Geminin is essential for DNA re-replication in the silk gland cells of silkworms.

Endoreplication, known as endocycles or endoreduplication, is a cell cycle variant in which the genomic DNA is re-replicated without mitosis leading to polyploidy. Endoreplication is essential for the development and functioning of the different organs in animals and plants. Deletion of Geminin, a DNA replication licensing inhibitor, causes DNA re-replication or damage. However, the role of Geminin in endoreplication is still unclear. Here, we studied the role of Geminin in the endoreplication of the silk gland cells of silkworms by constructing two transgenic silkworm strains, including BmGeminin1-overexpression and BmGeminin1-RNA interference. Interference of BmGeminin1 led to body weight gain, increased silk gland volume, increased DNA content, and enhanced DNA re-replication activity relative to wild-type Dazao. Meanwhile, overexpression of BmGeminin1 showed an opposite phenotype compared to the BmGem1-RNAi strain. Furthermore, RNA-sequencing of the transgenic strains was carried out to explore how BmGeminin1 regulates DNA re-replication. Our data demonstrated a vital role of Geminin in the regulation of endoreplication in the silk gland of silkworms.

Validation of Synthetic CRISPR Reagents as a Tool for Arrayed Functional Genomic Screening.

To date, lentiviral-based CRISPR-Cas9 screens have largely been conducted in pooled format. However, numerous assays are not amenable to pooled approaches, and lentiviral screening in arrayed format presents many challenges. We sought to examine synthetic CRISPR reagents in the context of arrayed screening. Experiments were performed using aberrant DNA replication as an assay. Using synthetic CRISPR RNAs targeting the known control gene GMNN in HCT-116 cells stably expressing Cas9, we observed statistically significant phenotype among the majority of transfected cells within 72 hours. Additional studies revealed near complete loss of GMNN protein and editing of GMNN DNA. We next conducted a screen of synthetic CRISPR RNAs directed against 640 ubiquitin-related genes. Screening identified known and novel DNA replication regulators that were also supported by siRNA gene knockdown. Notably, CRISPR screening identified more statistically significant hits than corresponding siRNA screens run in parallel. These results highlight the possibility of using synthetic CRISPR reagents as an arrayed screening tool.

Cell cycle regulator geminin is dispensable for the proliferation of vascular smooth muscle cells.

The proliferation of vascular smooth muscle cells (VSMCs) plays a major role in the pathogenesis of many cardiovascular diseases. Geminin regulates DNA replication and cell cycle progression and plays a key role in the proliferation of cancer cells. We therefore hypothesized that geminin regulates the proliferation of VSMCs. The present study demonstrates that the level of geminin expression was low in quiescent VSMCs (approximately 90% and 10% of cells in the G1 and in S/G2/M phases of the cell cycle, respectively), increased as more cells entered in S/G2/M, and then decreased as cells exited S/G2/M. Further, angiotensin II and norepinephrine stimulated expression of geminin in VSMCs. However, the DNA content, nuclear morphology, percentage of cells at different stages of the cell cycle, and rate of proliferation of VSMCs from which geminin was either depleted or overexpressed were all similar. These findings indicate geminin functions differently in VSMCs than it does in cancer cell lines and that it may provide a target for treating cancers without affecting normal cells.