Schizosaccharomyces pombe Calmodulin, Cam1, Plays a Crucial Role in Sporulation by Recruiting and Stabilizing the Spindle Pole Body Components Responsible for Assembly of the Forespore Membrane

Calmodulin in Schizosaccharomyces pombe is encoded by the cam1⁺ gene, which is indispensable for both vegetative growth and sporulation. Here, we report how Cam1 functions in spore formation. We found that Cam1 preferentially localized to the spindle pole body (SPB) during meiosis and sporulation. Formation of the forespore membrane, a precursor of the plasma membrane in spores, was blocked in a missense cam1 mutant, which was viable but unable to sporulate. Three SPB proteins necessary for the onset of forespore membrane formation, Spo2, Spo13, and Spo15, were unable to localize to the SPB in the cam1 mutant although five core SPB components that were tested were present. Recruitment of Spo2 and Spo13 is known to require the presence of Spo15 in the SPB. Notably, Spo15 was unstable in the cam1 mutant, and as a result, SPB localization of Spo2 and Spo13 was lost. Overexpression of Spo15 partially alleviated the sporulation defect in the cam1 mutant. These results indicate that calmodulin plays an essential role in forespore membrane formation by stably maintaining Spo15, and thus Spo2 and Spo13, at the SPB in meiotic cells.Calmodulin is a calcium-binding protein that is ubiquitously distributed and highly conserved among eukaryotes. It contains four EF-hand Ca²⁺-binding sites, which are required for function. Calmodulin controls a variety of cellular processes mostly related to calcium signaling. When bound to calcium, calmodulin undergoes a characteristic conformational change to an active configuration. Activated calmodulin then binds effector proteins and transmits the signal to downstream regulators.Yeast is a genetically tractable model organism suitable for studying the biological function of calmodulin, using conditional-lethal calmodulin mutants (4). In the budding yeast Saccharomyces cerevisiae, calmodulin is encoded by the CMD1 gene (5). Cmd1p is implicated in a wide variety of cellular processes, including initiation of budding and mitotic spindle formation (24). The fission yeast Schizosaccharomyces pombe has a typical calmodulin encoded by the cam1⁺ gene, which plays an indispensable role in cell proliferation, dependent on its Ca²⁺-binding activity (18, 19, 30). A green fluorescent protein (GFP)-Cam1 fusion protein localizes to sites of polarized cell growth and to the spindle pole body (SPB) in vegetative cells (19). Thus, an essential role of Cam1 might be its regulatory function in chromosome segregation (19). The role of calmodulin in the sexual cycle has been documented to a lesser extent in previous studies. A missense mutant, cam1-117, in which the Arg117 codon is changed to a Phe codon, exhibits reduced sporulation efficacy (29), suggesting that calmodulin plays a role in sporulation in fission yeast.Spore formation in fission yeast initiates with assembly of the forespore membrane (FSM), composed of double-unit membranes within the cytoplasm of a diploid zygote cell (10, 27, 28, 34). The FSM expands to encapsulate each haploid nucleus generated by meiosis and then forms a nucleated prespore. The inner bilayer of the FSM subsequently becomes the plasma membrane of the newborn spores. During meiosis II, the SPB undergoes morphological alteration from a compact single plaque to a multilayered expanded structure (10). Such modification of the SPB is a prerequisite for FSM assembly, which occurs close to the outermost layer of the modified SPB (9, 10, 20, 21).Three SPB component proteins, Spo2, Spo13, and Spo15, have been identified as essential for SPB modification and formation of the FSM (11, 23). Spo15, a large coiled-coil protein, is associated with the SPB throughout the life cycle and is indispensable for recruitment of Spo2 and Spo13 to the cytoplasmic surface of the meiotic SPB. The latter two proteins are produced only during meiosis (23). These observations imply that the SPB serves as a platform for assembly of the FSM. Cam1 has been reported to localize to the SPB during vegetative growth (19), raising the intriguing possibility that fission yeast calmodulin is involved in sporulation through proper construction of a modified meiotic SPB. To test this possibility, we report herein a detailed analysis of Cam1 localization during meiosis and the consequence of a missense mutation of cam1 on SPB modification and FSM formation.