Circadian rhythm of metabolic changes associated with summer heat stress in high-producing dairy cattle

The current study aimed to investigate the circadian rhythm of blood metabolic parameters associated with summer heat stress (HS) in dairy cows. Ten healthy lactating Holstein Friesian cows were followed during HS for three successive days at six different time points. Blood was sampled from each cow starting from 07:00AM; at 4-h intervals. Ambient air temperature and relative humidity were recorded, and temperature-humidity index (THI) was calculated as well. Respiration rate (RR) and rectal temperature (RT) were recorded for each cow at the time of blood sampling. Concentrations of glucose, non-esterified fatty acids (NEFA), total cholesterol (TC) and urea were measured in each blood sample. The THI values were >68 at all times of the day, and the highest values were recorded at 11:00AM, 03:00PM and 07:00PM (80.9, 83.7, and 80.8, respectively). All the cows showed a significantly higher RR and RT coinciding with higher THI values (93±4 and 39.6±0.1; 90.2±3.4, and 40.1±0.1; 87.6±4.1, and 39.8±0.1, respectively, P<0.05). The concentrations of glucose were the lowest at 11:00AM and 03:00PM (3.75±0.1 and 3.44±0.1 mmol/L, respectively, P<0.05). Decreased glucose concentrations coincided with increased NEFA concentrations, (0.43±0.01 and 0.56±0.02 mmol/L, respectively, P<0.05), and were highly negatively correlated (r=−0.50, P<0.001). The highest urea and TC concentrations were registered at 11:00AM (6.11±0.15 mmol/L and 109.9±2.2 mg/dl, respectively) whereas the lowest urea and TC values were recorded at 03:00AM (4.97±0.18 mmol/L and 99.5± 1.7 mg/dl, respectively, P<0.05). The results of the present study indicate that there was a circadian variation in glucose, NEFA, urea, and TC resulting in the most unfavorable metabolic condition during the hottest moment of the day in dairy cattle. Earlier work revealed that HS-metabolic changes are reflected in the follicular fluid. The circadian changes observed in the present study associated with HS may imply that also the microenvironment of the oocyte is affected

Xenotransplantation by injection of a suspension of isolated preantral ovarian follicles and stroma cells under the kidney capsule of nude mice

OBJECTIVE: To develop and test a novel approach to xenotransplantation of isolated preantral follicles underneath the kidney capsule of immunodeficient mice. DESIGN: Prospective experimental animal study. SETTING: Academic research unit. ANIMAL(S): Healthy adult nude mice. INTERVENTION(S): Bovine ovaries from fetuses (n = 3) and calves (n = 3) were enzymatically disaggregated and subsequently filtered. Isolated preantral follicles were suspended in phosphate buffered saline, and granulosa and stroma cells originating from the ovarian digest served as embedding matrix. The suspension was injected under the kidney capsule of adult nude mice. MAIN OUTCOME MEASURE(S): Fourteen days after transplantation, follicular survival and proliferation in grafts was assessed by histology and proliferating cell nuclear antigen (PCNA) immunostaining, and was compared with ungrafted control tissue. RESULT(S): Primordial follicles decreased from 58.2% in control tissue to 17.1% in transplants in the fetal group, and from 76.0% to 17.2% in the calf group. Concomitantly, primary follicles increased from 13.4% to 62.2% in the fetal group, and from 5.4% to 63.5% in the calf group. Follicular proliferation measured by PCNA immunolabeling exhibited an increase from 40.6% growing follicles to 81.9% in the fetal group, and from 21.0% to 80.7% in the calf group. CONCLUSION(S): The massive follicular activation following transplantation indicates that isolated preantral follicles are able to survive and grow 14 days after renal subcapsular xenotransplantation.status: publishe

Follicle survival and growth to antral stages in short-term murine ovarian cortical transplants after Cryologic solid surface vitrification or slow-rate freezing

This study was designed to asses murine preantral follicle survival and growth, after cryopreservation of ovarian tissue by two different methodologies, solid-surface vitrification by the Cryologic vitrification method (CVM) and slow-rate freezing (SRF). Cryotreated tissue was stored in liquid nitrogen for 24h, and upon warming follicle viability was assessed by live/dead fluorescent probes, and by 7-day autotransplantation of both cryotreated tissue types to the left and right kidney capsule of the donor animals (n=16). The live/dead assay immediately upon tissue warming did not allow a distinction to be made in terms of follicle viability between the CVM and SRF cryoprocedure. In grafted tissue, follicular survival and growth was assessed by conventional histological examination and proliferating cell nuclear antigen immunohistochemistry. In each experimental group (control, CVM and SRF), follicles were classified according to developmental stage, and a comparison of the proportions of follicle stages between the three groups was executed by statistical analysis of variance. The fraction of primordial follicles in CVM and SRF grafts significantly decreased as compared to control tissue, whereas intermediary and primary follicles significantly increased. The proportion of secondary and antral follicles after SRF was significantly larger than after CVM, but did not differ significantly between CVM and control tissue. The observed massive follicle activation is a typical transplantation effect, but testifies to the survival of cryopreserved follicles. In both types of cryotreated tissue, growing follicles, including antral stage, were present in grafts from all recipient animals. The significantly more abundant further developed stages in SRF treated tissue, however, suggest that CVM treated tissue may have suffered a growth disadvantage. To our knowledge, this is the first time that the CVM technique has been utilized to vitrify preantral follicles.status: publishe

Follicular fluid supplementation during bovine oocyte maturation in vitro improves blastocyst development and quality in an individual culture system

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Optimisation of the bovine whole in vitro embryo system as a sentinel for toxicity screening: a cadmium challenge

Developmental toxicity testing could greatly benefit from the availability of an in vitro alternative model based on the use of animal embryos that have better human-like physiology than the currently-used alternative models. These current models are insufficient, as extrapolation of the results can be challenging. Therefore, an in vitro bovine embryo culture system was used to expose individual morulae to test substances, and to study developmental characteristics up to the blastocyst stage. Cadmium was chosen as the reference toxicant to investigate the sensitivity of the bovine morulae to various concentrations and exposure times. Oocytes from slaughterhouse-obtained bovine ovaries, were maturated, fertilised and cultured up until the morula stage. Morulae were exposed to different cadmium concentrations for 18 or 70 hours, and developmental competence, embryo quality and the expression of cadmium exposure-related genes were evaluated. Cadmium exposure hampered embryonic developmental competence and quality. Compared with the 18-hour exposure, the 70-hour exposure induced a 20-fold higher toxic response with regard to developmental competence and a more 'cadmium-typical' transcript expression. The bovine morula might be a promising tool for toxicity testing as, following exposure, the embryos reacted in a sensitive and 'cadmium-typical' manner to our reference toxicant