Chromatin Modifying Agents in the In Vitro Production of Bovine Embryos

The low efficiency observed in cloning by nuclear transfer is related to an aberrant gene expression following errors in epigenetic reprogramming. Recent studies have focused on further understanding of the modifications that take place in the chromatin of embryos during the preimplantation period, through the use of chromatin modifying agents. The goal of these studies is to identify the factors involved in nuclear reprogramming and to adjust in vitro manipulations in order to better mimic in vivo conditions. Therefore, proper knowledge of epigenetic reprogramming is necessary to prevent possible epigenetic errors and to improve efficiency and the use of in vitro fertilization and cloning technologies in cattle and other species

Assessment of different in vitro sperm challenges and in vivo fertility of bovine semen batches

O objetivo deste estudo foi estressar células espermáticas em diferentes desafios laboratoriais e comparar os resultados in vitro com a fertilidade in vivo do sêmen. Quatro partidas de um mesmo touro Brangus foram utilizadas em um programa de IATF de 332 vacas Brangus. Cada partida foi submetida ao seguinte procedimento: a amostra de sêmen foi descongelada a 36°C por 30 segundos (grupo controle). Foram avaliados parâmetros de motilidade espermática (CASA), integridade da membrana plasmática (PMI), morfologia e concentração espermática. Em seguida, uma alíquota da amostra descongelada foi incubada em banho-maria a 45°C durante 40 minutos (grupo de desafio térmico, TCG) e outra alíquota foi centrifugada a 500 xg (gradiente de Percoll 45%/90%) durante 15 min (grupo desafio de centrifugação, CCG). Uma aliquota do sêmen centrifugado foi ainda submetida ao desafio térmico, sendo incubado a 45°C durante 40 min (grupo de desafio térmico + centrifugação, CTCG). No final de cada desafio (CCG, TCG e CTCG), os mesmos testes laboratoriais utilizados para o grupo de controle foram realizados. A seguinte taxa de concepção (CR) foi observada para cada partida (B): B1 = 48,9% (44/90), B2 = 44,2% (23/52), B3 = 55,5% (40/72) e B4 = 43,2% (51/118); (P < 0,10). No laboratório, B3 apresentou maior (P ≤ 0,05) motilidade progressiva (PM) do que B4 logo após o descongelamento (grupo controle) e após todos os desafios laboratoriais (TCG, CCG e CTCG). Porém, apesar de B3 e B4 demonstrarem similar porcentagem de PMI no grupo controle (B3 = 66,7 ± 1,3 e B4 = 65,2 ± 3,3), B3 apresentou maior (P ≤ 0,05) PMI (37,2 ± 2,5%) do que B4 (26,7 ± 3,3%) após passar pelo maior desafio laboratorial (CTCG). A partida seminal que in vitro apresentou maior resistência aos desafios laboratoriais foi a mesma que apresentou tendência para maior fertilidade in vivo. Assim, sugere-se que submeter amostras seminais a desafios laboratoriais pode ser uma alternativa interessante para selecionar partidas com maior fertilidade a campo.The aim of this work was to submit sperm cells to different laboratory challenges and  to compare in vitro results with in vivo semen fertility. Four different batches from the same Brangus bull were used in a timed-AI program of 332 Brangus cows. Each batch (B) was submitted to the following procedure: semen sample was thawed at 36°C for 30 seconds (control). Sperm motility parameters, plasma membrane integrity, sperm morphology, and concentration were assessed. Then, an aliquot of thawed sample was incubated in a water bath at 45°C for 40 min (thermal challenge group; TCG) and another aliquot was centrifuged at 500 xg (Percoll gradient 45%/90%) for 15 min (centrifugation challenge group; CCG). Centrifuged semen was also submitted to another thermal challenge, being incubated (water bath) at 45°C for 40 min (centrifugation + thermal challenge group; CTCG). At the end of each challenge (CCG, TCG, and CTCG), the same laboratory tests used for control group were repeated. The following conception rates (CR) were observed for each batch: B1 = 48.9% (44/90); B2 = 44.2% (23/52); B3 = 55.5% (40/72); B4 = 43.2% (51/118); (p < 0.10). In the lab, B3 presented higher (p ≤ 0.05) progressive motility (PM) than B4 after thawing (control group) and after all sperm challenges (TCG, CCG, and CTCG). However, despite B3 and B4 having demonstrated a similar percentage of plasma membrane integrity (PMI) to the control group (B3 = 66.7 ± 1.3 and B4 = 65.2 ± 3.3), B3 demonstrated higher (P ≤ 0.05) percentage of PMI (37.2 ± 2.5) than B4 (26.7 ± 3.3) after passing through the most stressing in vitro challenge (CTCG). The semen batch presenting the highest resistance to in vitro challenges was the one that presented a trend for higher in vivo fertility, suggesting that submitting semen samples to laboratory challenges may be an interesting alternative for selecting batches with greater field fertility

Efecto de la progesterona plasmática en la competencia para el desarrollo embrionario in vitro de vacas Bos taurus taurus y Bos taurus indicus

Studies have shown that progesterone has a direct effect on oocyte quality and early embryonic development. The objective of this study was to evaluate the effect of plasma progesterone (P4) concentration on in vitro embryo development in Bos taurus taurus (Holstein) and Bos taurus indicus (Gyr) cows. Multiparous Holstein and Gyr cows were used, and they were presynchronized with the application of two doses of D-cloprostenol with an interval of 11 days. They were latter distributed in one of three experimental groups induced to different plasma levels of progesterone: control group was synchronized using only D-cloprostenol without exogenous progesterone, low progesterone group received an auricular implant of norgestomet of second use, and high progesterone group received two new auricular implants of norgestomet. The plasma progesterone concentration was significantly different (P < 0.05) for both Holstein cows (0.22 ± 0.15, 2.23 ± 0.17 and 5.32 ± 0.22 ng/mL) and Gyr cows (0.24 ± 0.19, 2.05 ± 0.17, 4.85 ± 0.20 ng/mL) between control, low progesterone, and high progesterone groups respectively. Gyr cows presented differences (P < 0.05) in the cleavage rate of the low progesterone group in relation to the control and high progesterone groups (87.9 % ± 0.11 vs. 77.5 % ± 0.13 and 76.4 % ± 0.10, respectively) and in the variable blastocyst rate of the low progesterone group (48.3 % ± 0.16) in relation to the control group (35.8 % ± 0.10) and the high progesterone group (30.4 % ± 0.20). It is concluded that there is an effect of progesterone on embryonic development of Gyr cows. However, this effect is not evidenced in Holstein cows.Diversos estudios han comprobado que la progesterona tiene un efecto directo en la calidad ovocitaria y el desarrollo inicial embrionario. El objetivo de este estudio fue evaluar el efecto de la concentración de la progesterona (P4) plasmática en el desarrollo de embriones in vitro en vacas de raza Bos taurus taurus (Holstein) y Bos taurus indicus (Gyr). Se utilizaron vacas Holstein y Gyr multíparas, presincronizadas con la aplicación de dos dosis de D-cloprostenol con intervalo de once días. Posteriormente, se distribuyeron en uno de tres grupos experimentales inducidos a diferentes niveles plasmáticos de progesterona. El grupo control fue sincronizado utilizando únicamente D-cloprostenol sin progesterona exógena, el grupo progesterona baja recibió un implante auricular de norgestomet de segundo uso y al grupo progesterona alta se le aplicaron dos implantes auriculares de norgestomet nuevos. Los resultados evidencian que la concentración plasmática de progesterona fue significativamente diferente (P < 0,05) tanto para las vacas Holstein (0,22 ± 0,15, 2,23 ± 0,17 y 5,32 ± 0,22 ng/mL) como para las vacas Gyr (0,24 ± 0,19, 2,05 ± 0,17, 4,85 ± 0,20 ng/mL) entre los grupos control, progesterona baja y progesterona alta, respectivamente. Las vacas Gyr presentaron diferencia (P < 0,05) en la tasa de clivaje del grupo progesterona baja en relación con los grupos control y progesterona alta (87,9 % ± 0,11 vs 77,5 % ± 0,13 y 76,4 % ± 0,10, respectivamente) y en la variable tasa de blastocistos del grupo progesterona baja (48,3 % ± 0,16) en relación con el grupo control (35,8 % ± 0,10) y el grupo progesterona alta (30,4 % ± 0,20). Se concluye que la progesterona tuvo efecto sobre el desarrollo embrionario en vagas de raza Gyr, el cual no se evidenció en las vacas de raza Holstein

Citrullination regulates pluripotency and histone H1 binding to chromatin.

Citrullination is the post-translational conversion of an arginine residue within a protein to the non-coded amino acid citrulline. This modification leads to the loss of a positive charge and reduction in hydrogen-bonding ability. It is carried out by a small family of tissue-specific vertebrate enzymes called peptidylarginine deiminases (PADIs) and is associated with the development of diverse pathological states such as autoimmunity, cancer, neurodegenerative disorders, prion diseases and thrombosis. Nevertheless, the physiological functions of citrullination remain ill-defined, although citrullination of core histones has been linked to transcriptional regulation and the DNA damage response. PADI4 (also called PAD4 or PADV), the only PADI with a nuclear localization signal, was previously shown to act in myeloid cells where it mediates profound chromatin decondensation during the innate immune response to infection. Here we show that the expression and enzymatic activity of Padi4 are also induced under conditions of ground-state pluripotency and during reprogramming in mouse. Padi4 is part of the pluripotency transcriptional network, binding to regulatory elements of key stem-cell genes and activating their expression. Its inhibition lowers the percentage of pluripotent cells in the early mouse embryo and significantly reduces reprogramming efficiency. Using an unbiased proteomic approach we identify linker histone H1 variants, which are involved in the generation of compact chromatin, as novel PADI4 substrates. Citrullination of a single arginine residue within the DNA-binding site of H1 results in its displacement from chromatin and global chromatin decondensation. Together, these results uncover a role for citrullination in the regulation of pluripotency and provide new mechanistic insights into how citrullination regulates chromatin compaction.Cancer Research UKThis is the author accepted manuscript. The final version is available from the Nature Publishing Group via http://dx.doi.org/10.1038/nature1294

Caracterização e funcionalidade das enzimas modificadoras de histona desacetilases (HDAC) e arginina peptidil deiminase 4 (PADI4) no desenvolvimento embrionário

Modificações pós-translacionais de histonas são importantes componentes do código epigenético, e contribuem para o controle da transcrição gênica de cada célula. O presente trabalho descreve a participação de duas modificações de histonas no desenvolvimento embrionário pré-implantacional: a acetilação de lisinas e a citrulinização de argininas. No capítulo 1, avaliamos a presença de duas modificações de histona H3, K9ac (permissiva) e K27me3 (repressiva) em embriões bovinos no ciclo de ativação do genoma embrionário (AGE), por imunofluorescência. Ambas as marcas estão presentes e apresentam alto coeficiente de correlação, e dois perfis de embriões (com alta e baixa variação dos níveis das modificações entre blastômeros) foram descritos. A acetilação de histonas está relacionada à ativação da expressão gênica, portanto no capítulo 2 hipotetizamos que a manipulação de seus níveis em embriões bovinos poderia influenciar a ativação do genoma embrionário, o desenvolvimento de blastocistos e a inativação do cromossomo X em fêmeas. Foram testadas concentrações do inibidor das histona desacetilases tricostatina A variando de 5 a 50nM, aplicadas por 12 a 144h, iniciando 70h após a FIV. Três protocolos foram selecionados: 5nM 48h, 5nM 144h e 15nM 48h. Após, foi utilizado sêmen sexado para estudar os efeitos da TSA sobre embriões fêmeas e machos separadamente. Por imunofluorescência para H3K9ac, foi observado aumento na acetilação de histonas em ambas as concentrações (5 e 15nM), sendo 5nM mais eficaz em fêmeas do que machos. O tratamento com 15nM 48h reduziu a produção de blastocistos em machos e fêmeas, e 5nM 144h em machos. A taxa de apoptose, avaliada pelo ensaio TUNEL, foi elevada em embriões fêmeas (grupos 5nM144h e 15nM48h), e em machos (grupo 15nM48h), mas tal aumento...Histone post translational modifications are important components of the epigenetic code, and contribute to the control of gene transcription in each cell. This work describes the participation of two histone modifications in embryonic preimplantation development: acetylation of lysines and citrullination of arginines. In chapter 1, we evaluated the presence of two modifications of histone H3, K9ac (permissive) and K27me3 (repressive) in bovine embryos in the cycle of embryonic genome activation (EGA), by immunofluorescence. Both marks are present and show a high correlation coefficient, and two profiles of embryos were described, displaying high and low variation of modifications level between blastomeres. The acetylation of histones is related to gene expression activation, so in Chapter 2 we hypothesized that the manipulation of acetylation levels in bovine embryos could influence embryonic genome activation, blastocyst development and X chromosome inactivation in females. Five concentrations of the histone deacetylase inhibitor trichostatin A (TSA), ranging from 5 to 50nM beginning 70 hours after FIV were applied per 12 to 144h. Three protocols were selected: 5nM 48h, 5nM 144h and 15nm 48h. After, sexed semen was used to study the effects of TSA on male and female embryos separately. Immunofluorescence of H3K9ac showed increased histone acetylation at both concentrations (5 and 15nM). 5nM TSA was more effective in females than in males. Treatment with 15nM 48h reduced male and female blastocyst yield, and 5nM 144h reduced male blastocyst yield. Apoptosis rate was measured by the TUNEL assay. Female 5nM144h and 15nM48h groups, and male 15nM48h group displayed higher apoptosis levels, but this increase was not observed in low quality embryos. In female embryos, TSA did not affect... (Complete abstract click electronic access below)Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP

Efeitos da hiperaceleração de histonas na diferenciação in vitro de células tronco embrionárias murinas

O estudo dos processos de diferenciação em células tronco embrionárias (CTE) representa uma importante ferramenta para o entendimento das vias moleculares que os regem, apresentando grande aplicação tanto na ciência básica quanto na engenharia de tecidos e medicina regenerativa. Pouco é conhecido sobre as marcas epigenéticas existentes na cromatina destas células, e de que forma a regulação da expressão gênica ocorre no momento da diferenciação. O presente trabalho teve como objetivo o estudo dos efeitos da hiperacetilação das histonas causada pela droga tricostatina A (TSA), uma inibidora das enzimas histona desacetilases, sobre a diferenciação destas células em estádios iniciais e avançados. Para tanto, a hiperacetilação induzida pela droga foi estimada por reações de imunocitoquímica para AcLys9H3. Os efeitos anti-proliferativos da TSA foram mensurados pelo teste de TUNEL e contagem de células. Ainda, foram conduzidos experimentos de diferenciação in vitro de CTE e análise da expressão de proteínas características de linhagens celulares diferenciadas por reações de imunocitoquímica (Oct3/4, nestina, âIII tubulina, desmina e troponina I), em cultivos tratados com TSA em diferentes concentrações e em diferentes momentos. Desta forma, foi estimada a população de tipos celulares oriundos dos folhetos embrionários ectodérmico e mesodérmico, como neurônios, e células musculares, quando foi promovida a hiperacetilação das histonas nas CTE, em diferentes momentos da diferenciação celular in vitro. A TSA induziu apoptose em níveis superiores aos do grupo controle, e retardou/inibiu a divisão celular. Promoveu hiperacetilação dose-dependente nos períodos estudados, e estimulou a diferenciação de precursores mesodérmicos (50nM d5) e ectodérmicos (15nMd0-5 e 50nMd5), cardiomiócitos (50nMd5 e 100nMd13) e neurônios (15nMd0-5, 50nMd5, 100nMd5, 100nMd13).Studies on embryonic stem cells (ESC) differentiation represents an important tool leading to understanding of its molecular pathways, with many applications both on basic research and tissue engineering / regenerative medicine. Little is known about epigenetic marks on ESC chromatin, and how gene expression occurs at differentiation time. The aim of this work was to study effects of histone hiperacetylation, induced by cell treatment with trichostatin A (TSA), an histone deacetylase inhibitor, on both initial and late differentiation. For that, drug-induced hyperacetylation was studied by AcLys9H3 immunocitochemistry. TSA anti-proliferative effects were analysed by TUNEL test and cell counts. Experiments on ESC in vitro differentiation and immunocitochemistry for specific cell types proteins (Oct3/4, nestin, âIII tubulin, desmin and troponin I) were performed, in treated and control groups, at different moments. This analysis showed specific cell types populations derived from embryonic ectodermal and mesodermal, such as neurons and cardiomyocytes, when histone hyperacetylation were induced, on both initial and late diferentiation. Our results showed that TSA induces apoptosis and inhibits cellular proliferation. Also, TSA promoted dose-dependent histone hyperacetylation at studied moments, and stimulated mesodermal (50nM d5) and ectodermal (15nMd0-5 e 50nMd5) precursors, cardiomyocytes (50nMd5 e 100nMd13) and neurons (15nMd0-5, 50nMd5, 100nMd5, 100nMd13) differentiation.Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP

Efeitos da tricostatina A sobre a acetilação de histonas, proliferação celular e diferenciação de células tronco embrionárias murinas

Background: Embryonic stem cells are cells derived from early-stage embryos that are characterized by pluripotency and self-renewal capacity. The in vitro cultured murine embryonic stem cells can indefinitely propagate in an undifferentiated state in the presence of leukemia inhibitory factor (LIF). However, when stimulated, these cells can differentiate into cell lines derived from all three embryonic germ layers. The trichostatin A (TSA) is an epigenetic modifier agent and several studies have used the TSA to stimulate cellular differentiation. However, most of these studies only assessed one TSA concentration. Therefore, this study aimed to evaluate the effects of different TSA concentrations on histone hyperacetylation during in vitro cell differentiation of murine pluripotent embryonic stem cells, cultured with or without LIF, in the quest of to standardize their application on early cultures of embryonic stem cells.Materials, Methods & Results: Undifferentiated murine embryonic stem cells were plated in the presence of different TSA concentrations (0 nM, 15 nm, 50 nM and 100 nM) in the presence or absence of LIF. Thus, the treatments were evaluated in undifferentiated embryonic stem cells cultured in the presence of LIF (Control group: 0 nM LIF(+); Group 15 nM LIF+; Group 50 nM LIF+ and Group 100 nM LIF+), and in embryonic stem cells cultured in the absence of LIF (Control group: 0 nM LIF; Group 15 nM LIF(-); Group 50 nM LIF(-) and Group 100 nM LIF-). Treatment with TSA was performed for 24 h. After that the medium was replaced with fresh medium without TSA. Samples were collected at 0, 12, 24, 36 and 48 h after the beginning of the experiment. Three replicates were performed in each experimental group. The relative amount of Histone H3 lysine 9 acetylation was analyzed in all groups, as well as the cell proliferation in the embryonic stem cells cultured in the presence of LIF. In the control group (0 nM), the absence of LIF resulted in higher levels (P < 0.05) of H3lys9ac compared to the cultures supplemented with LIF. In the embryonic stem cells cultured in the presence of LIF, the 50 nM and 100 nM treatments resulted in higher levels (P < 0.05) of H3lys9ac when compared with 0 nM and 15 nM treatments. Evaluating the Hoechst area in the 0 nM group, it was observed that the number of cells increased (P < 0.05) according to the time of culture. Treatment with 15 nM also reflected a similar distribution, but the Hoechst area in 15 nM group was lower (P < 0.05) at 24 and 48h when compared to the observed in the control group. In the 100 nM treatment, was observed that the area of Hoechst was lower (P < 0.05) to that obtained in the control group at 12, 24 and 48h. In addition, it was observed that treatment with TSA induces greater cellular differentiation when compared to control groups in stem cells cultured in the presence of LIF as well as in the absence of LIF.Discussion: In the present study it was observed that TSA treatment increased the levels of histone acetylation in murine embryonic stem cells at a 50 nM concentration, making it possible to reduce the concentration recommended in the literature (100 nM). In addtion, it was concluded that the lower TSA concentrations utilized (15 nm and 50 nM) was less harmful to cellular proliferation than the 100 nM TSA concentration