Phosphatidylinositol (PtdIns) and its phosphorylated derivatives represent less than 5% of total membrane phospholipids in cells. Despite their low abundance, they form a dynamic signaling system that is regulated in response to a variety of extra- and intracellular cues. Protein domains including PH, FYVE, ENTH, PHOX, PHD fingers, and lysine-/arginine-rich patches can bind to specific phosphoinositide isomers, which, in turn, can induce changes in the subcellular localization, posttranslational modification, protein interaction partners, or activity of the protein containing such a domain. Phosphoinositides and the enzymes that synthesize them are found in many different subcellular compartments including the nuclear matrix, heterochromatin, and sites of active RNA splicing, suggesting that phosphoinositides may regulate specific functions within the nuclear compartment. The existence of distinct subcellular pools has led to the challenging task of the quantitation of temporal and spatial changes in phosphoinositides. We report methods to measure the mass levels of three different phosphoinositides within the nuclear compartment.