Energy substrates, mitochondrial membrane potential and human preimplantation embryo division.

Carbohydrate additives to modern embryo culture media are based on three basic energy sources, glucose, pyruvate and lactate. Although the use of these substrates is almost universal, debate continues as to the roles of the individual components in the human. This is mainly due to the lack of human embryos for research and the reliance on animal model systems. In the present work, the human embryo was used to study the role of the above simple substrates in the maintenance of the mitochondrial membrane potential and cell division. The mitochondrial membrane potential was measured with fluorescence techniques. Cell division was scored as the number of blastomeres on day 3. Both the mitochondrial membrane potential and cell division were dramatically lost in the absence of energy sources. The mitochondrial membrane potential and cell division were normal in media containing all three energy sources, or in pyruvate-containing media. Both glucose and lactate individually proved poor energy sources for the maintenance of the mitochondrial membrane potential. However, cell division continued in the presence of glucose, suggesting that some energy production can continue. These data suggest that pyruvate is an absolute requirement for mitochondrial respiration and cell cleavage during human preimplantation development. The role of lactate is as yet unclear.

Pregnancies after activated oocyte transfer: a new option for infertility treatment.

In this preliminary report, we describe a new technique involving the same-day transfer of activated oocytes to the uterus after intracytoplasmatic sperm injection (ICSI). The technique, termed activated oocyte transfer (AOT), offered to 19 couples, yielded a pregnancy rate per cycle of about 30%, equivalent to traditional in-vitro fertilization (IVF) and ICSI in a laboratory setting. AOT is performed 4 h after oocyte retrieval, permitting the patient to undergo treatment as an out-patient procedure.

Non-specific currents at fertilisation in sea urchin oocytes.

Using the whole-cell voltage-clamp technique to clamp sea urchin oocytes we show that the fertilising spermatozoon triggers an inward current of -521 +/- 56.7 pA (n = 8) at activation. Simultaneously, the plasma membrane depolarises and the conductance increases from 23.4 +/- 1.4 to 40.6 +/- 1.2 nS (n = 8). The I/V curve for the peak activation current is linear and the current reverses between 0 and +20 mV, suggesting a non-specific ion current. Since injection of inositol triphosphate induced an inward current of -1062 +/- 314 pA (n = 4), and the current was inhibited by preloading oocytes with the calcium chelator BAPTA, the non-specific activation current in sea urchin appears to be calcium dependent.

Nitric oxide gates fertilization channels in ascidian oocytes through nicotinamide nucleotide metabolism.

In this paper we use the nitric oxide (NO) donor sodium nitroprusside to examine the response of the unfertilised oocyte of the ascidian Ciona intestinalis to nitric oxide. We show that the release of NO triggers an inward current that displays similar properties to the ascidian fertilisation current. Furthermore, the production of NO causes the release of intracellular calcium through a ruthenium-red sensitive mechanism. Our data suggest that these effects are due to the stimulation of nicotinamide nucleotide metabolism, but the active second messenger is not cyclic adenosine diphosphate ribose (cADPr). Finally, we show that NO production increases at fertilisation. The results suggest that ascidian sperm trigger the release of NO and this second messenger causes the breakdown of nicotinamide nucleotides leading to the production of a second messenger which induces the fertilisation current and may assist in the production of the increase in calcium.