Heterotopic, not homotopic, fetal occipital allografts in adult hosts project to visual-related extracortical targets.

PURPOSE: Fetal occipital allografts implanted into the posterior cortex of adult mice project massively throughout the ipsilateral pallium of the host, but rarely outside this domain (Gaillard et al., 2004). The present study was undertaken to examine in detail whether this pattern is specific to graft location. METHODS: Cortical fragments corresponding to presumptive occipital areas were harvested from E15 mice fetuses expressing ubiquitously the eGFP protein, and implanted in correct (homotopic) and incorrect (heterotopic) cortical loci in wild-type adults. Two months later, efferents were detected by immunohistochemistry and quantified on selected DAB-treated sections. RESULTS: The present findings show (i) that robust projections are present in the ipsilateral host cortex regardless of the graft location; (ii) that 55% the grafts located in parietal and frontal cortices have obvious but sparse callosal and subcortical projections; and (iii) that grafts placed in occipital areas never contact ipsilateral subcortical targets, likely because graft-related axons are unable to cross obliquely the thalamocortical fascicles in the underlying white matter. CONCLUSIONS: These puzzling results question the use of transplantation strategies for repairing damaged networks in adults where rewiring involves complex white matter trajectories.

Efeito do nível de uréia na dieta sobre o desempenho, a qualidade e o estádio de desenvolvimento embrionário em cabras Alpinas / Effect of the dietary urea level on performance, quality and embryonic development stage on Alpine goats

Utilizaram-se 22 cabras da raça Alpina, distribuídas aleatoriamente em quatro tratamentos (T): as cabras do T1 (n=5) formaram o grupo-controle; as do T2 (n=7) receberam 0,73 por cento de uréia na matéria seca da dieta; as do T3 (n=4) receberam 1,46 por cento de uréia; e as do T4 (n=6), 2,24 por cento de uréia. As cabras foram superovuladas e os embriões, coletados entre sete e oito dias após a primeira monta, foram avaliados quanto à qualidade e ao estádio de desenvolvimento. Amostras de sangue para dosagem dos teores de uréia e glicose foram coletadas nos dias do estro e da coleta de embriões. Houve efeito linear crescente do nível de uréia nas dietas sobre o consumo de MS (kg/dia) e de proteína bruta (kg/dia). O peso das cabras não diferiu (P>0,05) entre os tratamentos nem entre as semanas experimentais. Dezoito cabras (81,8 por cento) manifestaram estro após a sincronização. A duração do estro e o intervalo da remoção da esponja ao início do estro não foram influenciados (P>0,05) pelos tratamentos. Quatorze cabras (77,8 por cento) responderam à superovulação. O número de estruturas e de embriões coletados não diferiu (P>0,05) entre os tratamentos. O número (Y= 10,90 - 11,64NS U + 4,93§U²; R² = 0,67; P<0,10) e a percentagem (Y= 94,08 - 39,59NS U + 18,16ªU²; R² = 0,94; P<0,07) de embriões viáveis, e o número (Y= 10,83- 12,18NS U + 5,02mU²; R² = 0,78; P<0,08) e a percentagem (Y= 94,83- 52,31NS U + 21,56*U²; R² = 0,90; P<0,05) de embriões excelentes e bons apresentaram comportamento quadrático em função do nível de uréia nas dietas. Os teores de uréia e glicose no plasma não foram influenciados (P>0,05) pelos tratamentos. A uréia pode ser fornecida no nível de 2,24 por cento na MS da dieta de cabras não lactantes

Twenty-two Alpine goats were allocated at random into four treatments: 0.0 percent (T1 - control, n=5); 0.73 percent (T2, n=7); 1.46 percent (T3, n=4) or 2.24 percent (T4, n=6) of urea in the dry matter (DM) of the diet. Embryos collected from 7 to 8 days after mating of superovulated goat were evaluated by quality and development stage. Blood samples for urea and glucose analyses were collected at estrus and at embryos collection day. The DM (kg/day) and crude protein (kg/day) intake increased linearly in function of dietary urea level. Goat body weights were not affected by treatments out experimental weeks (P>0.05). Eighteen goats (81.8 percent) came in estrus after the synchronization. The estrus length and the interval from sponge removal to the beginning of estrus were not affected (P>0.05) by treatments. Fourteen goats (77.8 percent) were responsive to superovulation protocol. The levels of urea (treatments) did not affect structures and embryo numbers (P>0.05). Number (Y= 10.90 - 11.64NS U + 4.93§U²; R²= 0.67; P<0.10) and percentage (Y= 94.08 - 39.59NS U + 18.16ªU²; R²= 0.94; P<0.07) of viable embryos, and number (Y= 10.83- 12.18NS U + 5.02mU²; R²= 0.78; P<0.08) and the percentage (Y= 94.83- 52.31NS U + 21.56*U²; R²= 0.90; P<0.05) of excellent and good embryos were quadraticaly effected by urea dietary level. The treatments did not affect plasma urea and glucose levels (P>0.05). Diets for no nursing goats can be supplied by urea at 2.24 percent of DM

Molt and reproduction of the European green crab Carcinus maenas (Decapoda: Portunidae) in Patagonia, Argentina

The green crab Carcinus maenas, a decapod crustacean native to the northeastern Atlantic, has beeninvading distant areas, mainly for the last 25 years. This species is currently distributed along the coasts of thenortheastern Pacific, South Africa, Japan, South Australia, Tasmania, and western and eastern North America,among others. Here we provide information on the biology of the green crab occurring in the central area of SanJorge Gulf, Argentina, where it has been established since 1999-2000. Crabs of both sexes were hand-collectedbetween January 2004 and May 2005 from the intertidal zone and the upper sublittoral fringe. Sex, carapacewidth and molting stage were recorded. The reproductive status of males was based on the presence of sperm andspermatophores in testes and deferent ducts, and that of females on ovarian development and presence-absenceof eggs. Stages of embryonic development for ovigerous females were also recorded. The most importantphysiological events taking place during the annual cycle of the adult population were as follows: (1) male moltoccurred mainly in November and female molt between January and the beginning of March; (2) the reproductiveseason started in January, after a courtship in which the male, larger in size, holds the female until the molt,and spermatophores are ejaculated once the old exoskeleton is cast off; (3) females left the intertidal zone earlyand moved to lower littoral levels during fall and winter; (4) larvae appeared in September.

El cangrejo verde europeo es un crustáceo decápodo originario del Océano Atlántico nororiental, el cual principalmente en los últimos 25 años ha invadido, entre otros, el Pacífico nororiental, Sudáfrica, Japón, sur de Australia, Tasmania y ambas costas de América del Norte. Aquí resumimos las observaciones biológicas en el área central del Golfo San Jorge, Argentina, donde este cangrejo se ha instalado a partir de 1999 ó 2000. Recolectamos manualmente muestras de ambos sexos entre enero de 2004 y mayo de 2005 en el intermareal y la franja superior del sublitoral. La muda de los machos ocurre principalmente en noviembre y la de las hembras, entre enero y principios de marzo. La época reproductiva se inicia en enero, con un cortejo previo donde el macho, de mayor talla que la hembra, la retiene hasta la muda y, una vez desprendido el viejo exoesqueleto, se produce la eyaculación de los espermatóforos. Las hembras abandonan tempranamente el intermareal y migran a niveles inferiores del litoral durante el otoño e invierno, eclosionando las larvas en setiembre.

Interpopulation variation in life-history traits of Poeciliopsis prolifica: implications for the study of placental evolution.

Placental reproduction is widespread across vertebrate taxa, but little is known about its life-history correlates and putative adaptive value. We studied variation in life-history traits in two populations of the placental poeciliid fish Poeciliopsis prolifica to determine whether differences in post-fertilization maternal provisioning to embryos have a genetic basis and how food availability affects reproduction. Life histories were characterized for wild-caught females and for second-generation lab-born females raised under two levels of food availability. We found that the two populations did not differ significantly in the wild for any life-history traits except for the lipid dry weight in females and in embryos at an advanced stage of development. When environmental effects were experimentally controlled, however, populations exhibited significant differences in several traits, including the degree of maternal provisioning to embryos. Food availability significantly affected female size at first parturition, brood size and offspring dry weight at birth. Altogether, these results demonstrate that population differences in maternal provisioning and other life-history traits have a genetic basis and show a plastic response to food availability. We infer that phenotypic plasticity may mask population differences in the field. In addition, when comparing life-history patterns in these two populations with known patterns in placental and non-placental poeciliids, our results support the hypotheses that placentation is an adaptive reproductive strategy under high-resource conditions but that it may represent a cost under low-food conditions. Finally, our results highlight that age at maturity and reproductive allotment may be key life-history traits accompanying placental evolution.

Oocyte activation and preimplantation development of bovine embryos obtained by specific inhibition of cyclin-dependent kinases

The efficiency of bohemine and roscovitine in combination with ionomycin on parthenogenetic activation and initial embryonic development of bovine oocytes was studied. Two experiments were performed: in the first, different concentrations (0, 50, 75 or 100æM) and different exposure periods (2, 4 or 6 hours) to bohemine or roscovitine were tested for activation rates of in vitro matured (IVM) bovine oocytes, which were pre-exposed to ionomycin. The best treatments, 75µM bohemine and 50µM roscovitine, both for 6h, were used in the second experiment, in which IVM bovine oocytes were exposed to ionomycin, followed or not by bohemine or roscovitine treatment, and evaluated for nuclear status, activation rate and blastocyst development were assessed. The combined treatments (ionomycin + cyclin-dependent kinases inhibitors - CDKIs) showed better results for activation rates (77.3 percent) and initial embryonic development (35.2 percent) than the single ionomycin treatment (69.4 percent for activation and 21.9 percent for development); and also lead to a more uniform activation (nearly 90 percent single pronucleus development). The results showed that CDKIs improve the effects of ionomycin on parthenogenetic activation and blastocyst development in bovine oocytes and could help to achieve more efficient activation protocols, increasing the developmental competence of embryos obtained by reproductive biotechniques.

Realizaram-se dois experimentos para avaliar a eficiência da bohemina e roscovitina associadas à ionomicina para ativação partenogenética e desenvolvimento embrionário inicial de bovinos. No primeiro, foram testadas diferentes concentrações (0, 50, 75 ou 100æM) e diferentes tempos de exposição (2, 4 ou 6 horas) à bohemina ou à roscovitina na ativação de oócitos bovinos maturados in vitro (MIV) pré-expostos à ionomicina. Os melhores tratamentos, bohemina 75µM e roscovitina 50µM, ambos por seis horas, foram utilizados no segundo experimento, no qual oócitos bovinos MIV foram expostos à ionomicina seguido ou não pelo tratamento com inibidores específicos das quinases dependentes de ciclina (CDKI), e avaliados quanto à configuração nuclear, taxa de ativação e desenvolvimento até blastocisto. Os tratamentos combinados (ionomicina+CDKI) apresentaram melhor taxa de ativação (77,3 por cento) e desenvolvimento embrionário inicial (35,2 por cento) do que a ionomicina sozinha (69,4 por cento e 21,9 por cento, respectivamente), e também promoveram ativação mais uniforme (aproximadamente 90 por cento de formação de um pronúcleo). Estes resultados demonstram que os CDKIs potencializam o efeito da ionomicina na ativação e desenvolvimento embrionário inicial e podem auxiliar na obtenção de protocolos de ativação mais eficientes, aumentando a capacidade de desenvolvimento de embriões produzidos por meio de biotécnicas reprodutivas.

Influência do diâmetro e da fase folicular sobre a competência in vitro de oócitos obtidos de novilhas da raça Nelore / Influence of diameter and follicular fase on the in vitro competence of oocytes from Nelore heifers

Avaliou-se o efeito do diâmetro e da fase do desenvolvimento folicular sobre a competência de oócitos para a produção in vitro de embriões bovinos. A primeira onda folicular foi sincronizada com progestógeno por nove dias e 24 horas após a sua retirada aplicou-se LH. Os ovários foram recuperados 60h (G-60), 96h (G-96) e 108h (G-108) após a ovulação induzida pelo LH. Os folículos foram dissecados ou aspirados e medidos e os oócitos recuperados e submetidos à maturação, fecundação e cultivo in vitro. Os ovários do G-60 apresentaram mais oócitos viáveis (graus I, II e III) (96,6 por cento). A taxa de clivagem teve efeito significativo sobre o diâmetro folicular, sendo maior nos oócitos oriundos de folículos classe 3 (>7mm). Na taxa de produção de blastocisto observou-se interação diâmetro versus fase de desenvolvimento folicular. A taxa de produção de blastocisto foi maior em oócitos obtidos de folículos com diâmetros <5mm (classe 1) no G-60 (64,5 por cento), de 5-7mm (classe 2) no G-96 (33,3 por cento) e >7mm (classe 3) no G-108 (50 por cento). Conclui-se que o diâmetro e a fase de desenvolvimento folicular influenciam a competência oocitária para o desenvolvimento in vitro. Nos estádios iniciais da onda folicular a produção de blastocisto foi maior em oócitos de folículos pequenos; com o avanço da onda, a produção de blastocistos foi maior em oócitos obtidos de folículos maiores.

The effect of follicular phase and follicle diameter on in vitro production of bovine embryos was evaluated. Follicular wave was synchronized in Nelore heifers with a progestogen for nine days and LH was administered 24 hours after progestogen withdrawal. Ovaries were recovered 60h (G-60), 96 h (G-96), or 108 h (G-108) after LH treatment. Ovarian follicles were dissected or aspirated and measured before oocytes were recovered and submitted to in vitro maturation, fertilization, and culture. The G-60 ovaries presented more viable oocyte (degrees I, II and III) (96.6 percent). Cleavage rate was higher for oocytes from follicles 7mm in diameter (class 3). There was a follicular phase-by-follicle diameter interaction effect on blastocyst production rate. Blastocyst production rates were higher for oocytes from follicles 5mm in diameter (class 1) in the G-60 group (64.5 percent), from follicles 5-7mm (class 2) in the G-96 group (33.3 percent), and from follicles 7mm (class 3) in the G-108 group (50 percent). Both the phase of follicular development and the follicle diameter influenced oocyte competence and ability for development in vitro. At the initial stages of the follicular wave, blastocyst production was higher for oocytes from small follicles. However, as the follicular wave advances, blastocyst production increases for oocytes from larger follicles.

Concentration and composition of free amino acids and osmolalities of porcine oviductal and uterine fluid and their effects on development of porcine IVF embryos.

The concentration of free amino acids and the osmolalities in porcine oviductal (OF) and uterine fluids (UFs) on day 3 (D3) and day 5 (D5) were measured by HPLC and Vapor Pressure Osmometer, respectively. Based on these measurements we designed new media based on PZM3 by modifying the amino acid composition and osmolality. The effectiveness of the modified PZM3 on the development of porcine IVF embryos was then investigated. A total of 24 free amino acids were measured, including 20 protein and 4 nonprotein amino acids (beta-alanine, taurine, ornithine, and citrulline). There was no significant difference in the total concentration of amino acids among D3OF (13.06 +/- 3.63 mmol/L), D3UF (10.54 +/- 5.16 mmol/L), or D5UF (10.23 +/- 6.69 mmol/L). But the total concentration of amino acids in D5OF (5.89 +/- 1.47 mmol/L) was significantly lower than the three fluids above. Some individual amino acids varied significantly depending on where they were collected and from which day. The blastocyst rates of porcine IVF embryos were not improved when embryos were cultured in PZM3 with amino acids at D3OF (PZM3-D3OF, 20.3 +/- 7.9%) or D5UF (PZM3-D5UF, 14.3 +/- 10.7%) concentrations or in PZM3-D3OF for the first 48 (20.5 +/- 15.1), 72 (25.6 +/- 10.4), and 96 (18.7 +/- 10.0) hr and then transferred into PZM3-D5UF compared with PZM3 with Sigma amino acid solution (PZM3-SAA) (30.8 +/- 9.1%). However, when IVF embryos were cultured in PZM3-D5UF, the average nuclear number per blastocyst (57.6 +/- 8.3) was increased compared to PZM3-SAA (40.5 +/- 3.5). The osmolalities in D3OF, D3UF, D5OF, and D5UF were 318 +/- 8, 320 +/- 32, 321, and 293 +/- 8 mOsM, respectively. When the IVF embryos were cultured in PZM3-SAA and PZM3-D3OF at a variety of osmolalities (150-360 mOsM), higher blastocyst rates were obtained at 270-300 mOsM in the PZM3-SAA group (24.6-33.9%) and 270-290 mOsM in PZM3-D3OF group (22.4-24.2%). The blastocyst rate gradually decreased when the osmolality was increased or decreased in both groups. When the embryos were cultured in PZM3-SAA at 330 mOsM for the first 72 hr and then transferred to 250 mOsM (33.3 +/- 3.4%), the blastocyst rate was higher than original PZM3 (21.2 +/- 2.2%) (288 mOsM).

Odd-skipped genes specify the signaling center that triggers retinogenesis in Drosophila.

Although many of the factors responsible for conferring identity to the eye field in Drosophila have been identified, much less is known about how the expression of the retinal ;trigger', the signaling molecule Hedgehog, is controlled. Here, we show that the co-expression of the conserved odd-skipped family genes at the posterior margin of the eye field is required to activate hedgehog expression and thereby the onset of retinogenesis. The fly Wnt1 homologue wingless represses the odd-skipped genes drm and odd along the anterior margin and, in this manner, spatially restricts the extent of retinal differentiation within the eye field.

Repression of mesodermal fate by foxa, a key endoderm regulator of the sea urchin embryo.

The foxa gene is an integral component of the endoderm specification subcircuit of the endomesoderm gene regulatory network in the Strongylocentrotus purpuratus embryo. Its transcripts become confined to veg2, then veg1 endodermal territories, and, following gastrulation, throughout the gut. It is also expressed in the stomodeal ectoderm. gatae and otx genes provide input into the pregastrular regulatory system of foxa, and Foxa represses its own transcription, resulting in an oscillatory temporal expression profile. Here, we report three separate essential functions of the foxa gene: it represses mesodermal fate in the veg2 endomesoderm; it is required in postgastrular development for the expression of gut-specific genes; and it is necessary for stomodaeum formation. If its expression is reduced by a morpholino, more endomesoderm cells become pigment and other mesenchymal cell types, less gut is specified, and the larva has no mouth. Experiments in which blastomere transplantation is combined with foxa MASO treatment demonstrate that, in the normal endoderm, a crucial role of Foxa is to repress gcm expression in response to a Notch signal, and hence to repress mesodermal fate. Chimeric recombination experiments in which veg2, veg1 or ectoderm cells contained foxa MASO show which region of foxa expression controls each of the three functions. These experiments show that the foxa gene is a component of three distinct embryonic gene regulatory networks.

Induction and prepatterning of the zebrafish pectoral fin bud requires axial retinoic acid signaling.

Vertebrate forelimbs arise as bilateral appendages from the lateral plate mesoderm (LPM). Mutants in aldh1a2 (raldh2), an embryonically expressed gene encoding a retinoic acid (RA)-synthesizing enzyme, have been used to show that limb development and patterning of the limb bud are crucially dependent on RA signaling. However, the timing and cellular origin of RA signaling in these processes have remained poorly resolved. We have used genetics and chemical modulators of RA signaling to resolve these issues in the zebrafish. By rescuing pectoral fin induction in the aldh1a2/neckless mutant with exogenous RA and by blocking RA signaling in wild-type embryos, we find that RA acts as a permissive signal that is required during the six- to eight-somite stages for pectoral fin induction. Cell-transplantation experiments show that RA production is not only crucially required from flanking somites, but is sufficient to permit fin bud initiation when the trunk mesoderm is genetically ablated. Under the latter condition, intermediate mesoderm alone cannot induce the pectoral fin field in the LPM. We further show that induction of the fin field is directly followed by a continued requirement for somite-derived RA signaling to establish a prepattern of anteroposterior fates in the condensing fin mesenchyme. This process is mediated by the maintained expression of the transcription factor hand2, through which the fin field is continuously posteriorized, and lasts up to several hours prior to limb-budding. Thus, RA signaling from flanking somites plays a dual early role in the condensing limb bud mesenchyme.

Separating the adhesive and signaling functions of the Fat and Dachsous protocadherins.

The protocadherins Fat (Ft) and Dachsous (Ds) are required for several processes in the development of Drosophila, including controlling growth of imaginal discs, planar cell polarity (PCP) and the proximodistal patterning of appendages. Ft and Ds bind in a preferentially heterophilic fashion, and Ds is expressed in distinct patterns along the axes of polarity. It has thus been suggested that Ft and Ds serve not as adhesion molecules, but as receptor and ligand in a poorly understood signaling pathway. To test this hypothesis, we performed a structure-function analysis of Ft and Ds, separating their adhesive and signaling functions. We found that the extracellular domain of Ft is not required for its activity in growth, PCP and proximodistal patterning. Thus, ligand binding is not necessary for Ft activity. By contrast, the extracellular domain of Ds is necessary and sufficient to mediate its effects on PCP, consistent with the model that Ds acts as a ligand during PCP. However, we also provide evidence that Ds can regulate growth independently of Ft, and that the intracellular domain of Ds can affect proximodistal patterning, both suggestive of functions independent of binding Ft. Finally, we show that ft mutants or a dominant-negative Ft construct can affect disc growth without changes in the expression of wingless and Wingless target genes.

Specification of ectoderm restricts the size of the animal plate and patterns neurogenesis in sea urchin embryos.

The animal plate of the sea urchin embryo becomes the apical organ, a sensory structure of the larva. In the absence of vegetal signaling, an expanded and unpatterned apical organ forms. To investigate the signaling that restricts the size of the animal plate and patterns neurogenesis, we have expressed molecules that regulate specification of ectoderm in embryos and chimeras. Enhancing oral ectoderm suppresses serotonergic neuron differentiation, whereas enhancing aboral or ciliary band ectoderm increases differentiation of serotonergic neurons. In embryos in which vegetal signaling is blocked, Nodal expression does not reduce the size of the thickened animal plate; however, almost no neurons form. Expression of BMP in the absence of vegetal signaling also does not restrict the size of the animal plate, but abundant serotonergic neurons form. In chimeras in which vegetal signaling is blocked in the entire embryo, and one half of the embryo expresses Nodal, serotonergic neuron formation is suppressed in both halves. In similar chimeras in which vegetal signaling is blocked and one half of the embryo expresses Goosecoid (Gsc), serotonergic neurons form only in the half of the embryo not expressing Gsc. We propose that neurogenesis is specified by a maternal program that is restricted to the animal pole by signaling that is dependent on nuclearization of beta-catenin and specifies ciliary band ectoderm. Subsequently, neurogenesis in the animal plate is patterned by suppression of serotonergic neuron formation by Nodal. Like other metazoans, echinoderms appear to have a phase of neural development during which the specification of ectoderm restricts and patterns neurogenesis.

Negative regulation of Hedgehog signaling by the cholesterogenic enzyme 7-dehydrocholesterol reductase.

Cholesterol regulates Hedgehog (Hh) signaling during early vertebrate development. Smith-Lemli-Opitz syndrome (SLOS) is caused by defects in 7-dehydrocholesterol reductase (DHCR7), an enzyme catalyzing the final step of cholesterol biosynthesis. Many developmental malformations attributed to SLOS occur in tissues and organs where Hh signaling is required for development, but the precise role of DHCR7 deficiency in this disease remains murky. We report that DHCR7 and Sonic Hedgehog (Shh) are co-expressed during midline development in Xenopus embryos. DHCR7 has previously been implicated to function as a positive regulator of Hh signaling that acts to regulate the cholesterol adduction of Hh ligand or to affect Hh signaling in the responding cell. We present gain- and loss-of-function analyses suggesting that DHCR7 functions as a negative regulator of Hh signaling at the level or downstream of Smoothened (Smo) and affects intracellular Hh signaling. Our analysis also raises the possibility that the human condition SLOS is caused not only by disruption of the enzymatic role of DHCR7 as a reductase in cholesterol biosynthesis, but may also involve defects in DHCR7 resulting in derepression of Shh signaling.

Müllerian inhibiting substance regulates its receptor/SMAD signaling and causes mesenchymal transition of the coelomic epithelial cells early in Müllerian duct regression.

Examination of Müllerian inhibiting substance (MIS) signaling in the rat in vivo and in vitro revealed novel developmental stage- and tissue-specific events that contributed to a window of MIS responsiveness in Müllerian duct regression. The MIS type II receptor (MISRII)-expressing cells are initially present in the coelomic epithelium of both male and female urogenital ridges, and then migrate into the mesenchyme surrounding the male Müllerian duct under the influence of MIS. Expression of the genes encoding MIS type I receptors, Alk2 and Alk3, is also spatiotemporally controlled; Alk2 expression appears earlier and increases predominantly in the coelomic epithelium, whereas Alk3 expression appears later and is restricted to the mesenchyme, suggesting sequential roles in Müllerian duct regression. MIS induces expression of Alk2, Alk3 and Smad8, but downregulates Smad5 in the urogenital ridge. Alk2-specific small interfering RNA (siRNA) blocks both the transition of MISRII expression from the coelomic epithelium to the mesenchyme and Müllerian duct regression in organ culture. Müllerian duct regression can also be inhibited or accelerated by siRNA targeting Smad8 and Smad5, respectively. Thus, the early action of MIS is to initiate an epithelial-to-mesenchymal transition of MISRII-expressing cells and to specify the components of the receptor/SMAD signaling pathway by differentially regulating their expression.

Displacement of D1, HP1 and topoisomerase II from satellite heterochromatin by a specific polyamide.

The functions of DNA satellites of centric heterochromatin are difficult to assess with classical molecular biology tools. Using a chemical approach, we demonstrate that synthetic polyamides that specifically target AT-rich satellite repeats of Drosophila melanogaster can be used to study the function of these sequences. The P9 polyamide, which binds the X-chromosome 1.688 g/cm3 satellite III (SAT III), displaces the D1 protein. This displacement in turn results in a selective loss of HP1 and topoisomerase II from SAT III, while these proteins remain bound to the adjacent rDNA repeats and to other regions not targeted by P9. Conversely, targeting of (AAGAG)n satellite V repeats by the P31 polyamide results in the displacement of HP1 from these sequences, indicating that HP1 interactions with chromatin are sensitive to DNA-binding ligands. P9 fed to larvae suppresses the position-effect variegation phenotype of white-mottled adult flies. We propose that this effect is due to displacement of the heterochromatin proteins D1, HP1 and topoisomerase II from SAT III, hence resulting in stochastic chromatin opening and desilencing of the nearby white gene.

Induction and specification of cranial placodes.

Cranial placodes are specialized regions of the ectoderm, which give rise to various sensory ganglia and contribute to the pituitary gland and sensory organs of the vertebrate head. They include the adenohypophyseal, olfactory, lens, trigeminal, and profundal placodes, a series of epibranchial placodes, an otic placode, and a series of lateral line placodes. After a long period of neglect, recent years have seen a resurgence of interest in placode induction and specification. There is increasing evidence that all placodes despite their different developmental fates originate from a common panplacodal primordium around the neural plate. This common primordium is defined by the expression of transcription factors of the Six1/2, Six4/5, and Eya families, which later continue to be expressed in all placodes and appear to promote generic placodal properties such as proliferation, the capacity for morphogenetic movements, and neuronal differentiation. A large number of other transcription factors are expressed in subdomains of the panplacodal primordium and appear to contribute to the specification of particular subsets of placodes. This review first provides a brief overview of different cranial placodes and then synthesizes evidence for the common origin of all placodes from a panplacodal primordium. The role of various transcription factors for the development of the different placodes is addressed next, and it is discussed how individual placodes may be specified and compartmentalized within the panplacodal primordium. Finally, tissues and signals involved in placode induction are summarized with a special focus on induction of the panplacodal primordium itself (generic placode induction) and its relation to neural induction and neural crest induction. Integrating current data, new models of generic placode induction and of combinatorial placode specification are presented.

Gli3-mediated somitic Fgf10 expression gradients are required for the induction and patterning of mammary epithelium along the embryonic axes.

Little is known about the regulation of cell fate decisions that lead to the formation of five pairs of mammary placodes in the surface ectoderm of the mouse embryo. We have previously shown that fibroblast growth factor 10 (FGF10) is required for the formation of mammary placodes 1, 2, 3 and 5. Here, we have found that Fgf10 is expressed only in the somites underlying placodes 2 and 3, in gradients across and within these somites. To test whether somitic FGF10 is required for the formation of these two placodes, we analyzed a number of mutants with different perturbations of somitic Fgf10 gradients for the presence of WNT signals and ectodermal multilayering, markers for mammary line and placode formation. The mammary line is displaced dorsally, and formation of placode 3 is impaired in Pax3ILZ/ILZ mutants, which do not form ventral somitic buds. Mammary line formation is impaired and placode 3 is absent in Gli3Xt-J/Xt-J and hypomorphic Fgf10 mutants, in which the somitic Fgf10 gradient is shortened dorsally and less overall Fgf10 is expressed, respectively. Recombinant FGF10 rescued mammogenesis in Fgf10(-/-) and Gli3Xt-J/Xt-J flanks. We correlate increasing levels of somitic FGF10 with progressive maturation of the surface ectoderm, and show that full expression of somitic Fgf10, co-regulated by GLI3, is required for the anteroposterior pattern in which the flank ectoderm acquires a mammary epithelial identity. We propose that the intra-somitic Fgf10 gradient, together with ventral elongation of the somites, determines the correct dorsoventral position of mammary epithelium along the flank.

The ihog cell-surface proteins bind Hedgehog and mediate pathway activation.

The ihog gene (interference hedgehog), identified by RNA interference in Drosophila cultured cells, encodes a type 1 membrane protein shown here to bind and to mediate response to the active Hedgehog (Hh) protein signal. ihog mutations produce defects characteristic of Hh signaling loss in embryos and imaginal discs, and epistasis analysis places ihog action at or upstream of the negatively acting receptor component, Patched (Ptc). The first of two extracellular fibronectin type III (FNIII) domains of the Ihog protein mediates a specific interaction with Hh protein in vitro, but the second FNIII domain is additionally required for in vivo signaling activity and for Ihog-enhanced binding of Hh protein to cells coexpressing Ptc. Other members of the Ihog family, including Drosophila Boi and mammalian CDO and BOC, also interact with Hh ligands via a specific FNIII domain, thus identifying an evolutionarily conserved family of membrane proteins that function in Hh signal response.

Zebrafish msxB, msxC and msxE function together to refine the neural-nonneural border and regulate cranial placodes and neural crest development.

The zebrafish muscle segment homeobox genes msxB, msxC and msxE are expressed in partially overlapping domains in the neural crest and preplacodal ectoderm. We examined the roles of these msx genes in early development. Disrupting individual msx genes causes modest variable defects, whereas disrupting all three produces a reproducible severe phenotype, suggesting functional redundancy. Neural crest differentiation is blocked at an early stage. Preplacodal development begins normally, but placodes arising from the msx expression domain later show elevated apoptosis and are reduced in size. Cell proliferation is normal in these tissues. Unexpectedly, Msx-deficient embryos become ventralized by late gastrulation whereas misexpression of msxB dorsalizes the embryo. These effects appear to involve Distal-less (Dlx) protein activity, as loss of dlx3b and dlx4b suppresses ventralization in Msx-depleted embryos. At the same time, Msx-depletion restores normal preplacodal gene expression to dlx3b-dlx4b mutants. These data suggest that mutual antagonism between Msx and Dlx proteins achieves a balance of function required for normal preplacodal differentiation and placement of the neural-nonneural border.

Self-refinement of Notch activity through the transmembrane protein Crumbs: modulation of gamma-secretase activity.

Cell interactions mediated by Notch family receptors have been implicated in the specification of tissue boundaries. Tightly localized activation of Notch is crucial for the formation of sharp boundaries. In the Drosophila wing imaginal disc, the Notch receptor is expressed in all cells. However, Notch activity is limited to a narrow stripe of cells along the dorsal-ventral compartment boundary, where it induces the expression of target genes. How a widely expressed protein becomes tightly regulated at the dorsal-ventral boundary in the Drosophila wing is not completely understood. Here, we show that the transmembrane protein Crumbs is involved in a feedback mechanism used by Notch to refine its own activation domain at the Drosophila wing margin. Crumbs reduces the activity of the gamma-Secretase complex, which mediates the proteolytic intracellular processing of Notch. These results indicate a novel molecular mechanism of the regulation of Notch signal, and also that defects in Crumbs might be involved in similar abnormal gamma-Secretase complex activity observed in Alzheimer's disease.