Cytodifferentiation of the crayfish spermatozoon: acrosome formation, transformation of mitochondria and development of microtubules.

During spermiogenesis in the crayfish, the acrosome, mitochondrial derivatives and the centrioles are retained within the admixed nucleoplasm and cytoplasm (spermioplasm). Fused nuclear and plasma membranes form the tegument that invests the spermioplasm. A well-defined system of small tubules that originate during spermiogenesis from densities surrounding the centrioles also defines the axes of the nuclear processes in the mature spermatozoon. These tubules are larger in diameter than the microtubules in adjacent interstitial cells and their development coincides with the formation and extension of the nuclear processes. The small tubules seem related to the changes in the cell accompanying nucleoplasmic streaming and to the growth and stabilization of form of the elongate, assymmetric nuclear processes. The mitochondria of spermatocytes are transformed into membranous lamellae that lie in the spermioplasm of the mature spermatozoon, and may by oxidative phosphorylation or some alternative pathway provide energy for metabolic activity and motility. The apical cap of the mature acrosome of the crayfish spermatozoon is enveloped by a sheath of PAS-positive material. The acrosomal process is attached to a dense crescent-shaped acrosome embedded in the spermioplasm. A fine granular substance at the base of the acrosome gives rise to beaded filaments that radiate into the central acrosomal concavity. [ABSTRACT FROM AUTHOR]