Abstract
Centrioles are ancient subcellular protein-based organelles that maintain a conserved number and structure across many groups of eukaryotes. Centriole number (two per cells) is tightly regulated; each pre-existing centriole nucleates only one centriole as the cell prepares for division. The structure of centrioles is barrel-shaped, with a nine-fold symmetry of microtubules. This organization of microtubules is essential for the ancestral function of centriole–cilium nucleation. In animal cells, centrioles have gained an additional role: recruiting pericentriolar material (PCM) to form a centrosome. Therefore, it is striking that in animal spermatozoa, the centrioles have a remarkable diversity of structures, where some are so anomalous that they are referred to as atypical centrioles and are barely recognizable. The atypical centriole maintains the ability to form a centrosome and nucleate a new centriole, and therefore reveals the most rudimentary structure that is needed for centriole function. However, the atypical centriole appears to be incapable of forming a cilium. Here, we propose that the diversity in sperm centriole structure is due to rapid evolution in the shape of the spermatozoa head and neck. The enhanced diversity may be driven by a combination of direct selection for novel centriole functions and pleiotropy, which eliminates centriole properties that are dispensable in the spermatozoa function.
Highlights
Centrioles are ancient subcellular protein-based organelles that maintain a conserved number and structure across many groups of eukaryotes
Since the ooplasm contains all of the proteins that are necessary to form centrioles and a centrosome, the sperm needs only to bring a minimal centriole that can serve as a nucleation site to recruit pericentriolar material (PCM) and centriole duplication machinery
The mother centriole is situated farther from the nucleus, and it was named the distal centriole. At this early stage of sperm formation, the centrioles start to be modified both in their structure and composition in a process that is referred to as centrosome reduction and centriole remodeling
Summary
The spermatozoon is a very specialized cell type that has mainly one function: to fertilize an egg. Cryptic female choice takes place when a female selects the sperm of a particular male out of her mates to fertilize her egg [7] This direct selection drives the spermatozoa to rapidly evolve. Some animal groups evolved to have internal fertilization, and their spermatozoon adapted to traversing the female reproductive tract and being stored for a long time These changes resulted in a transition from an ancestral “primitive” short form of sperm consisting of a head, neck, and tail to a longer sperm consisting of a head, neck, midpiece, and principle piece (Figure 1) [8]. Multiple groups of animals evolved a sperm neck with one or no typical centrioles (Figures 1 and 2a). Panels (d–f) are from Fishman [9]
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