Effects of Semen Processing on Sperm Function: Differences between Swim-Up and Density Gradient Centrifugation.

Purpose: Andrology research has evolved notoriously in the latest years, particularly since male factor contribution to couple infertility has been undoubtedly demonstrated. However, sperm function investigations results are sometimes contradictory, probably as a result of the use of different sperm processing techniques. In this work, we underwent a systematic functional comparison of human sperm samples simultaneously processed by swim-up and density gradient centrifugation, which are the preferred sperm processing methods used in basic and clinical laboratories.

Proteomic characterization of human sperm plasma membrane-associated proteins and their role in capacitation.

Background: Plasma membranes of ejaculated sperm are covered by epididymal and accessory glands secreted proteins that must be released from sperm surface during the female reproductive tract passage in order to capacitate and fertilize the oocyte.

Objectives: As human sperm plasma membrane-associated proteins (SMAP) have not yet been investigated, the aim of this study was to characterize the SMAP released during in vitro human capacitation and to study their possible role as decapacitation factors.

Materials And Methods: SMAP were characterized by 2-dimensional electrophoresis and mass spectrometry analysis.

Single-cell microinjection assay indicates that 7-hydroxycoumarin induces rapid activation of caspase-3 in A549 cancer cells.

Coumarins have attracted intense interest in recent years due to their apoptogenic effects. The aim of the present study was to determine whether 7-hydroxycoumarin (7-HC) induces changes in caspase-3 (C-3) activity in A549 human lung carcinoma cells. A range of analytical techniques, including colorimetric and fluorometric assays, western blotting, single-cell microinjection, fluorescence microscopy and image analysis were conducted to elucidate the effects of 7-HC.

Sodium influx induced by external calcium chelation decreases human sperm motility.

Background: Calcium removal from the medium promptly reduces human sperm motility and induces a Na(+)-dependent depolarization that is accompanied by an increase in intracellular sodium concentration ([Na(+)](i)) and a decrease in intracellular calcium concentration ([Ca(2+)](i)). Sodium loading activates a Na(+)/K(+)-ATPase.

Methods: Membrane potential (Vm) and [Ca(2+)](i) were simultaneously detected in human sperm populations with the fluorescent probes diSC(3)(5) and fura 2.

Activation of protein kinase A stimulates the progesterone-induced calcium influx in human sperm exposed to the phosphodiesterase inhibitor papaverine.

Progesterone induces a fast transient calcium influx in human sperm though the activation of nongenomic receptors. During sperm capacitation, a complex process required for sperm to be able to fertilize the egg, the calcium influx induced by progesterone is enhanced. Sperm capacitation is mediated by an increase in cAMP content and subsequent protein kinase A (PKA) activation.

Intracellular sodium increase induced by external calcium removal in human sperm.

In human sperm, removal of external calcium produces a fast Na(+)-dependent depolarization that is presumably due to sodium permeation through calcium channels. Calcium restoration produces a ouabain-sensitive hyperpolarization that brings the membrane potential to values frequently more negative than resting. In this work, we show evidence indicating that external calcium removal induces an increase in the intracellular sodium ([Na(+)](i)) and that this phenomenon is related to the Na(+)-dependent depolarization.

A remarkable increase in the pHi sensitivity of voltage-dependent calcium channels occurs in human sperm incubated in capacitating conditions.

Human sperm are endowed with voltage-dependent calcium channels (VDCC) that produce increases in [Ca2+]i in response to depolarization with KCl. These channels are stimulated during "capacitation", a complex biochemical process, accompanied by a slight pHi alkalization, that sperm must accomplish to acquire the ability to fertilize the egg. The stimulation can be explained in part by the fact that in non-capacitated sperm, calcium influx through VDCC is stimulated by pHi alkalization in the range of pHi observed during capacitation.