In order for cells to generate copies of themselves they must undergo a highly complex process called mitosis. During mitosis, many enzymes called protein kinases work together to ensure both daughter cells inherit the correct number of chromosomes when the cell divides. Polo-like kinase 1 (Plk1) is a protein kinase that regulates several events during mitosis including centrosome maturation, spindle assembly, sister chromatid cohesion, and cytokinesis. Recently, the A-kinase anchoring protein Gravin (AKAP12) has been implicated in regulating Plk1 function at mitotic centrosomes. Specifically, loss of Gravin has been linked to defective protein signaling at centrosomes, chromosome misalignment, and increased incidence of micronuclei (small nuclei, an aberration often seen in cancer). However, while previous studies used shRNA-mediated knockdown to reduce Gravin levels in cells, it remains unclear how complete loss of this scaffold in human cells influences mitotic signaling events. To test this, our lab generated Gravin knockout U2OS (osteosarcoma) cells using CRISPR/Cas9 genome editing. First, I employed a combination of immunohistochemical staining and quantitative imaging tools to assess how Gravin loss affected chromosome alignment, micronuclei formation, and gamma tubulin accumulation at centrosomes. I found that loss of Gravin in U2OS and HeLa cells caused misaligned chromosomes and micronuclei. Additional experiments I conducted revealed that Gravin-depleted U2OS, HeLa, and MEF cells presented aberrant gamma tubulin accumulation at mitotic spindle poles. Next, a local drug-targeting approach was used to specifically inhibit Plk1 activity at mitotic spindle poles in U2OS cells. I determined that localized inhibition of Plk1 produced similar mitotic defects as observed in cells lacking Gravin. Collectively, these findings suggest that Gravin is required for coordinating proper Plk1 signaling at centrosomes during mitosis while the loss of this scaffold protein leads to mitotic defects. Future work will uncover downstream substrates of Gravin-anchored Plk1 that becomes dysregulated in cells lacking Gravin.