P-glycoprotein acts as a protective barrier against xenobiotics and cellular toxicants in the human body while playing an important role in drug transportation in many organs. Overexpression of p-glycoprotein can lead to a decrease in the absorption of many drugs. After screening, 33 phytochemicals from 25 spices were selected for docking with p-glycoprotein to detect some naturally occurring p-glycoprotein inhibitors to modulate multidrug resistance. Absorption, distribution, metabolism, excretion, and toxicity prediction and drug-like properties of those ligands were investigated from pkCSM, Molinspiration, and SwissADME software, followed by molecular docking study and molecular dynamic simulation on BIOVIA Discovery Studio. These 33 phytochemicals met the criteria of p-glycoprotein inhibitor as much as the reference drug verapamil. Pandamarilactone-31 showed the highest binding affinity for p-glycoprotein, acting as the lead p-glycoprotein inhibitor, followed by α-D-fructofuranoside methyl, sesamolinol, and nigellidine.