given time, in a specific cell type will facilitate studies of gene function and the generation of animal models for human diseases. We have shown previously that conditional recombination-excision between two loxP sites can be achieved in mice by using the Cre recombinase fused to a mutated ligand binding domain of the human estrogen receptor (Cre-ERT), which binds tamoxifen but not estrogens. DNA excision was induced in a number of tissues after administration of tamoxifen to transgenic mice expressing Cre-ERT under the control of the cytomegalovirus promoter. However, the efficiency of excision varied between tissues, and the highest level ( approximately 40%) was obtained in the skin. To determine the efficiency of excision mediated by Cre-ERT in a given cell type, we have now crossed Cre-ERT-expressing mice with reporter mice in which expression of Escherichia coli beta-galactosidase can be induced through Cre-mediated recombination. The efficiency and kinetics of this recombination were analyzed at the cellular level in the epidermis of 6- to 8-week-old double transgenic mice. We show that site-specific excision occurred within a few days of tamoxifen treatment in essentially all epidermis cells expressing Cre-ERT. These results indicate that cell-specific expression of Cre-ERT in transgenic mice can be used for efficient tamoxifen-dependent, Cre-mediated recombination at loci containing loxP sites to generate site-specific somatic mutations in a spatio-temporally controlled manner.

Vitamin A deficiency and mutations of RXRalpha, RXRbeta and RARalpha lead to early differentiation of embryonic ventricular cardiomyocytes.

Knock-out of the mouse RXRalpha gene was previously shown to result in a hypoplastic heart ventricular wall, histologically detectable in 12.5 dpc fetuses. We show here that a precocious differentiation can be detected as early as 8.5 dpc in ventricular cardiomyocytes of RXRalpha(-/-) mutants. This precocious differentiation, which is characterized by the presence of striated myofibrils, sarcoplasmic reticulum and intercalated disks, is found after 9.5 dpc in about 50% of RXRalpha(-/-) subepicardial myocytes. In contrast, wild-type subepicardial myocytes remain morphologically undifferentiated up to at least 16.5 dpc. A similar precocious differentiation was observed in 9.5 dpc subepicardial myocytes of several RXRbeta(-/-) and RARalpha(-/-) mutants, as well as in vitamin A-deficient embryos. The proportion of differentiated subepicardial myocytes almost reached 100% in RXRalpha/RXRbeta double null mutants, indicating a partial functional redundancy between RXRalpha and RXRbeta. This differentiation defect was always paralleled by a decrease in the mitotic index. In addition, subepicardial myocytes of RXRalpha(-/-), RXRalpha(-/-)/RXRbeta(-/-) or vitamin A deficient, but not of RXRbeta(-/-) and RARalpha(-/-) embryos, were often flattened and more loosely connected to one another than those of WT embryos. Thus, retinoids are required at early stages of cardiac development to prevent differentiation, support cell proliferation and control the shape of ventricular myocytes, and both RXRs and RARs participate in the mediation of these functions.

Reevaluation of the taxonomic status of the Culicoides spp. (Diptera:Ceratopogonidae) from Israel and the eastern Mediterranean and review of their potential medical and veterinary importance.

Fifty-eight Culicoides species were recorded in Israel, the Golan Heights, and Sinai. Culicoides arabiensis and C. near iranica were recorded for the first time. Culicoides kurensis was identified instead of the misidentified C. badooshensis. Of the Culicoides species that appeared as distinct species in previous publications, it is now recognized that C. subravus is a synonym of C. ravus, C. cubitalis is a synonym of C. kibunensis, and C. saevanicus is a synonym of C. griseidorsum. The potential medical/veterinary importance of the vector species is reviewed.