Morphology, development, and evolution of fetal membranes and placentation in squamate reptiles

Blackburn, Daniel G.; Flemming, Alexander F.

doi:10.1002/jez.b.21234

Cited by 54 publications

(62 citation statements)

References 53 publications

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“…(Stewart & Thompson 2004. Although they lack a placentome, the highly placentotrophic skinks of the genera Eumecia and Trachylepis appear to transport nutrients across both chorioallantoic and yolk-sac placentae (Flemming & Branch 2001, Blackburn & Flemming 2009). …”

Section: Mechanisms Of Placental Nutrient Transportmentioning

confidence: 99%

“…The highly placentotrophic Eumecia sp., Mabuya sp., and Trachylepis sp. also appear to transport nutrients across yolk-sac placentae (Flemming & Branch 2001, Jerez & Ramirez-Pinilla 2001, Blackburn & Flemming 2009). In contrast, the genera Eulamprus, Thamnophis, and Virginia are not placentotrophic, which suggests that uterine epithelial hypertrophy in the yolk-sac placenta is not always associated with organic nutrient transport , Thompson et al 2001a.…”

Section: Mechanisms Of Placental Nutrient Transportmentioning

confidence: 99%

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The evolution of viviparity: molecular and genomic data from squamate reptiles advance understanding of live birth in amniotes

2014

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Squamate reptiles (lizards and snakes) are an ideal model system for testing hypotheses regarding the evolution of viviparity (live birth) in amniote vertebrates. Viviparity has evolved over 100 times in squamates, resulting in major changes in reproductive physiology. At a minimum, all viviparous squamates exhibit placentae formed by the appositions of maternal and embryonic tissues, which are homologous in origin with the tissues that form the placenta in therian mammals. These placentae facilitate adhesion of the conceptus to the uterus as well as exchange of oxygen, carbon dioxide, water, sodium, and calcium. However, most viviparous squamates continue to rely on yolk for nearly all of their organic nutrition. In contrast, some species, which rely on the placenta for at least a portion of organic nutrition, exhibit complex placental specializations associated with the transport of amino acids and fatty acids. Some viviparous squamates also exhibit reduced immunocompetence during pregnancy, which could be the result of immunosuppression to protect developing embryos. Recent molecular studies using both candidate-gene and next-generation sequencing approaches have suggested that at least some of the genes and gene families underlying these phenomena play similar roles in the uterus and placenta of viviparous mammals and squamates. Therefore, studies of the evolution of viviparity in squamates should inform hypotheses of the evolution of viviparity in all amniotes, including mammals.Reproduction (2014) 147 R15-R26

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Section: Mechanisms Of Placental Nutrient Transportmentioning

confidence: 99%

Section: Mechanisms Of Placental Nutrient Transportmentioning

confidence: 99%

The evolution of viviparity: molecular and genomic data from squamate reptiles advance understanding of live birth in amniotes

2014

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“…There are however, significant differences in the extraembryonic membranes of chickens and those of lizards, turtles and snakes [3][4][5]. Most of these investigations have centred on the chorion and allantois, with little attention paid to the yolk sac.…”

Section: Introductionmentioning

confidence: 99%

The corn snake yolk sac becomes a solid tissue filled with blood vessels and yolk-rich endodermal cells

Elinson

Stewart

2014

Biol. Lett.

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The amniote egg was a key innovation in vertebrate evolution because it supports an independent existence in terrestrial environments. The egg is provisioned with yolk, and development depends on the yolk sac for the mobilization of nutrients. We have examined the yolk sac of the corn snake Pantherophis guttatus by the dissection of living eggs. In contrast to the familiar fluid-filled sac of birds, the corn snake yolk sac invades the yolk mass to become a solid tissue. There is extensive proliferation of yolk-filled endodermal cells, which associate with a meshwork of blood vessels. These novel attributes of the yolk sac of corn snakes compared with birds suggest new pathways for the evolution of the amniote egg.

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“…Its acquisition, that is, the "amniotic egg" was one of the main causes that enabled amniotes to escape the bonds that confined their ancestors to aquatic environments [178,188]. If so, it could be proposed that there this is no better method to escape the sea than taking the sea with us, as an amniotic-mesothelial structure full of saline trophic fluid [188,189]. Since this ability would be associated in the post-natal life with mesothelial cells, its major spread through the body is not surprising, coating cavities, i.e.…”

Section: Portal Hypertensive Ascites and The Amniotic Way Of Lifementioning

confidence: 99%

Portal hypertension-related inflammatory phenotypes: From a vitelline and amniotic point of view

Aller¹,

Arias²,

Prieto³

et al. 2012

ABB

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Prehepatic portal hypertension induces a splanchnic low-grade inflammatory response that could switch to high-grade inflammation with the development of severe and life-threatening complications when associated with chronic liver disease. The extraembryonic origin of the portal system maybe determines the regression to an extraembryonic phenotype, i.e., vitellogenic and amniotic, during the evolution of both types of portal hypertension. Thus, prehepatic portal hypertension, or compensated hypertension by portal vein ligation in the rat, is associated with molecular mechanisms related to vitellogenesis, where hepatic steatosis and splanchnic angiogenesis stand out. In turn, extrahepatic cholestasis in the rat induces intrahepatic portal hypertension, or decompensated hypertension, with ascites and hepatorenal syndrome. The splanchnic interstitium, the mesenteric lymphatic system, and the peritoneal mesothelium seem to create an inflammatory pathway that could have a key pathophysiological relevance in the production of ascites. The hypothetical comparison between the ascitic and the amniotic fluid also allows for translational investtigation. The induced regression of the splanchnic system to extraembryonic functions by portal hypertension highlights the great relevance of the extraembryonic structures even during post-natal life.

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Morphology, development, and evolution of fetal membranes and placentation in squamate reptiles

Cited by 54 publications

References 53 publications

The evolution of viviparity: molecular and genomic data from squamate reptiles advance understanding of live birth in amniotes

The evolution of viviparity: molecular and genomic data from squamate reptiles advance understanding of live birth in amniotes

The corn snake yolk sac becomes a solid tissue filled with blood vessels and yolk-rich endodermal cells

Portal hypertension-related inflammatory phenotypes: From a vitelline and amniotic point of view

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