During capacitation in bull spermatozoa, actin and PLC-ζ undergo dynamic interactions.

The migration pattern of sperm-specific phospholipase C-ζ (PLC-ζ) was followed and the role of this migration in actin cytoskeleton dynamics was determined. We investigated whether PLC-ζ exits sperm, opening the possibility that PLC-ζ is the 'spermatozoidal activator factor' (SOAF). As capacitation progresses, the highly dynamic actin cytoskeleton bound different proteins to regulate their location and activity. PLC-ζ participation at the start of fertilization was established. In non-capacitated spermatozoa, PLC-ζ is in the perinuclear theca (PT) and in the flagellum, therefore it was decided to determine whether bovine sperm actin interacts with PLC-ζ to direct its relocation as it progresses from non-capacitated (NC) to capacitated (C) and to acrosome-reacted (AR) spermatozoa. PLC-ζ interacted with actin in NC spermatozoa (100%), PLC-ζ levels decreased in C spermatozoa to 32% and in AR spermatozoa to 57% (P < 0.001). The level of actin/PLC-ζ interaction was twice as high in G-actin (P < 0.001) that reflected an increase in affinity. Upon reaching the AR spermatozoa, PLC-ζ was partially released from the cell. It was concluded that actin cytoskeleton dynamics control the migration of PLC-ζ during capacitation and leads to its partial release at AR spermatozoa. It is suggested that liberated PLC-ζ could reach the egg and favour fertilization.

Perinuclear theca during spermatozoa maturation leading to fertilization.

Mammalian spermatozoa acquire the capacity to fertilize the ovum and display motility during their passage through the epididymis. At the same time, they undergo changes in metabolic patterns, enzymatic activities, ability to bind to zona pellucida surface, and electrophoretic properties and, furthermore, stabilization of some sperm structures by the establishment of disulphide linkages takes place in several sperm structures. The cytoplasmic perinuclear theca (PT) is a unique extranuclear cytoskeletal element that surrounds the nucleus, which is proposed to be a structural scaffold to the sperm nucleus. The purpose of this review is to describe PT changes related to epididymal sperm maturation. We will focus mainly on the protein components of the PT of eutherian mammalian spermatozoa and on quantitative protein changes during sperm maturation. The protein constituents of the PT have not been completely defined and most of them are different from the cytoskeletal proteins of somatic cells. However, they are proteins with cytoskeletal features. The morphologic changes reported for PT and the proposed functions of PT are discussed.