Shaping of the sperm nucleus in Marsilea: A distinction between factors responsible for shape generation and shape determination

Abstract

Spermiogenesis in Marsilea vestita involves the elongation of a roughly spherical nucleus into a spiral that is composed of four to five gyres. A ribbon of microtubules is associated with the outer edge of the nucleus throughout the shaping process. In order to observe nuclear morphogenesis in the absence of microtubules, developing microspores were treated with drugs that are known to affect microtubule assembly. Spermatids cultured in the presence of colchicine from the beginning of spermiogenesis do not form a microtubule ribbon. The nuclei of these cells change from a spherical to an irregular shape with elongate branches or loops. The normal spiral nucleus and elongate rod of condensed chromatin are not formed and the pattern of chromatin condensation is also abnormal. These observations indicate that in Marsilea microtubules do not provide the mechanical force for nuclear shape generation. Bulk chromatin condensation can also be eliminated as the force behind nuclear shaping, because during normal development the chromatin condenses only after nuclear shaping is well advanced. We suggest that a force-generating system is located near or is a part of the nuclear envelope. Microtubules may, however, be important in the determination of the final shape of the nucleus either by organizing or directing the force-generating system or by externally restricting or guiding the shaping nucleus. Microtubules may also function in controlling the pattern of chromatin condensation.