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.     

Gel chromatographic behavior of pectic substances of sugar beet seedling cell walls in salt solutions of various concentrations

Gel chromatographic behavior of pectic substances of cell wallsof sugar beet seedlings changed with the NaCl concentration.The pectic substances were eluted in the void volume of thecolumn in the absence of salt. They were divided into two peakswhen the NaCl concentration was more than 2 mM and the secondpeak was gradually retarded and broadened as the NaCl concentrationof the eluant increased. (Received June 9, 1979; )     

Can cytological features differentiate reactive renal tubular cells from low‐grade urothelial carcinoma cells?

H. Ohsaki, E. Hirakawa, Y. Kushida, S. Yokoshita, M. Nakamura, H. Kiyomoto and R. Haba Can cytological features differentiate reactive renal tubular cells from low‐grade urothelial carcinoma cells? Objective: To compare the cytomorphological and immunocytochemical features of reactive renal tubular cells and low‐grade urothelial carcinoma cells (LG‐UCs). Methods: We examined 15 cytological parameters in 38 cases with reactive renal tubular cells in renal disease and 20 cases of LG‐UCs from bladder cancer that had been diagnosed by histological examination. Voided urine cytological parameters evaluated were as follows: (i) maximum cell numbers of clusters, (ii) cannibalism, (iii) rosette‐like arrangement, (iv) hobnail‐shaped cells, (v) vacuolated cytoplasm, (vi) intracytoplasmic haemosiderin, (vii) irregular nuclear contours, (viii) chromatin pattern, (ix) prominent nucleoli, (x) cast encasement, (xi) casts, (xii) dysmorphic erythrocytes, (xiii) isomorphic erythrocytes, (xiv) necrosis, and (xv) vimentin reactivity. The above parameters were determined using Mann–Whitney U‐test and chi‐square test, with differences considered significant at P < 0.05. Results: In reactive renal tubular cells, low to moderate cell numbers of clusters (fewer than 50 cells), rosette‐like arrangement, hobnail‐shaped cells, vacuolated cytoplasm, intracytoplasmic haemosiderin, euchromatin pattern, prominent nucleoli, dysmorphic erythrocytes and vimentin reactivity were present in significantly higher proportions compared with those in LG‐UCs. In LG‐UCs, high cell numbers of clusters (50 cells or more), cannibalism, heterochromatin pattern, isomorphic erythrocytes and necrosis were seen in significantly higher proportions. No significant differences were observed in irregular nuclear contours, cast encasement or casts. Conclusions: Based on results of the present study, maximum cell numbers of clusters, cannibalism, rosette‐like arrangement, hobnail‐shaped cells, vacuolated cytoplasm, intracytoplasmic haemosiderin, chromatin pattern, prominent nucleoli, dysmorphic erythrocytes, isomorphic erythrocytes, necrosis, and vimentin reactivity were capable of distinguishing reactive renal tubular cells from LG‐UCs.     

Allelopathic effects of p-menthane-3,8-diols in Eucalyptus citriodora

The relationship between the allelopathic p-menthane-3,8-diols and the ontogenetic age in Eucalyptus citriodora was elucidated. The diols in the soil from a Eucalyptus grove were analysed by mass chromatography. Germination and growth inhibitory activities of the cis-diol against several higher plants were examined.     

Analysis of the inhibition of mammalian thioredoxin, thioredoxin reductase, and glutaredoxin by cis-diamminedichloroplatinum (II) and its major metabolite, the glutathione-platinum complex.

Several studies have demonstrated a correlation between cellular toxicity of cis-diamminedichloroplatinum (II) (cisplatin, CDDP) and inhibited intracellular activity of the thioredoxin system, i.e., thioredoxin (Trx), thioredoxin reductase (TrxR), and NADPH. Conversely, increased cellular activity of the Trx system confers resistance to CDDP. In this study, we have analyzed the interaction of CDDP with Trx and TrxR in order to clarify the mechanism. The inhibition with time-dependent kinetics by CDDP of NADPH-reduced (but not oxidized) TrxR was irreversible, strongly suggesting covalent modification of the reduced selenocysteine-containing active site. Assuming second order kinetics, the rate constant of TrxR inhibition by CDDP was 21 +/- 3 M(-1) x s(-1). Transplatin was found to be an even more efficient inhibitor, with a second order rate constant of 84 +/- 22 M(-1) x s(-1), whereas carboplatin (up to 1 mM) gave no inhibition of the enzyme under the same conditions. Escherichia coli Trx or human or bacterial glutaredoxin (Grx) activities were in comparison only slightly or not at all inhibited by either CDDP, transplatin, or carboplatin. However, glutaredoxins were found to be inhibited by the purified glutathione adduct of cisplatin, bis-(glutathionato)platinum(II) (GS-Platinum complex, GS-Pt), with an IC50 = 350 microM in the standard beta-hydroxyethyl disulfide-coupled assay for human Grx. Also the mammalian Trx system was inhibited by GS-Pt with similar efficiency (IC(50) = 325 microM), whereas neither the E. coli Trx system nor glutathione reductase were inhibited. Formation of GS-Pt is a major route for cellular elimination of CDDP. The fact that GS-Pt inhibits the mammalian Trx as well as Grx systems shows that CDDP may exert effects at several stages of its metabolism, including after conjugation with GSH, which are intimately linked with the cellular disulfide/dithiol redox regulatory systems.     

Batchwise assessment of porcine embryos for cryotolerance

The viability or developmental ability of porcine embryos after slow-freezing and thawing differs depending on the embryonic stage or the batch, which is defined as a group of embryos obtained from one donor at one time. We froze porcine blastocysts in batches and assessed their cryotolerance by using two expanded blastocysts (EBs) as samples to predict the developmental potential of other blastocysts from the same batch at different stages. Two EBs from the same batch that had been separately frozen were thawed and cultured in vitro for 48 h to examine their in vitro ability to develop to the hatched blastocyst stage. Thereafter, each batch was assigned to Grade A, B, or C according to the viability of the two EBs, i.e., 100% viability (2/2: number of hatched blastocysts/number of cultured EBs) was Grade A; 50% (1/2) was Grade B; and 0% (0/2) was Grade C. The viability of EBs after freeze-thawing and in vitro culture varied depending on the batch and was lower (31.0+/-10.2%, mean+/-S.E.M.; P<0.01) than that of unfrozen controls (96.8+/-2.3%). The viability of frozen-thawed hatched blastocysts (HBs) did not differ among the graded batches, but the blastocyst diameter decreased (from 409 to 326 microm) as the batch grade decreased (from A to C). When both EBs and HBs from batches of the same grade were transferred to recipients (average 11.7 EBs and 16.0 HBs per recipient), the rate of pregnancy and farrowing in recipients decreased (from 77.8% to 0%) and the number of piglets obtained decreased (from 15.3 to 0) as the batch grade decreased. However, when not only frozen-thawed EBs from Grade B or C batches, but also four helper embryos at the morula to early blastocyst stage (which were expected to support the pregnancy) were transferred, the number of piglets generated was higher from EBs from Grade B batches (16.0) than from EBs from Grade C batches (0.0). When frozen-thawed HBs and helper embryos were transferred, the number of piglets generated was higher from HBs from Grade B batches (12.7) than that from HBs from Grade C batches (1.9). After slow-freezing of porcine blastocysts, their rate of survival to the piglet stage differs batchwise, and in vitro viability assessment of sample EBs after freezing and thawing may help in assessing the post-freezing and post-thawing developmental potential of other blastocysts at different stages from the same batch.     

Phylogenetic analysis of bacteria preserved in a permafrost ice wedge for 25,000 years

Phylogenetic analysis of bacteria preserved within an ice wedge from the Fox permafrost tunnel was undertaken by cultivation and molecular techniques. The radiocarbon age of the ice wedge was determined. Our results suggest that the bacteria in the ice wedge adapted to the frozen conditions have survived for 25,000 years.     

Development of the sexual skin with pubertal maturation in female chimpanzees

We examined the adolescent development of the sexual skin of chimpanzees (Pan troglodytes) by daily observation, evaluation of swelling, and weekly photogrametry. Although the size of swelling differed with the individual, the development of sexual swelling followed four stages: (1) initial stage, the labial region began to show a slight swelling and recovery; (2) labial stage, swelling at the labial region became maximal; (3) anal stage, another swelling center appeared in the anal region and enlarged; and (4) full maturity stage, the labial and anal regions merged into a full swelling. Menarche occurred after the beginning of the anal stage, and the regular cycle was then established. All of the swelling stages and the peak swelling size are regarded as good indicators of reproductive maturation in chimpanzees.