Molecular Mechanisms and Determinants of Species Sensitivity in Thalidomide Teratogenesis

Lee, Crystal J. J.

14 August 2013

The expanding therapeutic use of thalidomide (TD) remains limited by its species-specific teratogenicity in humans and rabbits, but not rodents. The R and S isomers of TD may be selectively responsible for its respective therapeutic and teratogenic effects, but rapid in vivo racemization makes this impossible to confirm. Fluorothalidomide (FTD), a fluorinated TD analogue with stable, non-racemizing isomers, may serve as a model compound for determining stereoselective effects. In vivo, FTD was undetectable in plasma, suggesting rapid breakdown, as confirmed in vitro, where FTD hydrolyzed up to 22-fold faster than TD. Unlike TD, FTD in pregnant rabbits and mice was highly toxic and lethal to both dams and fetuses. In rabbit embryo culture, FTD initiated optic (eye) vesicle and hindbrain but not classic limb bud embryopathies. Chemical instability, potent general toxicity and absence of limb bud embryopathies make FTD an unsuitable stereoselective model for TD teratogenesis. TD teratogenesis may involve its bioactivation by embryonic prostaglandin H synthases (PHSs) to a free radical intermediate that increases embryopathic reactive oxygen species (ROS) formation. However, the teratogenic potential of rapidly formed TD hydrolysis products and the determinants of species-specific teratogenesis are unclear. For some teratogens, mouse strains that are resistant in vivo are susceptible in embryo culture, suggesting maternal and/or placental determinants of risk. However, TD and two hydrolysis products, 2-phthalimidoglutaramic acid (PGMA) and 2-phthalimidoglutaraic acid (PGA), were non-embryopathic in CD-1 mouse embryo culture. Also, mice deficient in oxoguanine glycosylase 1 (OGG1), which repairs oxidatively damaged DNA, were resistant to TD embryopathies in culture and in vivo. Therefore, murine resistance to TD teratogenesis is dependent on embryonic factors, rather than maternal/placental determinants or increased DNA repair. In contrast, rabbit embryos exposed in culture to TD, PGMA and PGA exhibited head/brain, otic (ear) vesicle and classic limb bud embryopathies, validating the first mammalian embryo culture model for TD teratogenesis and providing the first evidence of a teratogenic role for TD hydrolysis products. Pretreatment with eicosatetraynoic acid (ETYA), a dual PHS/lipoxygenase inhibitor, or phenylbutylnitrone (PBN), a free radical spin trapping agent, completely blocked TD, PGMA and PGA-initiated embryopathies, implicating a PHS-dependent, ROS-mediated embryopathic mechanism.

thalidomide

birth defects (teratogenesis)

hydrolysis products

rabbit embryo culture

mouse embryo culture

limb embryopathies

fluorothalidomide

thalidomide analogs

reactive oxygen species

free radical reactive intermediates

oxidative DNA damage

8-oxoguanine glycosylase 1 (Ogg1)

DNA repair

prostaglandin H synthase (PHS)

xenobiotic bioactivation

0383

0419

Efeitos biológicos e avaliação dose-resposta das partículas de exaustão do diesel sobre o desenvolvimento embrionário inicial de camundongos / Biological effects and dose-response assessment of diesel exhaust particles on in vitro early embryo development in mice

Januário, Daniela Aparecida Nicolosi Foltran

12 March 2010

Experimentos anteriores realizados em nosso laboratório indicam que o sucesso gestacional é afetado pela poluição atmosférica. O presente estudo teve como objetivo avaliar os efeitos biológicos associados a uma curva dose resposta das partículas de exaustão do diesel (PED) sobre o desenvolvimento embrionário inicial e o potencial de implantação, utilizando-se como modelo a fertilização in vitro e o cultivo embrionário de camundongos. No Experimento 1, encontrou-se um efeito negativo dose-dependente sobre o desenvolvimento embrionário inicial, o processo de eclosão, a alocação das células e a morfologia da massa celular interna (MCI) dos blastocistos. A análise post-hoc revelou que o desenvolvimento precoce do embrião não foi afetado pelas concentrações de 0,2 µg/cm2 ou 2 µg/cm2, mas foi significativamente afetado pela concentração de 20 µg/cm2 de PED. O processo de eclosão foi prejudicado pelas concentrações de 2 µg/cm2 e 20 µg/cm2. A alocação das células da MCI e a relação entre as células da MCI e do trofectoderma foram significativamente afetadas por todas as concentrações. Adicionalmente, observou-se um efeito negativo sobre a morfologia da MCI para as concentrações de 2 µg/cm2 e 20 µg/cm2. O Experimento 2, apesar de não mostrar efeito significativo sobre o potencial de implantação, evidenciado pela capacidade de adesão dos blastocistos e crescimento trofoblástico, revelou que a morfologia da MCI no dia 8 de cultivo, as taxas de viabilidade e de apoptose celular e a expressão de Oct4 e Cdx2 foram significativamente afetadas. O teste HSD-Tukey demonstrou que a presença de PED (0,2 µg/cm2 e 2 µg/cm2) durante o desenvolvimento embrionário aumentou significativamente a taxa de células em apoptose dos embriões tanto no dia 5 quanto no dia 8 de cultivo e, embora a proporção de células viáveis no dia 8 tenha sido prejudicada por ambas as concentrações, apenas a exposição a 2 µg/cm2 de PED diminuiu a viabilidade celular no dia 5. Por outro lado, tanto a concentração de 0,2 µg/cm2 como a de 2 µg/cm2 tiveram um efeito negativo significativo sobre a qualidade da MCI no dia 8 e a taxa de expressão de Oct4 nos blastocistos e aumentaram a porcentagem de células desses blastocistos expressando Cdx2, adicionalmente, a razão Oct4/Cdx2 dos embriões expostos a 0,2 µg/cm2 e 2 µg/cm2 foi significativamente menor. Frente a esses resultados, presumi-se que as PED poderiam estar envolvidas nos mecanismos que levariam à diminuição do sucesso reprodutivo observado em camundongos expostos à poluição atmosférica ambiental / Previous experiments conducted in our laboratory demonstrate that successful pregnancy is affected by air pollution. The aim of this study was to evaluate the biological effects associated with a dose-response curve of the diesel exhaust particles (DEP) on early embryonic development and implantation potential, using mice in vitro fertilization and culture embryo as model. In Experiment 1, we found a negative dose-dependent effect on the embryonic development, hatching process, cell allocation and morphology of inner cell mass (ICM) of blastocysts. A post-hoc analysis revealed that the early development of the embryo was not affected by concentrations of 0.2 g/cm2 or 2g/cm2, but was significantly affected by the concentration of 20 g/cm2 of DEP. The hatching process was impaired by concentrations of 2 g/cm2 and 20 g/cm2. Cell allocation of ICM and the ratio between cells of ICM and trophectoderm were significantly affected by all concentrations. Addicionaly, we observed a negative effect on ICM morphology was observed for the 2 µg/cm2 and the 20 µg/cm2 concentrations. Experiment 2, despite showing no significant effect on implantation potential, as evidenced by the adhesion ability and trophoblast outgrowth, revealed that ICM morphology on day 8 of culture, rates of cell viability and apoptosis, and expression of Oct4 and Cdx2 were significantly affected. The Tukey HSD test showed that presence of DEP (0.2 g/cm2 and 2 g/cm2) during embryonic development increased significantly the rate of apoptotic cells in embryos as on day 5 as on day 8 of culture, although the proportion of viable cells on day 8 was impaired by both concentrations, only exposure to 2 g/cm2 PED decreased cell viability on day 5. On the other hand, both the concentration of 0.2 g/cm2 such as 2 g/cm2 had a significant negative effect on the quality of ICM on the day 8 and the rate of expression of Oct4 on blastocysts, and increased the percentage of cells from these embryos expressing Cdx2, also, Oct4/Cdx2 ratio were significantly lower in the blastocysts derived from embryos exposed to 0.2 g/cm2 and 2 g/cm2¬ concentrations. Given these results, the suggestion is that DEP could be involved in the mechanisms that lead to decreased reproductive success observed in mice exposed to environmental pollution

Apoptose

Apoptosis

Blastocisto

Blastocyst

Camundongo

Cdx2

Cdx2

Crescimento trofoblástico

Cultivo embrionário

Diesel exhaust particles

Embryo culture

Fertilização in vitro

In vitro fertilization

Mouse

Oct4

Oct4

Partículas de exaustão do diesel

Trophoblast outgrowth

Viabilidade

Viability

Efeitos biológicos e avaliação dose-resposta das partículas de exaustão do diesel sobre o desenvolvimento embrionário inicial de camundongos / Biological effects and dose-response assessment of diesel exhaust particles on in vitro early embryo development in mice

Daniela Aparecida Nicolosi Foltran Januário

12 March 2010

Experimentos anteriores realizados em nosso laboratório indicam que o sucesso gestacional é afetado pela poluição atmosférica. O presente estudo teve como objetivo avaliar os efeitos biológicos associados a uma curva dose resposta das partículas de exaustão do diesel (PED) sobre o desenvolvimento embrionário inicial e o potencial de implantação, utilizando-se como modelo a fertilização in vitro e o cultivo embrionário de camundongos. No Experimento 1, encontrou-se um efeito negativo dose-dependente sobre o desenvolvimento embrionário inicial, o processo de eclosão, a alocação das células e a morfologia da massa celular interna (MCI) dos blastocistos. A análise post-hoc revelou que o desenvolvimento precoce do embrião não foi afetado pelas concentrações de 0,2 µg/cm2 ou 2 µg/cm2, mas foi significativamente afetado pela concentração de 20 µg/cm2 de PED. O processo de eclosão foi prejudicado pelas concentrações de 2 µg/cm2 e 20 µg/cm2. A alocação das células da MCI e a relação entre as células da MCI e do trofectoderma foram significativamente afetadas por todas as concentrações. Adicionalmente, observou-se um efeito negativo sobre a morfologia da MCI para as concentrações de 2 µg/cm2 e 20 µg/cm2. O Experimento 2, apesar de não mostrar efeito significativo sobre o potencial de implantação, evidenciado pela capacidade de adesão dos blastocistos e crescimento trofoblástico, revelou que a morfologia da MCI no dia 8 de cultivo, as taxas de viabilidade e de apoptose celular e a expressão de Oct4 e Cdx2 foram significativamente afetadas. O teste HSD-Tukey demonstrou que a presença de PED (0,2 µg/cm2 e 2 µg/cm2) durante o desenvolvimento embrionário aumentou significativamente a taxa de células em apoptose dos embriões tanto no dia 5 quanto no dia 8 de cultivo e, embora a proporção de células viáveis no dia 8 tenha sido prejudicada por ambas as concentrações, apenas a exposição a 2 µg/cm2 de PED diminuiu a viabilidade celular no dia 5. Por outro lado, tanto a concentração de 0,2 µg/cm2 como a de 2 µg/cm2 tiveram um efeito negativo significativo sobre a qualidade da MCI no dia 8 e a taxa de expressão de Oct4 nos blastocistos e aumentaram a porcentagem de células desses blastocistos expressando Cdx2, adicionalmente, a razão Oct4/Cdx2 dos embriões expostos a 0,2 µg/cm2 e 2 µg/cm2 foi significativamente menor. Frente a esses resultados, presumi-se que as PED poderiam estar envolvidas nos mecanismos que levariam à diminuição do sucesso reprodutivo observado em camundongos expostos à poluição atmosférica ambiental / Previous experiments conducted in our laboratory demonstrate that successful pregnancy is affected by air pollution. The aim of this study was to evaluate the biological effects associated with a dose-response curve of the diesel exhaust particles (DEP) on early embryonic development and implantation potential, using mice in vitro fertilization and culture embryo as model. In Experiment 1, we found a negative dose-dependent effect on the embryonic development, hatching process, cell allocation and morphology of inner cell mass (ICM) of blastocysts. A post-hoc analysis revealed that the early development of the embryo was not affected by concentrations of 0.2 g/cm2 or 2g/cm2, but was significantly affected by the concentration of 20 g/cm2 of DEP. The hatching process was impaired by concentrations of 2 g/cm2 and 20 g/cm2. Cell allocation of ICM and the ratio between cells of ICM and trophectoderm were significantly affected by all concentrations. Addicionaly, we observed a negative effect on ICM morphology was observed for the 2 µg/cm2 and the 20 µg/cm2 concentrations. Experiment 2, despite showing no significant effect on implantation potential, as evidenced by the adhesion ability and trophoblast outgrowth, revealed that ICM morphology on day 8 of culture, rates of cell viability and apoptosis, and expression of Oct4 and Cdx2 were significantly affected. The Tukey HSD test showed that presence of DEP (0.2 g/cm2 and 2 g/cm2) during embryonic development increased significantly the rate of apoptotic cells in embryos as on day 5 as on day 8 of culture, although the proportion of viable cells on day 8 was impaired by both concentrations, only exposure to 2 g/cm2 PED decreased cell viability on day 5. On the other hand, both the concentration of 0.2 g/cm2 such as 2 g/cm2 had a significant negative effect on the quality of ICM on the day 8 and the rate of expression of Oct4 on blastocysts, and increased the percentage of cells from these embryos expressing Cdx2, also, Oct4/Cdx2 ratio were significantly lower in the blastocysts derived from embryos exposed to 0.2 g/cm2 and 2 g/cm2¬ concentrations. Given these results, the suggestion is that DEP could be involved in the mechanisms that lead to decreased reproductive success observed in mice exposed to environmental pollution

Apoptose

Blastocisto

Camundongo

Cdx2

Crescimento trofoblástico

Cultivo embrionário

Fertilização in vitro

Oct4

Partículas de exaustão do diesel

Viabilidade

Apoptosis

Blastocyst

Cdx2

Diesel exhaust particles

Embryo culture

In vitro fertilization

Mouse

Oct4

Trophoblast outgrowth

Viability

The Histidine-rich Glycoprotein in Reproduction

Lindgren, Karin E

January 2016

Infertility affects 15% of reproductive-aged couples. The milieu surrounding the growing embryo is of outmost importance, and should be optimised during in vitro fertilisation (IVF). Many biological processes, such as angiogenesis, coagulation, and immune processes need to be well regulated for a pregnancy to occur and progress normally. Histidine-rich glycoprotein (HRG) is a plasma protein that regulates components of these systems by building complexes with various ligands. A single nucleotide polymorphism (SNP) in HRG, denoted HRG C633T, seem to be of importance for IVF treatment outcomes. The aim of this thesis was to further investigate the proposed human fertility effects of the HRG C633T SNP. According to the findings of this thesis, the HRG C633T genotype is associated with primary recurrent miscarriage. Male HRG C633T genotype is associated with semen characteristics in infertile men, and pregnancy rates following IVF. However, the distribution of the HRG C633T SNP does not differ between infertile and fertile couples. We further examined the role of the region surrounding the HRG C633T SNP for regulation of endometrial angiogenesis and human embryo development. The region affects primary endometrial endothelial cell migration, proliferation and tube-formation in vitro but does not appear to affect human embryo development. No effect of the HRG peptide was noted on the secretome of human embryos. However, early embryos secrete proteins into the surrounding culture media and the level of secretion of VEGF-A, IL-6, EMMPRIN and PlGF is greater in embryos of higher developmental stages. In conclusion, the HRG C633T genotype appears to play a role only if infertility is established. The region surrounding HRG C633T SNP is of relevance in vitro for regulation of human endometrial endothelial cell angiogenesis. To predict which embryos to transfer in IVF, we have highlighted a number of proteins of interest for further investigation.

Angiogenesis

embryo culture medium

embryogenesis

embryonic secretome

endometrium

histidine-rich glycoprotein

human embryo development

human embryo implantation

human endometrial endothelial cells

in vitro fertilisation

infertility

male infertility

proximity extension assay

recurrent miscarriage

single nucleotide polymorphism

sperm quality

time-lapse technique

vascular endothelial growth factor