Structural organization and dynamics of the endoplasmic reticulum during spermatogenesis of Drosophila melanogaster: Studies using PDI-GFP chimera protein

An important property of the endoplasmic reticulum (ER) is its ability to change morphology and intracellular localization during the cell cycle and differentiation. Visualization of the ER membranes using the protein disulphide isomerase (PDI) GFP chimeric protein makes it possible to trace the dynamics of all these processes and expose transitional forms and intermediate configurations. In this article the results of the study of the ER morphology during spermatogenesis of D. melanogaster are presented. It was shown that ER membranes retain high level of GFP-fluorescence through all stages of spermatogenesis, so that revealing of the stage-specific features of the ER organization was possible. The ER network has distinctive reticular morphology during the interphase and early prophase. Right before the cell division, this morphology changes and ER forms a system of branchless filamentous membranes. In prometaphase, these membranes form concentric circles adjacent to the nuclear membrane; from metaphase to telophase, they lengthen along the axis of cell division and resemble a spindle. Later, in the next interphase, this configuration transforms to a reticular structure seen previously. At the beginning of spermatid differentiation, the ER encompasses nebenkern and nucleus and elongates adjacent to them. During the latest stages of spermatogenesis, the ER network dissociates into separate membranous granules that are eliminated from the cyst with the individualization complex. Possible mechanisms of the ER dynamics and reorganization are discussed.