Exposure of PC12 cells to metamphetamine (MA) induces the formation of multilamellar structures (whorls) resembling autophagic granules that subsequently develop as intracellular inclusions. These inclusions stain for a variety of antigens belonging to the ubiquitin proteasome pathway. Since MA-induced intracellular bodies require the presence of dopamine in the present study we analyzed the role of dopamine (DA) receptors in producing neuronal inclusions. Moreover, we investigated potential signaling pathways which could lead to ubiquitination in the presence of MA. Based on recent reports that ubiquitination of beta-adrenergic receptors is promoted by beta-arrestin which shuttles proteins from the plasma membrane to the ubiquitin proteasome system we investigated whether beta-arrestin is involved in MA-induced inclusion formation. Our experiments document that (i) beta-arrestin was associated with MA-induced intracellular bodies; (ii) MA induced a rapid and reversible ubiquitination of beta-arrestin; (iii) dopamine antagonists reduced both MA-induced beta-arrestin ubiquitination and intracellular whorls formation; (iv) the number of MA-induced intracellular bodies was reduced in cells transfected with the beta-arrestin dominant negative mutant, betaarrV53D and was increased by the persistently ubiquitinated beta-arrestin-ubiquitin fusion protein. In conclusion, the present study demonstrates the involvement of beta-arrestin in MA-induced intracellular bodies and the participation of dopamine receptors in this process.