Estudio Histológico en Embriones de Cobayo (Cavia porcellus) y su Utilidad como Modelo para la Comprensión del Desarrollo Embrionario Humano / Histological Study in Guinea Pig Embryos (Cavia porcellus) and its Usefulness as a Model for Understanding Human Embryonic Development

El cobayo es un modelo animal ampliamente utilizado en la investigación biomédica debido a sus similitudes biológicas con los seres humanos. El objetivo de nuestro estudio es proporcionar sustento morfológico para utilizar preparados histológicos de embriones de cobayo como modelo de estudio para comprender los procesos del desarrollo embrionario humano. Nuestros resultados muestran que los embriones de cobayo presentan características morfológicas similares a las observadas en los embriones humanos, lo que sugiere que pueden utilizarse como un modelo efectivo para estudiar el desarrollo embrionario humano. Este hallazgo tiene importantes implicancias para la investigación y la docencia utilizando este modelo animal. Se analizaron preparados histológicos de embriones de cobayo teñidos con hematoxilina eosina, adquiridos por la Universidad Autónoma de Chile. Se tomaron microfotografías de preparados histológicos de cobayo en diferentes estadios del desarrollo y se seleccionaron las mejores imágenes para la descripción de estructuras y establecer estimados de la embriogénesis. Del análisis de los preparados se desprende que órganos como esófago, médula espinal y corazón presentan similitudes anatómicas e histológicas que hacen posible compararlas con el desarrollo embrionario humano y la edad de gestación en etapas tempranas. El uso de preparados de embriones de cobayo y su análisis desde un aspecto histológico resulta ser una estrategia metodológica factible debido a las similitudes en la embriogénesis de los mamíferos y las concordancias morfológicas con el desarrollo de los órganos entre humanos y roedores. Esto permite implementar este modelo animal como una herramienta para comprender el desarrollo embrionario humano.

SUMMARY: The guinea pig is an animal model widely used in biomedical research due to its biological similarities with humans. The objective of our study is to provide morphological support to use histological preparations of guinea pig embryos as a study model to understand the processes of human embryonic development. Our results show that guinea pig embryos present morphological characteristics similar to those observed in human embryos, suggesting that they can be used as an effective model to study human embryonic development. This finding has important implications for research and teaching using this animal model. Histological preparations of guinea pig embryos stained with hematoxylin eosin, acquired by the Autonomous University of Chile, were analyzed. Photomicrographs of histological preparations of guinea pigs at different stages of development were taken and the best images were selected to describe structures and establish estimates of embryogenesis. From the analysis of the preparations it is clear that organs such as the esophagus, spinal cord and heart present anatomical and histological similarities that make it possible to compare them with human embryonic development and gestation age in early stages. The use of guinea pig embryo preparations and their analysis from a histological aspect turns out to be a feasible methodological strategy due to the similarities in mammalian embryogenesis and the morphological concordances with the development of organs between humans and rodents. This allows this animal model to be implemented as a tool to understand human embryonic development.

Development of a 3D atlas of the embryonic pancreas for topological and quantitative analysis of heterologous cell interactions.

Generating comprehensive image maps, while preserving spatial three-dimensional (3D) context, is essential in order to locate and assess quantitatively specific cellular features and cell-cell interactions during organ development. Despite recent advances in 3D imaging approaches, our current knowledge of the spatial organization of distinct cell types in the embryonic pancreatic tissue is still largely based on two-dimensional histological sections. Here, we present a light-sheet fluorescence microscopy approach to image the pancreas in three dimensions and map tissue interactions at key time points in the mouse embryo. We demonstrate the utility of the approach by providing volumetric data, 3D distribution of three main cellular components (epithelial, mesenchymal and endothelial cells) within the developing pancreas, and quantification of their relative cellular abundance within the tissue. Interestingly, our 3D images show that endocrine cells are constantly and increasingly in contact with endothelial cells forming small vessels, whereas the interactions with mesenchymal cells decrease over time. These findings suggest distinct cell-cell interaction requirements for early endocrine cell specification and late differentiation. Lastly, we combine our image data in an open-source online repository (referred to as the Pancreas Embryonic Cell Atlas).

Embryo re-expansion does not affect clinical pregnancy rates in frozen embryo transfer cycles: a retrospective study.

PURPOSE: A retrospective study examining the effects of embryo re-expansion before transfer on pregnancy outcomes for frozen embryo transfers (FET). METHODS: A total of 486 FET cycles from November 2017 through December 2019 were studied. These cycles included patients using autologous, donor oocytes, and donor embryo with patients ranging from ages 23 to 48 years with infertility diagnoses. Programmed FET priming was performed with exogenous estrogen and progesterone. All blastocysts were cultured in trigas incubators for 20 min to 4 h and 42 min. Pictures of each blastocyst after thaw and before transfer were taken utilizing the Hamilton Thorne Zilos laser software (Beverly, MA). The longest portion of the embryo was measured in µm. Pregnancy was defined by a positive hCG, and ongoing clinical pregnancy was defined by the presence of fetal cardiac activity. Wilcoxon rank sum tests were used to access differences in change parameters. RESULTS: There is no significant difference in the amount of embryo expansion or contraction to achieve an ongoing pregnancy. The difference remained non-significant when stratified by embryo expansion or contraction. The amount of change over time and percent change from the first measurement were also not associated with achieving an ongoing pregnancy. This remained true after adjustment for patient age and whether or not a biopsy was performed. CONCLUSIONS: Embryos that do not re-expand after warming appear to have a similar chance of achieving a successful pregnancy as those that do re-expand.

Reconstructing aspects of human embryogenesis with pluripotent stem cells.

Understanding human development is of fundamental biological and clinical importance. Despite its significance, mechanisms behind human embryogenesis remain largely unknown. Here, we attempt to model human early embryo development with expanded pluripotent stem cells (EPSCs) in 3-dimensions. We define a protocol that allows us to generate self-organizing cystic structures from human EPSCs that display some hallmarks of human early embryogenesis. These structures mimic polarization and cavitation characteristic of pre-implantation development leading to blastocyst morphology formation and the transition to post-implantation-like organization upon extended culture. Single-cell RNA sequencing of these structures reveals subsets of cells bearing some resemblance to epiblast, hypoblast and trophectoderm lineages. Nevertheless, significant divergences from natural blastocysts persist in some key markers, and signalling pathways point towards ways in which morphology and transcriptional-level cell identities may diverge in stem cell models of the embryo. Thus, this stem cell platform provides insights into the design of stem cell models of embryogenesis.

Construction of a Mex3c Gene-Deficient Mouse Model to Study C-FOS Expression in Hypothalamic Nuclei and Observe Morphological Differences in Embryonic Neural Tube Development.

BACKGROUND This study utilized CRISPR/Cas9 gene editing technology to construct a Mex3c gene-deficient mouse model, and studied C-FOS expression in hypothalamic nuclei. MATERIAL AND METHODS Thirty Mex3c-/+ mice, 30 mice in the normal group, and 30 Mex3c-/+ mice were randomly divided into control, leptin, and ghrelin groups according to different intraperitoneal injections. HE and Nissl staining were performed to observe the morphology of hypothalamic nerve cells. The C-FOS expression in hypothalamic nuclei of each group was analyzed by immunohistochemical techniques. HE staining was used to observe neural tube morphology, and LFB staining was used to observe nerve myelin sheath morphology. TEM was used to observe neuronal ultrastructure and immunohistochemical techniques were utilized to analyze nestin expression. RESULTS C-FOS expression was lower in the normal control group than in the leptin and ghrelin groups. The Mex3c control group and the leptin group had higher C-FOS expression than the ghrelin group. In neural tube studies, no significant differences were found in the neural tube pathological sections of E14.5-day embryos in each group. Nestin results demonstrated lower expression in the normal group and there was little difference between the HD and Mex3c groups. CONCLUSIONS Mex3c appears to participate in the regulation of energy metabolism by inducing C-FOS expression in the hypothalamus. The neural tubes of the offspring of Mex3c-/+ mice had defects during development.

Sexual determination and differentiation during embryonic and fetal development of New Zealand rabbit females / Determinación y diferenciación sexual durante el desarrollo embrionario y fetal de conejos hembras de Nueva Zelanda

The aim of this study was to know the embryonic and fetal development of the female rabbit genital system (Oryctolagus cuniculus), describing its main phases and the moment of sexual differentiation. Eleven pregnant New Zealand female rabbits were used in different gestational phases. The day of coitus was determined as day 0. For each stage a minimum of two animals was considered. The samples were obtained every two days from the ninth day post-coitus (dpc) until the 28th dpc. The gestational period was divided in two: animals with undifferentiated sex (group 1) and animals with differentiated sex (group 2). The ages of embryos and fetuses were estimated through the crown-rump method. Subsequently, embryos and fetuses were dissected, fixed and processed to be embedded in paraffin (Histosec). The histological analysis was performed on sections stained with hematoxylin and eosin. Immunohistochemical analysis to determine sexual differentiation was performed on samples from the 16th, 18th and 28th dpc. Desert Hedgehog (Dhh) and Indian Hedgehog (Ihh) primary antibodies, respectively, were used to identify cells of the male and female germinal epithelium. The immunohistochemical results showed that at the 16th dpc, female sexual differentiation was evident, since positive expression of the Ihh protein was observed. Sexual differentiation was obtained through histological analysis on the 18th dpc and through anatomical observation of the external genitalia on the 24th dpc. Knowing the characteristics of the embryonic and fetal development of the female rabbit genital system as well as the moment of sexual differentiation make it possible to establish bases for future research that address the physiology and pathology of these organs. Thus, any alteration in the chain of events of sexual determination and differentiation must search for an explanation from the knowledge of the possible normal mechanisms affected.

El objetivo de esta investigación fue conocer el desarrollo embrionario y fetal del sistema genital femenino de conejo (Oryctolagus cuniculus), describiendo sus principales fases y el momento de la diferenciación sexual. Se utilizaron 11 conejos hembras gestantes neozelandesas, en diferentes fases gestacionales. El día del coito se determinó como día 0. Para cada etapa fue considerado un mínimos de dos animales. Las muestras fueron obtenidas cada dos días, a partir del noveno día post-coito (dpc) hasta el 28 dpc. El periodo gestacional fue dividido en dos: animales con sexo indiferenciado (grupo 1) y, animales con sexo diferenciado (grupo 2). Las edades de los embriones y los fetos fueron estimadas a través del método de crown-rump. Posteriormente, embriones y fetos fueron disecados, fijados y procesados para su inclusión en parafina (Histosec). El análisis histológico se realizó en secciones teñidas con Hematoxilina y Eosina. El análisis inmunohistoquímico para determinar la diferenciación sexual fue realizado en muestras de 16, 18 y 28 dpc. Para identificar células del epitelio germinativo masculino y feminino se utilizaron los anticuerpos primarios Desert Hedgehog (Dhh) e Indian Hedgehog (Ihh), respectivamente. Los resultados inmunohistoquímicos mostraron que a los 16 dpc se evidenció diferenciación sexual femenina, ya que se observó expresión positiva de la proteína Ihh. La diferenciación sexual, a través del análisis histológico fue obtenida a los 18 dpc y a través de la observación anatómica de los genitales externos a los 24 dpc. Conocer las características del desarrollo embrionario y fetal del sistema genital femenino de conejo, así como, el momento de la diferenciación sexual, permiten sentar bases para futuras investigaciones que aborden la fisiología y patología de estos órganos. Así, cualquier alteración en la cadena de eventos de la determinación y diferenciación sexual deberá buscar una explicación a partir del conocimiento de los posibles mecanismos normales afectados.

Embryogenesis and Adult Life in the Absence of Intrinsic Apoptosis Effectors BAX, BAK, and BOK.

Intrinsic apoptosis, reliant on BAX and BAK, has been postulated to be fundamental for morphogenesis, but its precise contribution to this process has not been fully explored in mammals. Our structural analysis of BOK suggests close resemblance to BAX and BAK structures. Notably, Bok-/-Bax-/-Bak-/- animals exhibited more severe defects and died earlier than Bax-/-Bak-/- mice, implying that BOK has overlapping roles with BAX and BAK during developmental cell death. By analyzing Bok-/-Bax-/-Bak-/- triple-knockout mice whose cells are incapable of undergoing intrinsic apoptosis, we identified tissues that formed well without this process. We provide evidence that necroptosis, pyroptosis, or autophagy does not substantially substitute for the loss of apoptosis. Albeit very rare, unexpected attainment of adult Bok-/-Bax-/-Bak-/- mice suggests that morphogenesis can proceed entirely without apoptosis mediated by these proteins and possibly without cell death in general.

Macroscopic and microscopic analysis of 2 embryos and 1 foetus derived from a sheep (Ovis aries) without breed / Análise macroscópica e microscópica de 2 embriões e 1 feto derivados de ovelha (Ovis aries) sem raça

The interest in embryology, the science of the development of a zygote into a completely developed foetus, has increased greatly in recent years due to a number of studies involving embryonic and induced pluripotent stem cells. In addition, the development of techniques such as cloning has aided to understand the critical events that occur during embryonic development. In this study, we describe the morphology of two sheep embryos and one foetus using macroscopic and microscopic techniques. We investigated sheep without defined breed on days 24, 32, and 50 of gestation (estimated by crown-rump length [CR]). Macroscopically, we observed the development of E1 (24 days), with visible optic vesicle, but without retinal pigmentation and the forelimbs bud in development. In the E2 (32 days), we noticed the presence of optic retinal pigmentation and forelimbs more developed in comparison with E1. As expected, F1 revealed an eyeball already covered and the forelimbs developed. Meanwhile, microscopic analysis revealed somite, ventricle, atrium, and oral cavity in development in E1. However, in F1 we were able to identify more complex structures, such as ossification in the spine, ventricle, atrium, intraventricular septum, pericardial sac, and oral cavity with tongue. This work brings more precise and detailed data on the morphological characteristics of the major organ systems (nervous, circulatory, respiratory, digestive, and urinary) at each embryonic and foetal stage analysed.(AU)

O interesse em Embriologia, a ciência do desenvolvimento de um zigoto em um feto completamente desenvolvido, tem aumentado consideravelmente nos últimos anos devido a uma série de estudos envolvendo células-tronco pluripotentes embrionárias e induzidas. Além disso, o desenvolvimento de técnicas como a clonagem tem ajudado a compreender os eventos críticos que ocorrem durante o desenvolvimento embrionário. Neste estudo, descrevemos a morfologia de dois embriões de ovinos e um feto utilizando técnicas macroscópicas e microscópicas. Obtivemos ovelhas sem raça definida com 24, 32 e 50 dias de gestação (estimado pelo método de Crown-Rump, CR). Os conceptos foram mensurados, pesados e caracterizados a olho nu. Macroscopicamente, observamos o desenvolvimento dos embriões E1 (24 dias), apresentando globo ocular sem pigmentação de retina e broto do membro torácico e pélvico. Já o E2 (32 dias), apresentava globo ocular com pigmentação na retina e os membros torácicos e pélvicos mais desenvolvidos. O F1 apresentou olhos cobertos com uma membrana e membros torácicos e pélvicos mais desenvolvidos. Enquanto isso, microscopicamente observamos no E1 somitos, ventrículo, átrio e cavidade oral ainda em desenvolvimento. Porém, no F1 já era possível observar ossificação da coluna espinhal, coração com estruturas mais complexas, como ventrículo, átrio, septo interventricular e saco pericárdio. Além disso, na cavidade oral observamos a formação da língua. Este trabalho fornece informações precisas e detalhadas sobre as características morfológicas dos principais órgãos dos sistemas (nervoso, circulatório, respiratório, digestivo e urinário) em cada fase embrionária e fetal analisadas.(AU)

Association between Number of Formed Embryos, Embryo Morphology and Clinical Pregnancy Rate after Intracytoplasmic Sperm Injection / Associação entre número de embriões formados, morfologia embrionária e taxa de gravidez clínica após injeção intracitoplasmática de espermatozoides

Abstract Introduction Infertility has a high prevalence in the general population, affecting 5 to 15% of couples in reproductive age. The assisted reproduction techniques ( ART ) include in vitro manipulation of gametes and embryos and are an important treatment indicated to these couples. It is well accepted that the implantation rate is positively influenced by the morphology of transferred embryos. However, we question if, apart from the assessment of embryo morphology, the number of produced embryos per cycle is also related to pregnancy rates in the first fresh transfer cycle. Purpose To evaluate the clinical pregnancy rate according to the number of formed embryos and the transfer of top quality embryos ( TQEs ). Methods In a retrospective cohort study, between January 2011 and December 2012 , we evaluated women who underwent intracytoplasmic sperm injection (ICSI), aged < 40 years, andwith at least 1 formed embryo fresh transferred in cleavagestage. These women were stratified into 3 groups according to the number of formed embryos (1 embryo, 2-3 and ≥ 4 embryos). Each group was divided into 2 subgroups according to the presence or not of at least 1 transferred TQE (1 with TQE; 1 without TQE; 2-3 with TQE, 2-3 without TQE; ≥4with TQE; ≥4withoutTQE). The clinicalpregnancy rateswerecomparedineach subgroup based on the presence or absence of at least one transferred TQE. Results During the study period, 636 women had at least one embryo to be transferred in thefirst fresh cycle (17.8% had 1 formed embryo [32.7% with TQEversus 67.3% without TQE], 42.1% of women had 2-3 formed embryos [55.6% with TQE versus 44.4% without TQE], and 40.1%ofpatientshad ≥4 formedembryos[73.7%withTQEversus26.3%withoutTQE]).The clinical pregnancy rate was significantly higher in the subgroup with ≥4 formed embryos with at least 1 transfered TQE (45.2%) compared with the subgroup without TQE (28.4%). Conclusions Having at least two available embryos and at least one TQE for embryo transfer are predictors of the pregnancy rates.

Resumo Introdução A infertilidade tem uma alta prevalência na população geral, afetando 5 a 15% dos casais em idade reprodutiva. As técnicas de reprodução assistida ( TRA ) incluem a manipulação in vitro de gametas e embriões e são um importante tratamento indicado para esses casais. Sabe-se que a taxa de implantação é positivamente influenciada pela morfologia dos embriões transferidos. No entanto, questiona-se, se além da avaliação da morfologia do embrião, o número de embriões produzidos por ciclo também está relacionado com as taxas de gravidez do primeiro ciclo de transferência fresco. Objetivo Avaliar a taxa de gravidez clínica de acordo com o número de embriões formados e a transferência de embrião com ótima morfologia ( EOM ). Métodos Em um estudo de coorte retrospectivo, entre janeiro de 2011 e dezembro de 2012, avaliamos mulheres submetidas a ICSI com idade < 40 anos e com pelo menos um embrião formado e transferido a fresco em estágio de clivagem. Estas mulheres foram estratificadas em 3 grupos de acordo com o número de embriões formados (1 embrião, 2-3 e ≥ 4 embriões). Cada grupo foi subdividido em 2 subgrupos de acordo com a presença ou não de EOM transferido (1 com EOM; 1 sem EOM; 2-3 com EOM; 2-3 sem EOM; 4 com EOM; ≥4 sem EOM). As taxas de gravidez clínica foram comparadas em cada subgrupo segundo a presença ou não de pelo menos um EOM transferido. Resultados Durante o período do estudo, 636 mulheres tiveram pelo menos 1 embrião para ser transferido no primeiro ciclo a fresco (17,8% possuíram 1 embrião formado [32,7% com EOM versus 67,3% sem EOM], 42,1% das mulheres apresentaram 2-3 embriões formados [55,6% com EOM versus 44,4% sem EOM], e 40,1% das pacientes formaram ≥4 embriões [73,7% com EOM versus 26,3% sem EOM]). A taxa de gravidez clínica foi significativamente maior no subgrupo com ≥4 embriões formados com transferência de pelo menos 1 EOM (45,2%) comparando-se ao subgrupo sem EOM (28,4 % ). Conclusões Ter pelo menos dois embriões e pelo menos um EOM para transferência são fatores preditivos da taxa de gravidez.

Development of the Liver in Alpaca (Vicugna pacos): A Microscopic and Macroscopic Description.

South American camelids have several biological, morphological and behavioural adaptations that allow them to live in geographical areas dominated by high altitudes. The liver has hematopoietic functions during the prenatal life, which could be modified in response to the unfavorable habitat. However, there are no previous data on the prenatal development of the liver in these species. In the present work, a study on the macroscopic and microscopic morphology of the liver of the alpaca during ontogeny was performed. Forty-one animals ranging in age from 20 days of embryonic development to adults were studied. Macroscopic and microscopic observations were performed on samples subjected to different techniques. Less than 7-g specimens were studied with stereoscopic magnifying glass. The general characteristics of the prenatal liver are similar to those of other mammals, and the structures related to hematopoietic function follow an ontogenic pattern similar to that of previously studied precocial species. However, there are differences in morphology when compared to descriptions for the Old World camelids, including the absence of relation between the caudate lobe and the right kidney and the lack of interlobular connective tissue.

Bovine conceptus of Bos indicus produced by somatic cell nuclear transfer and parthenogenesis present morphological variations since the blastocyst stage / Conceptos bovinos (Bos indicus) produzidos por transferência nuclear de células somáticas e partenogênese apresentam variações morfológicas desde o estágio de blastocisto

In cattle, embryo development is characterized by the appearance of two distinct cell layers, the trophectoderm and the inner cell mass. The latter will undergo differentiation to form the embryonic disc consisting of the epiblast and hypoblast. The aim of this study was to ultrastructurally characterize the bovine embryo from different in vitro production techniques, with emphasis on trophectoderm and inner cell mass cells. Bovine embryos on day 7 (conception = D1) of pregnancy, derived via in vitro production techniques, were fixed for light and transmission electron microscopy processing. Results suggested that embryos produced by nuclear transfer of somatic cells and parthenogenesis showed significant changes in macroscopic and microscopic structure. Size was reduced, and the inner cell mass had no defined shape. Furthermore, organelles responsible for the absorption processes, communication, growth, and cellular metabolism were fewer and had changes in shape, when compared to results in embryos produced by in vitrofertilization. We concluded that embryos produced by parthenogenesis and SCNT exhibit morphological differences when compared with IVF embryos, such as undeveloped blastocoel, poorly defined distribution of ICM, and morphological differences in organelles.

Em bovinos, o desenvolvimento embrionário é caracterizado pelo surgimento de duas camadas distintas, o trofectoderma e a massa celular interna. Este último irá sofrer diferenciação para formar o disco embrionário, o qual consiste em epiblasto e hipoblasto. O objetivo deste estudo foi caracterizar ultraestruturalmente o embrião bovino proveniente de diferentes técnicas de produção in vitro, com ênfase no trofectoderma e na massa celular interna. Embriões bovinos com sete dias de gestação (fecundação = D1), derivados de técnicas de produção in vitro, foram fixados para processamento de microscopia de luz e eletrônica de transmissão. Os resultados sugerem que os embriões produzidos por transferência nuclear de células somáticas e partenogênese apresentaram alterações significativas em suas estruturas macro e microscópica. O tamanho foi reduzido, e a massa celular interna não tinha uma forma definida. Além disso, organelas responsáveis por processos de absorção, comunicação, crescimento e metabolismo celular estavam em menor número e tinham alterações na forma quando comparadas aos resultados em embriões produzidos por fertilização in vitro. Conclui-se que os embriões produzidos por SCNT e partenogênese apresentam diferenças morfológicas quando comparados aos embriões de fertilização in vitro, tais como blastocele pouco desenvolvida, massa celular interna pouco definida e diferenças morfológicas nas organelas.

Symmetry breakage in the vertebrate embryo: when does it happen and how does it work?

Asymmetric development of the vertebrate embryo has fascinated embryologists for over a century. Much has been learned since the asymmetric Nodal signaling cascade in the left lateral plate mesoderm was detected, and began to be unraveled over the past decade or two. When and how symmetry is initially broken, however, has remained a matter of debate. Two essentially mutually exclusive models prevail. Cilia-driven leftward flow of extracellular fluids occurs in mammalian, fish and amphibian embryos. A great deal of experimental evidence indicates that this flow is indeed required for symmetry breaking. An alternative model has argued, however, that flow simply acts as an amplification step for early asymmetric cues generated by ion flux during the first cleavage divisions. In this review we critically evaluate the experimental basis of both models. Although a number of open questions persist, the available evidence is best compatible with flow-based symmetry breakage as the archetypical mode of symmetry breakage.

Unique expression patterns of multiple key genes associated with the evolution of mammalian flight.

Bats are the only mammals capable of true flight. Critical adaptations for flight include a pair of dramatically elongated hands with broad wing membranes. To study the molecular mechanisms of bat wing evolution, we perform genomewide mRNA sequencing and in situ hybridization for embryonic bat limbs. We identify seven key genes that display unique expression patterns in embryonic bat wings and feet, compared with mouse fore- and hindlimbs. The expression of all 5'HoxD genes (Hoxd9-13) and Tbx3, six known crucial transcription factors for limb and digit development, is extremely high and prolonged in the elongating wing area. The expression of Fam5c, a tumour suppressor, in bat limbs is bat-specific and significantly high in all short digit regions (the thumb and foot digits). These results suggest multiple genetic changes occurred independently during the evolution of bat wings to elongate the hand digits, promote membrane growth and keep other digits short. Our findings also indicate that the evolution of limb morphology depends on the complex integration of multiple gene regulatory networks and biological processes that control digit formation and identity, chondrogenesis, and interdigital regression or retention.

Functional significance of SRJ domain mutations in CITED2.

CITED2 is a transcriptional co-activator with 3 conserved domains shared with other CITED family members and a unique Serine-Glycine Rich Junction (SRJ) that is highly conserved in placental mammals. Loss of Cited2 in mice results in cardiac and aortic arch malformations, adrenal agenesis, neural tube and placental defects, and partially penetrant defects in left-right patterning. By screening 1126 sporadic congenital heart disease (CHD) cases and 1227 controls, we identified 19 variants, including 5 unique non-synonymous sequence variations (N62S, R92G, T166N, G180-A187del and A187T) in patients. Many of the CHD-specific variants identified in this and previous studies cluster in the SRJ domain. Transient transfection experiments show that T166N mutation impairs TFAP2 co-activation function and ES cell proliferation. We find that CITED2 is phosphorylated by MAPK1 in vitro at T166, and that MAPK1 activation enhances the coactivation function of CITED2 but not of CITED2-T166N. In order to investigate the functional significance in vivo, we generated a T166N mutation of mouse Cited2. We also used PhiC31 integrase-mediated cassette exchange to generate a Cited2 knock-in allele replacing the mouse Cited2 coding sequence with human CITED2 and with a mutant form deleting the entire SRJ domain. Mouse embryos expressing only CITED2-T166N or CITED2-SRJ-deleted alleles surprisingly show no morphological abnormalities, and mice are viable and fertile. These results indicate that the SRJ domain is dispensable for these functions of CITED2 in mice and that mutations clustering in the SRJ region are unlikely to be the sole cause of the malformations observed in patients with sporadic CHD. Our results also suggest that coding sequence mutations observed in case-control studies need validation using in vivo models and that predictions based on structural conservation and in vitro functional assays, or even in vivo global loss of function models, may be insufficient.

Conditional knockout of the Menkes disease copper transporter demonstrates its critical role in embryogenesis.

The transition metal, copper (Cu), is an enzymatic cofactor required for a wide range of biochemical processes. Its essentiality is demonstrated by Menkes disease, an X-linked copper deficiency disorder characterized by defects in nervous-, cardiovascular- and skeletal systems, and is caused by mutations in the ATP7A copper transporter. Certain ATP7A mutations also cause X-linked Spinal Muscular Atrophy type 3 (SMAX3), which is characterized by neuromuscular defects absent an underlying systemic copper deficiency. While an understanding of these ATP7A-related disorders would clearly benefit from an animal model that permits tissue-specific deletion of the ATP7A gene, no such model currently exists. In this study, we generated a floxed mouse model allowing the conditional deletion of the Atp7a gene using Cre recombinase. Global deletion of Atp7a resulted in morphological and vascular defects in hemizygous male embryos and death in utero. Heterozygous deletion in females resulted in a 50% reduction in live births and a high postnatal lethality. These studies demonstrate the essential role of the Atp7a gene in mouse embryonic development and establish a powerful model for understanding the tissue-specific roles of ATP7A in copper metabolism and disease.

Toward routine use of 3D histopathology as a research tool.

Three-dimensional (3D) reconstruction and examination of tissue at microscopic resolution have significant potential to enhance the study of both normal and disease processes, particularly those involving structural changes or those in which the spatial relationship of disease features is important. Although other methods exist for studying tissue in 3D, using conventional histopathological features has significant advantages because it allows for conventional histopathological staining and interpretation techniques. Until now, its use has not been routine in research because of the technical difficulty in constructing 3D tissue models. We describe a novel system for 3D histological reconstruction, integrating whole-slide imaging (virtual slides), image serving, registration, and visualization into one user-friendly package. It produces high-resolution 3D reconstructions with minimal user interaction and can be used in a histopathological laboratory without input from computing specialists. It uses a novel method for slice-to-slice image registration using automatic registration algorithms custom designed for both virtual slides and histopathological images. This system has been applied to >300 separate 3D volumes from eight different tissue types, using a total of 5500 virtual slides comprising 1.45 TB of primary image data. Qualitative and quantitative metrics for the accuracy of 3D reconstruction are provided, with measured registration accuracy approaching 120 µm for a 1-cm piece of tissue. Both 3D tissue volumes and generated 3D models are presented for four demonstrator cases.

ΔNp63 knockout mice reveal its indispensable role as a master regulator of epithelial development and differentiation.

The transcription factor p63 is important in the development of the skin as p63-null mice exhibit striking defects in embryonic epidermal morphogenesis. Understanding the mechanisms that underlie this phenotype is complicated by the existence of multiple p63 isoforms, including TAp63 and ΔNp63. To investigate the role of ΔNp63 in epidermal morphogenesis we generated ΔNp63 knock-in mice in which the ΔNp63-specific exon is replaced by GFP. Homozygous ΔNp63(gfp/gfp) animals exhibit severe developmental anomalies including truncated forelimbs and the absence of hind limbs, largely phenocopying existing knockouts in which all p63 isoforms are deleted. ΔNp63-null animals show a poorly developed stratified epidermis comprising isolated clusters of disorganized epithelial cells. Despite the failure to develop a mature stratified epidermis, the patches of ΔNp63-null keratinocytes are able to stratify and undergo a program of terminal differentiation. However, we observe premature expression of markers associated with terminal differentiation, which is unique to ΔNp63-null animals and not evident in the skin of mice lacking all p63 isoforms. We posit that the dysregulated and accelerated keratinocyte differentiation phenotype is driven by significant alterations in the expression of key components of the Notch signaling pathway, some of which are direct transcriptional targets of ΔNp63 as demonstrated by ChIP experiments. The analysis of ΔNp63(gfp/gfp) knockout mice reaffirms the indispensable role of the ΔN isoform of p63 in epithelial biology and confirms that ΔNp63-null keratinocytes are capable of committing to an epidermal cell lineage, but are likely to suffer from diminished renewal capacity and an altered differentiation fate.

Estudo microscópico e macroscópico, com enfoque radiográfico e de alizarina, no desenvolvimento embrionário e fetal de gatos domésticos (Felis catus) em diferentes idades gestacionais / Microscopic and macroscopic study focusing ray and alizarin on embryonic and fetal development in cats (Felis catus) in different gestational ages

The domestic cat was named Felis catus by Carolus Linnaeus in his book Systema Na turae, in 1798. The family Felidae has many morphological similarities with wild felines. The study of the embryology of the domestic cat is of great value considering its importance as an experimental model for the wild cats endangered from extinction, especially in the research related to reproductive biology. The objective of this study is the descriptive embryology of the domestic cat at different stages of pregnancy, through macroscopic description of photographic records, radiographic and alizarin technique, and microscopic description of photographic records by light microscopy. In embryos with an estimated gestational age of 17 days we observed macroscopically an expansion corresponding to the rostral forebrain, the placoid site of lens, cervical flexure, the four pharyngeal arches with grooves dividing the cardiac prominence, a sign of the limb bud, and the presence of somites. In the caudal region of the embryo, we saw the cranio-caudal bend, allowing the same position in format of a "C". In embryos with an estimated age of 22 days, we noticed macroscopically the forebrain, optic vesicle pigmentation of the retina, the optic vesicle, fourth ventricle, liver, fore and hind limbs with a slight distinction between the digits and superficial vascularization. In embryos with an estimated age of 25 days we noticed presence of the forebrain and midbrain, the pronounced cervical curvature of the optic vesicle with strong pigmentation of the retina, the optic vesicle, limbs and chest well developed, distinguishing the digits and pronounced the liver Fetuses with estimated age of 52 days have internal and external structures easily identified in adult animals. With respect to the bone structure we noted that they did not have any radial bone formed, only bone shafts. Microscopically, the embryo of the domestic cat with CR of 0.9cm and estimated age of 19 days revealed the presence of beak, oral cavity with upper and lower nasal cavity, eye and opening of the 4th ventricle of the brain, esophagus, heart with atrium and ventricle, lung, liver, mesonephric ridge, primitive gonad, stomach, forelimb bud, spine and spinal cord in development. This paper is of great importance for study of the internal and external morphology of domestic cats for better understanding of the embryonic development of the species.

O gato doméstico (Felis catus) foi nomeado por Carolus Linnaeus em seu livro Systema Naturae, em 1798. A família Felidea apresenta muita semelhança morfológica com os felinos selvagens. O estudo da embriologia do gato doméstico é de grande valia, uma vez que, é considerado um importante modelo animal quando comparado aos gatos selvagem em extinção, especialmente relacionado às pesquisas sobre biologia reprodutiva. Este trabalho objetivou análisar e comparar as fases embrionárias de quatro embriões e um feto de felinos domésticos. Nos embriões com idade gestacional estimada em 17 dias (0,5cm CR) podemos observar pela análise macroscópica a presença de dilatação rostral correspondente ao prosencéfalo, o local placóide do cristalino, a flexura cervical, os quatro arcos faríngeos com os sulcos que o dividem, a proeminência cardíaca, o indício do brotamento do membro pélvico, além da presença de somitos. Na região caudal do embrião, visualizamos a curvatura cranio-caudal, permitindo ao mesmo uma posição em formato de "C". Nos embriões com idade gestacional estimada em 22 dias (1,2cm CR), na análise macroscópica foi visualizado o prosencéfalo, vesícula óptica com pigmentação da retina, vesícula ótica, quarto ventrículo, fígado, membros torácicos e pélvicos com discreta distinção dos dígitos e vascularização superficial. Nos embriões com idade gestacional estimada em 25 dias (1,5cm CR) notamos a presença do prosencéfalo e mesencéfalo, a curvatura cervical pronunciada, vesícula óptica com forte pigmentação da retina, vesícula ótica, membros pélvicos e torácicos bem desenvolvidos, com distinção dos dígitos e fígado bem pronunciado. Os fetos com idade gestacional estimada em 52 dias (10cm CR) possuem estruturas internas e externas facilmente identificadas em animais adultos. Com relação às estruturas ósseas notamos que as mesmas não apresentam nenhuma epífise óssea formada, sendo visíveis somente as diáfises ósseas. Na análise microscópica, o embrião de idade gestacional de 19 dias (0,9cm CR) revelou a presença do rostro, cavidade oral com lábio superior e inferior, cavidade nasal, olho e a abertura do 4º ventrículo encefálico, esôfago, coração com átrio e ventrículo, pulmão, fígado, crista mesonéfrica, gônada primitiva, estômago, broto do membro torácico, coluna vertebral e a medula espinhal em formação. Esse trabalho é de grande importância para o estudo da morfologia externa e interna de gatos domésticos, principalmente no que diz respeito ao desenvolvimento ósseo e articular, considerando as alterações que podem ou não ser promovidas pelo uso de terapias medicamentosas ou celulares durante o desenvolvimento embrionário e fetal.

ER71 directs mesodermal fate decisions during embryogenesis.

Er71 mutant embryos are nonviable and lack hematopoietic and endothelial lineages. To further define the functional role for ER71 in cell lineage decisions, we generated genetically modified mouse models. We engineered an Er71-EYFP transgenic mouse model by fusing the 3.9 kb Er71 promoter to the EYFP reporter gene. Using FACS and transcriptional profiling, we examined the EYFP(+) population of cells in Er71 mutant and wild-type littermates. In the absence of ER71, we observed an increase in the number of EYFP-expressing cells, increased expression of the cardiac molecular program and decreased expression of the hemato-endothelial program, as compared with wild-type littermate controls. We also generated a novel Er71-Cre transgenic mouse model using the same 3.9 kb Er71 promoter. Genetic fate-mapping studies revealed that the ER71-expressing cells give rise to the hematopoietic and endothelial lineages in the wild-type background. In the absence of ER71, these cell populations contributed to alternative mesodermal lineages, including the cardiac lineage. To extend these analyses, we used an inducible embryonic stem/embryoid body system and observed that ER71 overexpression repressed cardiogenesis. Together, these studies identify ER71 as a critical regulator of mesodermal fate decisions that acts to specify the hematopoietic and endothelial lineages at the expense of cardiac lineages. This enhances our understanding of the mechanisms that govern mesodermal fate decisions early during embryogenesis.

Glial cells in the mouse enteric nervous system can undergo neurogenesis in response to injury.

The enteric nervous system (ENS) in mammals forms from neural crest cells during embryogenesis and early postnatal life. Nevertheless, multipotent progenitors of the ENS can be identified in the adult intestine using clonal cultures and in vivo transplantation assays. The identity of these neurogenic precursors in the adult gut and their relationship to the embryonic progenitors of the ENS are currently unknown. Using genetic fate mapping, we here demonstrate that mouse neural crest cells marked by SRY box-containing gene 10 (Sox10) generate the neuronal and glial lineages of enteric ganglia. Most neurons originated from progenitors residing in the gut during mid-gestation. Afterward, enteric neurogenesis was reduced, and it ceased between 1 and 3 months of postnatal life. Sox10-expressing cells present in the myenteric plexus of adult mice expressed glial markers, and we found no evidence that these cells participated in neurogenesis under steady-state conditions. However, they retained neurogenic potential, as they were capable of generating neurons with characteristics of enteric neurons in culture. Furthermore, enteric glia gave rise to neurons in vivo in response to chemical injury to the enteric ganglia. Our results indicate that despite the absence of constitutive neurogenesis in the adult gut, enteric glia maintain limited neurogenic potential, which can be activated by tissue dissociation or injury.