Effect of heat stress on development in vitro and in vivo and on synthesis of heat shock proteins in porcine embryos

The present study was conducted (1) to examine the effect of an acute increase in ambient temperature on the development of porcine day 6 embryos in culture and after transfer to recipient gilts, and (2) to analyze intracellular production of heat shock proteins (hsps). The viability of porcine day 6 embryos following a temporary acute elevation in ambient temperature (at 42°–45.5°C and for 10–180 min) was examined. Synthesis of 70 kDa hsp (hsp 70) and 90 kDa hsp (hsp90) was determined by SDS-PAGE and Western blot analysis in porcine day 6 embryos subjected to heat stresses. Nonheat-stressed embryos were considered as control. Significantly higher numbers of viable nuclei were observed in treatment groups of 42°C-10 min (236.6 ± 71.4; P < 0.05) and 43°C-30 min (276.8 ± 89.4; P < 0.005) compared to control (173.9 ± 53.9). The 42°C-180 min group (158.0 ± 27.1 μm) had a greater increase in diameter after 24 hr in culture following heat stress compared to control (82.5 ± 47.3 μm), while heat stress with 43°C for ≧60 min, 44°–44.5°C for ≧30 min, or 45°-45.5°C for ≧10 min impaired their survival, as assessed by differences in number of viable nuclei. The embryos subjected to heat stresses under the conditions of 42°C-180 min, 43°C-10 min, 43°C-30 min, 44°C-10 min, or 45°C-10 min developed to normal piglets after transfer to recipient gilts. Overall pregnancy rate was 75% (6/8), and farrowing rate 62.5% (5/8). Of heat-stressed embryos transferred, 59% (36/61) developed to normal piglets. Heat-stress conditions of 42°C for 180 min, 43°C for 30 min, 44°C for 10 min, and 45°C for 10 min were determined as critical with respect to the in vitro and in vivo survival of porcine embryos. Porcine day 6 embryos constitutively synthesized hsp70 even without heat stress, while hsp90 was detected only at trace level. Neither hsp70 nor hsp90 levels increased in the embryos subjected to heat stresses. In conclusion, porcine day 6 embryos could continue to develop in vivo or during in vitro culture after exposure to acute and temporary rise in temperature. However, no increase of hsp70 and hsp90 was observed in the heat-stressed porcine embryos, while hsp70 was detected in the nonheat-stressed porcine embryos. The precise mechanism of the thermotolerance was unclear. © 1996 Wiley-Liss, Inc.     

Ultrastructure and cell death of in vivo derived and vitrified porcine blastocysts

Morphological and molecular signs of injury and cell death and subsequent regeneration following vitrification of porcine blastocysts were evaluated by light (LM) and transmission electron microscopy (TEM) as well as TUNEL/propidium iodide (PI) nuclear staining followed by confocal microscopy (CSM). In vivo derived blastocysts were assigned to one of the following four groups: Controls-(1) fixed immediately after collection (C0h) and (2) after 24 hr culture in vitro (C24h) and vitrified embryos-(3) fixed immediately after vitrification and warming (V0h), and (4) after 24 hr of culture upon warming after vitrification (V24h). Observation by LM and TEM showed that the V0h embryos displayed collapse of the blastocoele cavity (BC) and cell swelling, a general distension or shrinkage of mitochondria and massive increase in the amount of vesicles, vacuoles, and secondary lysosomes (SLs). Approximately 2/3 of the V24h embryos had recovered, whereas the remaining 1/3 were degenerated. Recovered embryos displayed almost normal blastocyst morphology, except for a widening of the perivitelline space, accumulation of debris and partial distension of mitochondria, whereas degenerated embryos were disintegrated into a poorly defined mass of cells and debris including cells with abundant degeneration of mitochondria and other organelles. Both recovered and degenerated embryos displayed a persistent abundance of presence of small membrane bounded vesicles, vacuoles, and SLs. Evaluation of TUNEL/PI stained embryos showed only occasional appearance of TUNEL positive nuclei with typical apoptotic morphology in controls (C0h 0.67%, C24h 1.22%) and in the V0h embryos (0.93%). The percentage of apoptotic nuclei in embryos at V24h was significantly higher than in all other groups (2.64%). Vitrified embryos showed significantly increased appearance of DNA fragmented nuclei without typical morphological features of apoptosis (V0h 1.43%, V24h 4.30%) compared with controls (C0h 0.26%, C24h 0.45%). The observed morphological changes and increased DNA fragmentation observed immediately after vitrification and warming probably reflects a direct damaging effect of vitrification. During 24 hr of culture a portion of the embryos was able to regenerate and along with the regenerative process, apoptosis--a possible pathway for elimination of damaged cells--became evident.     

Some required events in conidial germination of Neurospora crassa.

A temperature-sensitive mutant of Neurospora crassa, with reduced levels of protein synthesis at 37°C, was used to identify some essential events in conidial germination. Conidia of mutant strain psi-1 were incubated for 2 hr at 37°C and then shifted to 20°C. Germination was inhibited at 37°C, but commenced after 1.5 hr at 20°C. Increases in aspartate transcarbamylase activity, cell wall synthesis, and nuclear number preceded germination. However, increases in glutamate dehydrogenase activity, amino acid uptake, and DNA synthesis were inhibited prior to germination. Although all of these events were correlated with germination in control cultures of the mutant at 20°C and of its parent strain at 20 and 37°C, some events were apparently not essential for germination. The requirement for aspartate transcarbamylase activity was demonstrated independently by the failure of strain pyr-3d (lacking the activity) to germinate in the absence of uridine. The dispensability of glutamate dehydrogenase activity and DNA synthesis for the germination of some conidia was verified by the germination of strain am-1 (lacking glutamate dehydrogenase activity) in the absence of glutamate and by the germination of the parent strain in the presence of hydroxyurea (an inhibitor of DNA synthesis). These findings identify some landmarks in germination which may be useful in further studies of the regulation of a developmental program. They also provide preliminary evidence that the resting conidia may contain nuclei arrested at different stages of their division cycle.     

Growth at 37 degrees C of the EGs strain of the amoeboflagellate Naegleria gruberi containing viruslike particles. I. Nuclear changes

Naegleria gruberi amoebae, EG_s strain, containing viruslike particles (VLP) were grown at temperatures of 21° and 37°C. At 21°C, the amoebae displayed the morphological structures associated with development of the VLP's. At 37°C, however, gross morphological modifications and new structures appeared. When amoebae were at 37°C for less than 12 hr, nuclei were found to have a larger number of VLP's than amoebae at 21°C. Exposure of the amoebae to the higher temperature for 12–24 hr resulted in a scarcity of particles. Large bundles of microtubulelike fibrils were present in the nucleoplasm of amoebae at 37°C, and, in addition, the nuclei showed degenerative modifications. The fibrillar changes were not due to the elevated temperature alone since a substrain of EG_s (=EG_B) not infected with VLP's exhibited no nuclear modifications. It is assumed that the elevated temperature accelerated and enhanced a lytic effect of the VLP's upon the cells.     

Differential responses of bovine oocytes and preimplantation embryos to heat shock

The authors sought to determine whether developmental differences in the magnitude of embryonic mortality caused by heat stress in vivo are caused by changes in resistance of embryos to elevated temperature. In this regard, responses of oocytes, two-cell embryos, four- to eight-cell embryos, and compacted morulae to heat shock were compared. An additional goal was to define further the role of cumulus cells and glutathione in thermoprotection of oocytes. In experiment 1, heat shock (41°C for 12 hr) decreased the number of embryos developing to the blastocyst stage for two-cell (26% vs. 0%) and four- to eight-cell (25% vs. 10%) embryos but did not affect morulae (37% vs. 42%). In experiment 2, exposure of two-cell embryos to 41°C for 12 hr reduced the number of four- to eight-cell embryos present 24 hr after the end of heat shock (88% vs. 62%). In experiment 3, heat shock reduced the number of two-cell embryos developing to blastocyst (49% vs. 8%) but did not affect subsequent development of oocytes when heat shock occurred during the first 12 hr of maturation (46% vs. 41% development to blastocyst); membrane integrity was not altered. In experiment 4, oocytes were cultured with an inhibitor of glutathione synthesis, _DL-buthionine-[S,R]-sulfoximine (BSO), for 24 hr and exposed to 41°C for the first 12 hr of maturation. Percentages of blastocysts were 35% (39°C), 18% (41°C), 17% (39°C+BSO), and 11% (41°C+BSO). For experiment 5, oocytes were either denuded or left with cumulus intact and were then radiolabeled with [³⁵S]methionine and [³⁵S]cysteine at 39°C or 41°C for 12 hr. Exposure of oocytes to 41°C for 12 hr reduced overall synthesis of ³⁵S-labeled TCA-precipitable intracellular proteins (18,160 vs. 14,594 dpm/oocyte), whereas presence of cumulus increased synthesis (9,509 vs. 23,246). Analysis by two-dimensional SDS PAGE and fluorography revealed that heat shock protein 68 (HSP68) and two other putative heat shock proteins, P71 and P70, were synthesized by all oocytes regardless of treatment. Heat shock did not alter the synthesis of HSP68 or P71 but decreased amounts of newly synthesized P70. Cumulus cells increased synthesis of P71 and P70. Results indicate there is a biphasic change in resistance to elevations in temperature as oocytes mature, become fertilized, and develop. Resistance declines from the oocyte to the two-cell stage and then increases. Evidence suggests a role for cumulus cells in increasing HSP70 molecules and protein synthesis. Data also indicate a role for glutathione in oocyte function. Mol Reprod Dev 46:138–145, 1997. © 1997 Wiley-Liss, Inc.     

E rosette formation at 37°:A property of mitogen-stimulated human peripheral blood lymphocytes

Peripheral blood lymphocytes from healthy humans formed stable E rosettes with sheep erythrocytes (SRBC) at 37°C after culture with phytohemagglutinin or the divalent cation ionophore A23187. Cells manifesting this phenomenon exhibited “blast” morphology, appeared by 16 hr of culture, increased dramatically in percentage and absolute number by 62 hr, and persisted in large numbers for the duration of culture (182 hr). Unstimulated lymphocytes formed rosettes at 4°C but not at 37°C. Increased “stickiness” due to surface-bound lectin mitogen was not the cause of rosette formation at 37°C.Formation of E rosettes at 37°C has previously been considered a property of lymphocytes less differentiated than the circulating T cell (e.g., thymocytes, leukemic lymphoblasts). The present findings indicate that this property can be “reexpressed” during blastogenesis in culture.This observation also demonstrates technical problems associated with the use of SRBC to quantitate lymphocytes with complement receptors (B cells) by the EAC rosette assay in culture. False positives resulted from 37°C E rosette formation, but this was overcome by replacing the SRBC with guinea pig erythrocytes in the EAC assay.     

The synthesis of nucleic acids in cultivated <Emphasis Type="Italic">Polyscias filicifolia</Emphasis> cells exposed to oxidative stress

The content of nucleic acids in the cell culture of fern-leaf aralia Polyscias filicifolia (Moore ex Fournter) Bailey (Araliaceae) exposed to heat shock (3 h at 45°C) decreased significantly (by 20–30%). The decrease in DNA and RNA contents was even larger (30–40%) after longer heat shock (24 h). Cold (24 h at 7°C) caused an even more dramatic decrease in DNA (by 34.2%) and total RNA (by 48%) contents. To judge from the DNA production rate, the presence of hydrogen peroxide and phenazine methosulfate in the culture exerted a dose-dependent and differently directed action on cell proliferation.     

Presence of cleaved caspase 3 in swine embryos of different developmental capacities produced by parthenogenetic activation

This study assessed the presence of cleaved caspase 3 (CC3) during the in vitro development of swine embryos produced by parthenogenetic activation (PA). Embryos with high and low capacity to develop into blastocysts and the exposure to a caspase inhibitor (z‐DEVD‐fmk) were used to investigate the effect of CC3 on embryo development. The blastocyst rate (64.3% vs. 16.4%) and the average number of nuclei per blastocyst (39.7 vs. 19.8) were significantly higher (P < 0.05) in early‐ (before 24 hr) compared to late‐ (between 24 and 48 hr) cleaving embryos after PA. CC3 was mainly detected in the cytoplasm of Day‐2 and ‐4 embryos, but was primarily localized in the nucleus of Day‐5 and ‐6 embryos. The fluorescence signal for CC3 relative to negative controls was significantly higher (P < 0.05) in early‐ (2.42‐fold) compared to late‐cleaving (1.39‐fold) embryos at Day 2 of culture. Treatment with z‐DEVD‐fmk during the first 24 or 48 hr of the culture period resulted in more embryos developing into blastocysts compared to the control group (55.8% and 55.1% vs. 37%, respectively; P < 0.05). This study confirmed the presence of CC3 in PA embryos from the two‐cell to the blastocyst stage, and revealed that CC3 cellular‐localization changed during embryo development. CC3 was shown to be more abundant in early‐cleaving and more developmentally competent embryos compared to late‐cleaving and less developmentally competent embryos. The inhibition of caspase activity at the beginning, but not at the end, of the culture period affected development of PA embryos. Mol. Reprod. Dev. 78:673–683, 2011. © 2011 Wiley‐Liss, Inc.     

Induced thermotolerance during early development of murine and bovine embryos

During early development, elevated temperatures have deleterious effects on embryonic viability and development. The primary objective of the current study was to determine the ontogeny of induced thermotolerance during early murine embryonic development. Embryos were either retrieved from superovulated ICR female mice at the 2 cell and 4 cell stages and cultured thereafter or were retrieved from oviducts or uterine horns at the desired stage of development. Induction of thermotolerance was detected by evaluating viability and further development after embryos were exposed to homeothermic temperature (37°C), mild heat shock (40°C for 1 h), severe heat shock (42°C for 1 h or 43°C for 2 h), or mild heat shock followed by severe heat shock (to induce thermotolerance). Induction of thermotolerance was observed beginning at the 8 cell stage when embryos were developed in culture from the 2 cell to 4 cell stage. When embryos were developed in vivo (i.e., were retrieved from the reproductive tract at the desired stage of development), thermotolerance was not induced until the blastocyst stage of development. The induction of thermotolerance was dependent on serum supplementation since induction of thermotolerance was not observed when embryos were placed in medium without serum. Induced thermotolerance could also be demonstrated in bovine blastocysts. In conclusion, embryos acquire the ability to undergo thermotolerance as they progress through development. The timing of processes leading to acquisition of thermotolerance can, however, be hastened by exposure of embryos to in vitro conditions.     

Early genetic control of craniofacial development is affected by the in vitro exposure of rat embryos to the fungicide triadimefon

BACKGROUND: Previous published experiments reported that in vitro exposure of postimplantation rat embryos to the triazole fungicide triadimefon (FON) resulted in specific abnormalities at the branchial apparatus and that the sensitive period is restricted to the first 24 hr of culture and is associated with the abnormal expression of TGF family genes (some of a large panel of genes regulated by retinoic acid (RA) and involved in branchial arch morphogenesis). The aim of this study is the determination of the sensitive window to FON‐induced abnormalities during in vitro development and the evaluation of the expression of some genes controlled by RA and involved in early branchial arch morphogenesis (Gsc, Msx1, Msx2, Dlx1, Dlx2, Shh, Patched (the main Shh receptor)). METHODS: Rat embryos were exposed in vitro to the FON under condition known to be able to induce 100% of abnormal embryos (250 µ M) at different stages and examined after 48 hr of culture. The sensitive window for FON‐induced abnormalities was during the hours E9 h8.00 PM–E10 h8.00 AM. To evaluate the expression of selected genes, embryos exposed during the sensitive stages were processed to perform quantitative PCR after 18 and 24 hr of culture. RESULTS: FON was able to affect the expression of some genes in a stage‐specific manner: earlier embryos were characterized by the downregulation of Msx2 and Gsc, later embryos showed the downregulation of Gsc, Shh, and Patched. The obtained data suggest that FON‐induced abnormalities are mediated, at least in part, through the imbalance of the expression of RA‐related signals. Birth Defects Res (Part B) 92:77‐81, 2011. © 2011 Wiley‐Liss, Inc.     

Development and DNA polymerase activities in cultured preimplantation mouse embryos: comparison with embryos developed in vivo

Embryos from superovulated female mice that developed in vitro from the two-cell stage were compared with in vivo embryos with respect to yield of blastocytes, number and types of cells, morphology in histologic section, and DNA polymerase activities. Significantly more embryos developed into blastocytes in vitro (93%) than in vivo (18%). Inner cell mass (ICM) cells comprised approximately 30% of total cells in late morula/early blastocyst stage embryos developed either in vitro or in vivo. However, the in vitro embryos developed approximately half the number of total cells as in vivo embryos, did not develop endoderm, and did not develop abembryonic trophoblast cells with morphologic characteristics of late preimplantation in vivo embryos. DNA-dependent DNA polymerase activities in in vitro embryos decreased in correspondence with the decrease in cell number resulting in per cell levels comparable to in vivo embryos. In contrast, the poly (A).oligo(dT)-dependent DNA polymerase activity was the same in embryos developing either in vitro or in vivo, indicating different regulatory mechanisms for the two enzyme activities. A variety of nutrients and growth factors in the culture medium did not increase cell numbers or DNA polymerase activities in embryos cultured for 3 days; extending the culture an additional 24 hours resulted in a loss of ICM cells and decreases in both DNA polymerase activities. These results show that the retarded growth of embryos in vitro is equally distributed between ICM and trophoblast, is not reversed by culture conditions that include serum growth factors, and is not due to decreased cellular levels of DNA polymerase activities.     

Telophase enucleation: An improved method to prepare recipient cytoplasts for use in bovine nuclear transfer

The enucleation of oocytes to be used as host cytoplasts for embryo reconstruction by nuclear transfer is an important limiting step when cloning mammals. We propose an enucleation technique based on the removal of chromatin after oocyte activation, at the telophase stage, by aspirating the second polar body and surrounding cytoplasm. In a preliminary experiment to determine an optimal activation protocol, oocytes were matured for 26 and 30 hr and exposed for 5 min to 7% ethanol and/or for 3 hr at either 25 or 4°C. Relative to most activation treatments tested, oocytes matured for 30 hr and exposed to ethanol alone showed highest activation rates, as determined by low levels of H1 kinase activity within 90 min from exposure and high pronuclear formation (82%) after 12 hr of culture. No synergistic effect on activation rates was observed when oocytes also were exposed to reduced temperature after ethanol treatment. Microsurgical removal of the telophase-stage chromatin in a small volume of cytoplasm adjacent to the second polar body was significantly more effective in enucleating than aspiration of a larger cytoplasm volume surrounding the first polar body of metaphase-arrested oocytes (98% versus 59%; P < 0.01). Moreover, compared with a nuclear transfer protocol based on enucleation of metaphase-arrested oocytes followed by aging and cooling, more (38% versus 16%; P < 0.001) and better-quality blastocytes (126 versus 84 nuclei per blastocyst; P < 0.02) were obtained from embryos reconstructed using the telophase procedure. Higher development potential of embryos reconstructed by the telophase procedure may be attributed to (1) the selection of oocytes that activate and respond by extruding the second polar body, (2) avoiding the use of DNA dyes and ultraviolet irradiation, and (3) the limited removal of cytoplasm during enucleation. The ease with which telophase enucleation can be performed is likely to render this technique widely useful for research and practice on mammalian cloning. Mol. Reprod. Dev. 49:29–36, 1998. © 1998 Wiley-Liss, Inc.     

Synchronization of cell division in eight-cell bovine embryos produced in vitro: Effects of nocodazole

Current methods of arresting and synchronizing cell division have not been very successful and have had few applications in embryo studies. Our objective was to determine the reliability of a metaphase arrest agent, nocodazole, for halting and synchronizing blastomere division in cleavage-stage bovine embryos, and to verify its reversibility and toxicity in vitro. Eight-cell-stage embryos obtained at 58 hr postinsemination were treated with varying concentrations of nocodazole for 12 hr. Treated embryos were assessed for cleavage arrest, chromatin morphology, DNA synthesis, and histone H1 and myelin basic protein (MBP) kinase activity, and were scored for blastocyst formation and hatching rate. They were subsequently fixed to count the number of nuclei. Complete arrest of cell division was observed at concentrations of 0.4 μg ml⁻¹ and above. Removal from nocodazole treatment led to immediate release from cleavage arrest, and was followed by synchronized mitosis, histone H1 kinase deactivation, and reentry into interphase within 3–5 hr. DNA synthesis was reinitiated at 6 hr after release. Although cell numbers and hatching rate decreased, the proportion of embryos reaching blastocyst stage was not significantly affected in nocodazole-treated embryos. It is concluded that nocodazole is a suitable choice for the cell-cycle synchronization of donor embryos for use in studies on the interactions between nucleus and cytoplasm during early embryogenesis. © 1996 Wiley-Liss, Inc.     

Effect of temperature on growth and macromolecular biosynthesis in cryptococcus species

Cryptococcus neoformans, a pathogenic yeast, grows at temperatures between 25 and 37°C. However, the closely related non-pathogen C. albidus exhibits restricted growth at temperatures above ambient with little or no growth at 37°C. The inhibition of growth of the non-pathogen, as measured by turbidity, cell number, and per cent budding, is reversible after 48 hr at the non-permissive temperature (37°C). Growth cessation at 37°C is accompanied by a corresponding decrease in DNA synthesis, which is not observed in C. neoformans. RNA and protein synthesis in C. albidus and C. neoformans are only slightly affected at the elevated temperature. Degradation by nucleases does not seem to account for the differences found in this cumulative DNA synthesis in C. albidus at 25 and 37°C. These facts suggest that C. albidus may possess a thermo-sensitive defect in the machinery responsible for the initiation of DNA replication.     

Effect of optimal stage of female gametophyte and heat treatment on in vitro gynogenesis induction in cucumber (Cucumis sativus L.)

Gynogenic plants of pickling cucumber were successfully produced by in vitro culture from unpollinated ovules. Haploids and spontaneous doubled haploids originated directly through embryogenesis. The cucumber ovaries were placed on induction media containing thidiazuron and cultured in the dark for 2-5 days, at 24°C, 28°C or 35°C. After induction, the material was transferred to regeneration media containing !-naphthaleneacetic acid and 6-benzylaminopurine. Results from the regeneration test indicated that the heat treatment increased the efficiency of gynogenesis in the optimal developmental stage of the female gametophyte. The highest number of embryos occurred following the35°C induction treatment. The maximum frequency of gynogenesis was 18.4%, while maximum plant regeneration was 7.1%. The flow cytometry analysis showed that 87.7% of the regenerants were haploid. On the basis of histological studies carried out on the female gametophyte, the best developmental stage for haploid induction seems to be the cellularization stage of embryo-sac formation, when the nuclei are already in position, the membranes have sometimes developed, and the cells are quite uniform in shape and structure.     

Transfer of nuclei from 8-cell stage mouse embryos following use of nocodazole to control the cell cycle

Mouse 2-, 4-, 8-, and 16-cell embryos were exposed to nocodazole in M16 culture medium. The effect of different concentrations and exposure times on the efficiency of cell cycle synchronization and the development of the treated embyros after release from the drug was determined. The minimum effective concentration (95% of arrested nuclei) for 4-, 8-, and 16-cell embryos was 5μM nocodazole. The effect upon subsequent development of mouse embryos depended upon both the stage of development of the embryo at treatment (P < 0.001) and the length of exposure to nocodazole (P < 0.001). Exposure to any concentration of nocodazole within the range 2.5–10 μM for 12 hr caused a reduction in the proportion of embryos that formed blastocysts. As the period of exposure to 5μM nocodazole increased from 12 to 24 hr, the proportion of embryos developing to the blastocyst stage decreased. The lower proportion of embyros developing to the blastocyst stage and to term (P < 0.01) suggests that the more advanced stages were more susceptible to damage as a result of exposure to nocodazole. The rate of development of 4-cell embryos to blastocysts was not affected when an exposure time of 9 hr was used. Together these results show that it is possible to use nocodazole to arrest mouse embryonic cells in mitosis but that it is not appropriate to culture the embryos in the presence of this drug for prolonged periods. Individual blastomeres completed mitosis at 60–90 min and started DNA synthesis at 120–150 min after release from nocodazole. Nuclei from blastomeres thus synchronized were used to conduct studies on the effect of the cell cycle on nuclear transfer. A signficant effect was found. When nuclei from 8-cell embryos in G1 or S-phase were used as nuclei donors, development to blastocyst was respectively 27% and none. ©Wiley-Liss, Inc.     

Intracellular divalent cation homeostasis and developmental competence in the hamster preimplantation embryo

The intracellular magnesium and calcium ion concentrations of in vivo-developed 2-cell hamster embryos were measured using ratiometric fluorometry. Intracellular magnesium and calcium ion concentrations were found to be 0.369 ± 0.011 mM and 129.3 ± 7.5 nM respectively. Culture of 1-cell hamster embryos for 24 hr to the 2-cell stage in control medium containing 0.5 mM magnesium and 2.0 mM calcium resulted in approximately a threefold increase to 343.5 ± 8.0 nM in intracellular calcium ion concentration, while magnesium ion levels were not altered (0.355 ± 0.007 mM). Increasing medium magnesium concentrations to 2.0 mM significantly increased intracellular magnesium ion concentrations of cultured 2-cell embryos with a concomitant reduction in intracellular calcium ion concentrations. Furthermore, increasing the medium magnesium concentration to 2.0 mM significantly increased development of 1-cell embryos collected at either 3 or 9 hr post-egg activation to the morula/blastocyst and blastocyst stages. Resultant blastocysts had an increased total cell number and increased development of the inner cell mass. Most important, however, culture with 2.0 mM magnesium increased the fetal potential of cultured 1-cells twofold. Therefore, because highest rates of development were observed in a medium that resulted in reduced intracellular calcium ion concentrations, it appears that altered calcium homeostasis is associated with impaired developmental competence of 1-cell embryos in culture. Mol. Reprod. Dev. 50:443–450, 1998. © 1998 Wiley-Liss, Inc.     

Sex-related growth rate differences in mouse preimplantation embryos in vivo and in vitro

Sex-related growth rate differences in preimplantation mouse embryos were investigated. In experiment I, Day 3 embryos were recovered from reproductive tracts, classified according to developmental stage, and cultured for 24 hr in CZB medium containing glucose. Each embryo was then reclassified and stained for measurement of number of nuclei and finally sexed using the polymerase chain reaction. In experiment II, Day 4 embryos were recovered, classified, stained, and sexed as in experiment I immediately after recovery. Morphologically, there were no differences between the sexes in either of the experiments on Day 4. However, based on number of nuclei, the data showed that in vitro conditions support the development of male embryos to the blastocyst stage compared to female embryos. Furthermore, growth rate differences were observed in vivo on Day 3, as females compacted earlier than males. These results suggest that the increased cell proliferation in cultured male embryos is an artifact caused by the in vitro environment. The variation may be due to sex differences in embryonal energy metabolism during the preimplantation stage. The growth difference implies different in vitro requirements of male and female embryos. © 1995 Wiley-Liss, Inc.     

Cell culture factors influencing in vitro expression of mouse mammary tumor virus

Summary Several cell culture factors were found to influence in vitro expression of mouse mammary tumor virus (MMTV) in the mouse adenocarcinoma cell line Mm5mt/c₁. Cells were propagated in a variety of commercially available cell culture media to which dexamethasone (DXM) was added as a stimulator of MMTV production. Culture seeding density, culture medium type, and glucose concentration each influenced MMTV production when expressed on a per cell basis. Maximum cell growth occurred in cultures grown in RPMI-1640 medium containing insulin. Those media which provided good cell growth were not necessarily optimal for virus expression. Addition of insulin did not stimulate MMTV synthesis although dexamethasone alone was stimulatory in all media used; however, maximum MMTV expression was obtained when dexamethasone and insulin were used in concert. Equivalent levels of MMTV-specific cell membrane antigen, MMTV-specific protein, and virus particles were produced at incubation temperatures of 32°, 34° or 37° C; however, higher levels of virus-related RNA-dependent DNA polymerase (RDDP) activity were recovered from cultures incubated at 32° and 34° C than at 37° C. Decreased levels of RDDP were attributed to enzyme thermolability at 37° C incubation. Research sponsored by the National Cancer Institute under Contract No. N01-CO-25423 with Litton Bionetics, Inc., and Contract No. N01-CP-33253 with the University of California.     

Assessment of Fc (IgG) receptor function in adherent murine peritoneal macrophages using soluble model immune complexes

Fc (IgG) receptor function on thioglycolate-elicited adherent peritoneal macrophages from normal mice (C3H/HeN) and mice with abnormal activation of macrophages (C3H/HeJ) was studied. For this, soluble model immune complexes composed of five to six mouse anti-dinitrophenyl (DNP) IgG antibodies (heavy oligomers) were incubated with adherent macrophages cultured for either 2 or 48 hr. Cells from both strains bound similar amounts of oligomers at both 2 and 48 hr of culture (about 10⁶ IgG protomers/cell). Uptake of oligomers measured at 37 °C was also similar at 2 and 48 hr of culture. Endocytosis of oligomers occurred rapidly with about 50% of surface-bound complexes being internalized within 30 min, but there was no evidence for catabolism of the endocytosed material. There was a 50% decrease in the ability of macrophages to bind oligomers following a prior exposure to soluble complexes. Return to maximal binding after the preincubation with soluble complexes was incomplete for cells of both strains at both 2 and 48 hr of culture even after 2 hr at 37 °C.