The evolution of placental mammals.

Based on morphological, virological, biochemical and molecular biological data, it is proposed that the presence of endogenous retrovirus particles in the placental cytotrophoblasts of many mammals is indicative of some beneficial action provided by the virus in relation to cell fusion, syncytiotrophoblast formation and the creation of the placenta. Further, it is hypothesised that the germ line retroviral infection of some primitive mammal-like species resulted in the evolution of the placental mammals.     

Catechol estradiol induced implantation in the mouse

Induction of implantation is among the most sensitive responses to estrogens. The ability of catechol estradiols, 4-hydroxy-estradiol-17 beta (4-OH-E2) and 2-hydroxy-estradiol-17 beta (2-OH-E2), to induce implantation in ovariectomized pregnant mice was compared to that of estradiol-17 beta. Delayed implantation was maintained by the daily administration of 2 mg of progesterone. A single injection of 3 ng of estradiol-17 beta, 50 ng of 4-OH-E2, or 2,000 ng of 2-OH-32 consistently induce a full complement of implantation sites in all animals. Before the estrogenicity of the latter steroid can be established the lack of contaminating estrogens must be proved.     

Extensive intron gain in the ancestor of placental mammals

Background

Genetic plasticity may be understood as the ability of a functional gene network to tolerate alterations in its components or structure. Usually, the studies involving gene modifications in the course of the evolution are concerned to nucleotide sequence alterations in closely related species. However, the analysis of large scale data about the distribution of gene families in non-exclusively closely related species can provide insights on how plastic or how conserved a given gene family is. Here, we analyze the abundance and diversity of all Eukaryotic Clusters of Orthologous Groups (KOG) present in STRING database, resulting in a total of 4,850 KOGs. This dataset comprises 481,421 proteins distributed among 55 eukaryotes.

Results

We propose an index to evaluate the evolutionary plasticity and conservation of an orthologous group based on its abundance and diversity across eukaryotes. To further KOG plasticity analysis, we estimate the evolutionary distance average among all proteins which take part in the same orthologous group. As a result, we found a strong correlation between the evolutionary distance average and the proposed evolutionary plasticity index. Additionally, we found low evolutionary plasticity in Saccharomyces cerevisiae genes associated with inviability and Mus musculus genes associated with early lethality. At last, we plot the evolutionary plasticity value in different gene networks from yeast and humans. As a result, it was possible to discriminate among higher and lower plastic areas of the gene networks analyzed.

Conclusions

The distribution of gene families brings valuable information on evolutionary plasticity which might be related with genetic plasticity. Accordingly, it is possible to discriminate among conserved and plastic orthologous groups by evaluating their abundance and diversity across eukaryotes.

Reviewers

This article was reviewed by Prof Manyuan Long, Hiroyuki Toh, and Sebastien Halary.     

Ovum lipids of placental mammals]

Morphocytochemical peculiarities of lipids from oocytes of some mammals and man were studied. The human oocytes, according to the structure and content of yolk, bear a close relation to a hare and a rabbit much differing from gametes of predatory animals (dog, cat), artiodactyla (sow), rodents (golden hamster). By thin layer chromatography on silicagel, a detailed lipid composition was established in the rabbit's oocytes, with neutral lipid and phospholipids (kefalin, lecitin, sfingomyelin) dominating. In addition, cholesterin was found.     

Sex chromosomes of basal placental mammals

Placental (eutherian) mammals are currently classified into four superordinal clades (Afrotheria, Xenarthra, Laurasiatheria and Supraprimates) of which one, the Afrotheria (a unique lineage of African origin), is generally considered to be basal. Therefore, Afrotheria provide a pivotal evolutionary link for studying fundamental differences between the sex chromosomes of human/mouse (both representatives of Supraprimates and the index species for studies of sex chromosomes) and those of the distantly related marsupials. In this study, we use female fibroblasts to investigate classical features of X chromosome inactivation including replication timing of the X chromosomes and Barr body formation. We also examine LINE-1 accumulation on the X chromosomes of representative afrotherians and look for evidence of a pseudoautosomal region (PAR). Our results demonstrate that asynchronous replication of the X chromosomes is common to Afrotheria, as with other mammals, and Barr body formation is observed across all Placentalia, suggesting that mechanisms controlling this evolved before their radiation. Finally, we provide evidence of a PAR (which marsupials lack) and demonstrate that LINE1 is accumulated on the afrotherian and xenarthran X, although this is probably not due to transposition events in a common ancestor, but rather ongoing selection to retain recently inserted LINE1 on the X.     

Cryptosporidium in wild placental mammals

Cryptosporidium species are common parasites of wild placental mammals. Recent parasitological studies combined with molecular genotyping techniques have been providing valuable new insight into the host specificity and potential transmission of various Cryptosporidium species/genotypes among animals and between these animals and humans. Although Cryptosporidium in wild animals may possess a potential public health problem due to oocyst contamination in the environment, studies at various regions of the world have indicated a strong host-adaptation by these parasites and a limited potential of cross-species transmission of cryptosporidiosis among placental mammals, suggesting that these animals are probably not a major reservoir for human infection. However, Cryptosporidium species/genotypes in placental animals have been reported occasionally in humans. Therefore, public health significance of some Cryptosporidium species in wild placental mammals, such as the cervine genotype, should not be overlooked and should be further studied.     

Chemical modification of lysine residues at active-site of human placental estradiol 17 beta-dehydrogenase

Estradiol 17 beta-dehydrogenase (EC 1.1.1.62.) activity was decreased by 2,4,6-trinitrobenzene sulfonate (TNBS), a reagent for modification of epsilon-amino moiety of lysine residues in a protein. The inactivation exhibited pseudo-first-order kinetics, and was protected by oxidyzed cofactors. Stoichiometric studies showed that the complete inactivation was caused by modification of one lysine residue per molecule of the enzyme. Differential modification with 5,5'-dithio-bis-(2-nitrobenzoic acid) (DTNB), TNBS and dithiothreitol (DTT) indicated that the residues of lysine and cysteine were located at the active-site and played an essential role in the catalytic function of the estradiol 17 beta-dehydrogenase.     

Molecular evidence for the early divergence of placental mammals

Paleontological and molecular data suggest quite different patterns for the early evolution of placental mammals. Paleontological evidence indicates a radiation, with most of the extant orders diverging at approximately the same time, close to the Cretaceous-Tertiary boundary, 65 Myr ago. Molecular evidence suggests a branching pattern of evolution that started much earlier. Resolving this discrepancy requires a consideration of the assumptions that underlie both approaches. It is argued here that the pattern indicated by the molecular approach is the most likely to be correct. If it is correct then either: 1) A diversity of placental mammals remains to be sampled from the Cretaceous, or 2) The placental orders diverged phylogenetically long before they diversified morphologically, implying a decoupling of the evolutionary processes associated with speciation and adaptation. The adaptive diversification of placental mammals may have required the demise of the dinosaurs at the end of the Cretaceous, but it occurred in lineages that had a long prior history of independent existence. 1999.     

Apoptosis at the time of embryo implantation in mouse and rat.

The aim of this review is to summarize the information currently available regarding the occurrence of apoptosis in the developing embryo and in the receptive uterus during the peri-implantation period of gestation. Cell death is detected in the inner cell mass of late pre-implantation embryos as the result of an eliminative process that helps trim the embryonic cell lineages of surplus or dysfunctional stem cells. Cell death is also detected in the epiblastic core of early post-implantation embryos, where the process is implicated in the formation of the pro-amniotic cavity. On the maternal side, uterine epithelial cells situated around the attachment site undergo cell death during the initial phase of implantation in order to facilitate embryo anchorage and access to maternal blood supply. Uterine stromal cells closest to the implantation chamber first transform into decidual cells and then commit suicide to make room for the rapidly growing embryo. Although apoptosis is well recognized as a crucial determinant of successful peri-implantation development, our understanding of the cellular and molecular mechanisms regulating this process clearly lags behind the comprehension of cell death control in other systems.     

Uterine estrogen sulfatase activity at the time of blastocyst implantation in the rat

The conversion of estrone sulfate (E1S) to estrone (E1) was measured during the in vitro incubation of the labeled sulfoconjugate with implantation sites (IS) and nonimplanted regions (NIS) of uterine horns from 6-day pregnant rats. Extensive metabolism of E1S occurred in both tissues, being noticeably less (29.31%) in IS than in NIS. Estrogen sulfatase activity present in the uterus of ovariectomized virgin rats was found to be higher than in both uterine regions of the pregnant rats. We suggest that E1S present in uterine fluids may be accessible to be metabolized into unconjugated estrogens by both intrauterine tissues of 6-day pregnant rats. This metabolism could be locally modulated in IS through the participation of the estrogen sulfatase, the activity of which is in turn controlled by the presence of free estrogens, possibly synthesized and/or secreted by the embryo, which has been shown to inhibit the sulfohydrolase activity.     

Dose-related action of estradiol on placental prostanoid prediction

Prostanoids play an important role throughout all of pregnancy and during the initiation and progress of labor. The human placenta at term produces large quantities of prostanoids, yet little is known of the factors that regulate their biosynthesis. Herein, we report the effect of estradiol or estradiol and progesterone on the basal release of placental prostanoids from fresh human term placental explants using a perifusion system.The basal release of prostaglandin E₂ (PGE₂, prostaglandin F_2α (PGF_2α), thromboxane (TxB₂) and 6-keto-prostaglandin F_1α (6-keto-PGF_1α) increased about 50% from the fifth to the ninth hour in culture, while the release of 13, 14-dihydro-15-keto-PGF (PGFM) remained constant and hCG release decreased. The dose-related effect of estradiol (20–2,000 ng/ml) in the perifusing medium starting at the fifth hour of perifusiOn (i.e., the zero treatment time) effected no change in the release of TxB₂, PGF_2α, PGFM or hCG. A biphasic action on the release of 6-keto-PGF,. was observed, i.e. it was significantly decreased when incubated with 20 ng/ml of estradiol, but effected an increase after exposure to 200 ng/ml. The concomitant addition of progesterone (2,000 ng/ml) with estradiol (200 ng/ml) significantly inhibited the stimulatory action of estradiol at this dose. The release of PGE₂ was inhibited in a dose-related fashion with increasing dose of estradiol. The addition of progesterone with estradiol (2,000 and 200 ng/ml, respectively) reversed the inhibition of PGE₂ by estradiol alone.These data demonstrate that physiologic levels of estradiol affect 6-keto-PGF_α and PGE₂ release from the human term placenta, but do not significantly alter production of TxB₂, PGFM or hCG under these conditions.