Alberto M. Luciano

Changes in poly(A) tail length of maternal transcripts during in vitro maturation of bovine oocytes and their relation with developmental competence

Molecules of mRNA are stored in the oocyte cytoplasm in order to be used during the initial phases of embryonic development. The storage takes place during oocyte growth and the extent of poly(A) tail at the 3′ end of the transcripts has emerged as an important regulatory element for determining their stability. The objective of the present study was to analyse changes in polyadenylation levels of mRNA transcripts, stored in bovine oocytes, during in vitro maturation and their possible relation with developmental competence. Oocyte developmental competence was predicted on the basis of the morphological appearance of their originating ovary as previously established (Gandolfi et al. 1997a. Theriogenology 48:1153–1160) and were divided into groups H (high competence) and L (low competence). The length of the poly(A) tail of the following genes, β‐actin (β‐Act), connexin 43, glucose transporter type 1, heat shock protein 70, oct‐4, plakophilin, pyruvate dehydrogenase phosphatase (PDP), and RNA poly(A) polymerase, was determined at the germinal vesicle (GV) and metaphase II (MII) stage. The results indicated that the poly(A) tail of all genes except for β‐Act and PDP, is shorter after in vitro maturation (IVM) in both groups. Moreover, group L oocytes showed a shorter poly(A) tail than group H oocytes in all genes except for β‐Act and PDP, both at GV and MII stage. We conclude that most of the examined transcripts follow the default deadenylation pattern described during oocyte maturation in other species and that a shorter poly(A) tail is correlated with low developmental competence. Mol. Reprod. Dev. 52:427–433, 1999.

Role of intracellular cyclic adenosine 3',5'-monophosphate concentration and oocyte-cumulus cells communications on the acquisition of the developmental competence during in vitro maturation of bovine oocyte.

Abstract The present study was designed to address the physiological role played by cAMP on gap junction (GJ) mediated communications between oocyte and cumulus cells during in vitro maturation. Cyclic AMP was stimulated by different collection and maturation media known to induce different rates of nuclear maturation and developmental competence as well as different levels of cumulus expansion. Cumulus-oocyte complexes (COCs) were matured for 0, 3, 7, 12, 18, and 24 h in the absence of stimulation or in the presence of serum and gonadotropins (fetal bovine serum+human menopausal gonadotropins [FCS+hMG]) or 0.01 μg/ml of invasive adenylate cyclase (iAC). For each time point, intracellular cAMP concentration ([cAMP]i) was determined either in the whole COC or oocyte after cumulus cell removal. GJ functional status was analyzed by microinjection of Lucifer yellow fluorescent dye in cumulus-enclosed oocytes and by immunohistochemical localization of connexin 43 (Cx43). In the absence of stimulation, [cAMP]i in COC and oocyte was lower than in other groups, and communications declined after 3 h of culture. In the FCS+hMG group, [cAMP]i increased significantly in COC, with a peak between 3 and 7 h that was temporally correlated with the beginning of the cumulus expansion process, which occurred only in this group and with the termination of the communications. COC matured in the presence of iAC showed a moderate increase of [cAMP]i during all of the maturation times as well as a prolongation of oocyte-cumulus cell communications. The immunohistochemical localization of Cx43 confirmed the delay in connexons protein turnover in iAC-treated COCs. Our results show that cumulus expansion and oocyte developmental competence are induced by different levels of cAMP and that its intracellular concentration may affect cell coupling between oocyte and cumulus cells. We hypothesize that the higher developmental competence of COCs matured in the presence of iAC could be achieved through a moderate increase of intracellular cAMP, which in turn determines a prolongation of communications between the two cell types.

Comparative analysis of calf and cow oocytes during in vitro maturation

To determine possible causes of reported differences between developmental competence of oocytes isolated from prepubertal (10‐ to 14‐week‐old calves) and adult cows, three parameters were analysed, comparatively, during in vitro maturation (IVM): (1) oocyte diameter, (2) oocyte energy metabolism, and (3) protein synthesis of oocytes and cumulus cells. Cumulus‐oocyte complexes were isolated from follicles of 3–5 mm in diameter in both age groups. Mean oocyte diameter was smaller (P < 0.02) in calves than in cows (118.04 ± 1.15 versus 122.83 ± 0.74 μm). During the first 3 hr of IVM, calf oocytes metabolised glutamine and pyruvate at lower rates than adult oocytes, but after 24 hr of culture, both molecules were metabolised at the same rate as for adult oocytes. A significant decrease in protein synthesis, as measured by [35S]methionine and [35S]cysteine incorporation was recorded after 9 hr of IVM in calf oocytes, while in adult oocytes a significant decrease in protein synthesis was detected only after 24 hr. After the first 3 hr of maturation, proteins of 130, 26, and 24 kDa were more abundant in adult than in calf oocytes, while a protein of 55 kDa was more visible in calf than in adult oocytes. At the same time, among proteins newly synthesised by cumulus cells, molecules of 405, 146, 101, and 77 kDa were more abundant in adults than in calves.

Effect of Different Levels of Intracellular cAMP on the In Vitro Maturation of Cattle Oocytes and Their Subsequent Development Following In Vitro Fertilization

Serum, gonadotrophins, growth factors, and steroid hormones stimulate the in vitro maturation (IVM) of competent oocytes, acting, directly or indirectly, upon the adenylate cyclase pathway to produce the intracellular messenger, cAMP. The intracellular levels of cAMP in cattle cumulus‐oocyte complexes (COC) were manipulated by adding to the collection and maturation media invasive adenylate cyclase (iAC), a toxin produced by the bacterium, Bordetella pertussis. High concentrations of iAC (1 or 5 μg/ml) in the maturation medium inhibited the resumption of meiosis, while low concentrations (0.1 or 0.01 μg/ml) resulted in high rates of maturation to the MII stage (92.6 ± 2.5 and 98.5 ± 1.4% respectively). The same low concentrations of iAC in the maturation medium resulted in rates of development to the blastocyst stage 8 days post insemination (30.1 ± 4.2 and 45.1 ± 3.9%, respectively), which were either not different, or significantly better, than those obtained after IVM in medium supplemented only with serum and gonadotrophins (36.1 ± 2.9%). Finally, the addition of 0.1 μg/ml iAC and 0.5 mM 3‐isobutyl 1‐methylxanthine (IBMX) in the collection medium significantly improved the blastocyst rate when IVM was performed in control medium or medium supplemented with 0.01 μg/ml iAC (31.9 ± 5.5 vs. 12.1 ± 1.6 and 45.5 ± 2.9 vs. 19.1 ± 2.3% respectively). It is concluded that the maintenance of an optimal intracellular concentration of cAMP before and during IVM ensures a high developmental competence of bovine oocytes matured in medium without serum and hormones. Mol. Reprod. Dev. 54:86–91,1999. 

Gap Junction-Mediated Communications Regulate Chromatin Remodeling During Bovine Oocyte Growth and Differentiation Through cAMP-Dependent Mechanism(s)

ABSTRACT Oocyte development is characterized by impressive changes in chromatin structure and function in the germinal vesicle (GV) that are crucial in conferring to the oocyte meiotic and developmental competence. During oogenesis, oocyte and follicular cells communicate by paracrine and junctional mechanisms. In cow, cumulus-enclosed oocytes (CEOs) isolated from early antral follicles have uncondensed chromatin (GV0), functionally open gap junction (GJ)-mediated communications, and limited meiotic competence. The aim of the present study was to analyze the role of GJ communications on the chromatin remodeling process during the specific phase of folliculogenesis that coincides with the transcriptional silencing and the sequential acquisition of meiotic and developmental capability. CEOs were cultured in a follicle-stimulating hormone-based culture system that sustained GJ coupling and promoted oocyte growth and transition from GV0 to higher stages of condensation. When GJ functionality was experimentally interrupted, chromatin rapidly condensed, and RNA synthesis suddenly ceased. These effects were prevented by the addition of cilostamide, a phosphodiesterase 3 inhibitor, indicating that the action of GJ-mediated communication on chromatin structure and function is mediated by cAMP. Prolonging GJ coupling during oocyte culture before in vitro maturation enhanced the ability of early antral oocytes to undergo meiosis and early embryonic development. Altogether, the evidence suggests that GJ-mediated communication between germinal and somatic compartments plays a fundamental role in the regulation of chromatin remodeling and transcription, which in turn are related to competence acquisition.

Phylogenomic evidence for the presence of a flagellum and cbb3 oxidase in the free-living mitochondrial ancestor

The initiation of the intracellular symbiosis that would give rise to mitochondria and eukaryotes was a major event in the history of life on earth. Hypotheses to explain eukaryogenesis fall into two broad and competing categories: those proposing that the host was a phagocytotic proto-eukaryote that preyed upon the free-living mitochondrial ancestor (hereafter FMA), and those proposing that the host was an archaebacterium that engaged in syntrophy with the FMA. Of key importance to these hypotheses are whether the FMA was motile or nonmotile, and the atmospheric conditions under which the FMA thrived. Reconstructions of the FMA based on genome content of Rickettsiales representatives-generally considered to be the closest living relatives of mitochondria-indicate that it was nonmotile and aerobic. We have sequenced the genome of Candidatus Midichloria mitochondrii, a novel and phylogenetically divergent member of the Rickettsiales. We found that it possesses unique gene sets found in no other Rickettsiales, including 26 genes associated with flagellar assembly, and a cbb(3)-type cytochrome oxidase. Phylogenomic analyses show that these genes were inherited in a vertical fashion from an ancestral α-proteobacterium, and indicate that the FMA possessed a flagellum, and could undergo oxidative phosphorylation under both aerobic and microoxic conditions. These results indicate that the FMA played a more active and potentially parasitic role in eukaryogenesis than currently appreciated and provide an explanation for how the symbiosis could have evolved under low levels of oxygen.

THE IN VITRO DEVELOPMENTAL COMPETENCE OF BOVINE OOCYTES CAN BE RELATED TO THE MORPHOLOGY OF THE OVARY

This study was designed to assess whether the developmental potential of bovine cumulus-oocyte complexes (COCs) could be related to the morphology of their originating ovary, providing a simple, noninvasive and objective selection criterion. Ovaries were divided into 3 categories on the basis of: A) presence of a follicle > 10 mm in diameter, B) presence of more than 10 follicles of 2 to 5 mm in diameter and no follicles > 10 mm, and C) presence of less than 10 follicles of 2 to 5 mm in diameter and no follicles > 10 mm. The COCs, isolated from ovaries of Category C, showed lower rates of maturation and blastocyst formation than those from Categories A and B. Moreover, blastocysts derived from Category C ovaries had fewer cells than those derived from the other 2 categories. It is concluded that ovarian morphology is a simple and noninvasive parameter for an effective selection of oocytes with better developmental competence.

Natriuretic Peptide Precursor C Delays Meiotic Resumption and Sustains Gap Junction Mediated Communication in Bovine Cumulus Enclosed Oocytes

ABSTRACT Oocyte in vitro maturation (IVM) has become a valuable technological tool for animal breeding and cloning and the treatment of human infertility because it does not require the administration of exogenous gonadotropin to obtain fertilizable oocytes. However, embryo development after IVM is lower compared to in vivo maturation, most likely because oocytes collected for IVM are heterogeneous with respect to their developmental competencies. Attempts to improve IVM outcome have relied upon either prematuration culture (PMC) or two-step maturation strategies in the hope of normalizing variations in developmental competence. Such culture systems invoke the pharmacological arrest of meiosis, in theory providing oocytes sufficient time to complete the acquisition of developmental competence after cumulus-enclosed oocytes isolation from the follicle. The present study was designed to test the efficiency of natriuretic peptide precursor C (NPPC) as a nonpharmacologic meiosis-arresting agent during IVM in a monoovulatory species. NPPC has been shown to maintain meiotic arrest in vivo and in vitro in mice and pigs; however, the use of this molecule for PMC has yet to have been explored. Toward this end, meiotic cell cycle reentry, gap-junction functionality, and chromatin configuration changes were investigated in bovine cumulus-enclosed oocytes cultured in the presence of NPPC. Moreover, oocyte developmental competence was investigated after IVM, in vitro fertilization, and embryo culture and compared to standard IVM-in vitro fertilization protocol without PMC. Our results suggest that NPPC can be used to delay meiotic resumption and increase the developmental competence of bovine oocytes when used in PMC protocols.

The influence of cAMP before or during bovine oocyte maturation on embryonic developmental competence

This study was designed to evaluate the effects of pretreatment with various forms of cAMP before or during bovine oocyte maturation on the acquisition of embryonic developmental competence. The objective of the 4 experiments was to induce differentiation of the early maturing oocyte in conditions of maintained meiotic arrest or normal maturation. To promote differentiation, different forms of cyclic AMP-dependent protein kinase (PKA) pathways were investigated. The factors studied included follicular fluid, invasive adenylate cyclase (iAC), dibutyryl-cAMP (dbcAMP) and 3-isobutyl-1-methyl-xanthine (IBMX) with or without cycloheximide (CHX). High concentrations of iAC pretreatment were beneficial to the oocyte competence in BSA-iAC maturation while harmful in normal maturation. Also, after 2 to 3 h IBMX-iAC pretreatment, another 6 h of CHX treatment with or without iAC was harmful to the embryonic developmental competence of fertilized oocytes even though it did not have any effect on cleavage rate. Experiment 4 was to assess the role of cAMP in acquisition of oocyte developmental competence before meiotic resumption. Results supported that the intracellular cAMP concentration during the interval between oocyte isolation from the follicle and the beginning of in vitro maturation is critical for requiring optimal developmental competence.

In vitro reproductive toxicity of Polychlorinated biphenyls : Effects on oocyte maturation and developmental competence in cattle

Polychlorinated biphenyls (PCBs) are one of the most persistent and widespread group of endocrine disrupting compounds in the ecosystem. High concentrations of these substances are known to be present in sewage sludge from industrial, agricultural, and domestic origin that is spread in increasing amounts on arable land and pasture as fertilizer and is found in water, representing an increasing risk for the reproductive health of farm animals. Objective of this study was to determine the impact of PCBs on maturation and developmental competence of cattle oocytes. Since PCBs are a family of 209 molecules present in the environment as a mixture, Aroclor‐1254, a pool of more than 60 congeners, was used in these experiments as its composition is considered to be environmentally relevant. Cumulus–oocytes complexes were exposed during IVM to serial concentrations of Aroclor‐1254 (between 1 μg/ml and 0.0001 μg/ml) and compared with control groups. Aroclor decreased the percentage of oocytes that reached metaphase II stage after 24 hr, at doses as low as 0.01 μg/ml. Groups treated with 0.001 μg/ml or above, showed an impaired fertilization rate and a dramatic increase of polyspermy. Moreover, exposure during maturation resulted in a reduced proportion of oocytes that cleaved and developed until blastocyst stage although no differences in embryo cell numbers were observed. The present study indicates that very low PCBs concentrations are sufficient to disrupt bovine oocyte maturation, its fertilization, and developmental competence. These results also provide a set of reference data for the assessment of the risk posed by these substances to animal reproductive health, though further work will be necessary to equate in vitro doses to in vivo exposures. Mol. Reprod. Dev. 58:411–416, 2001.