While most nanoproteomics approaches for the analysis of low-input samples are based on bottom-up LC-MS workflows, top-down approaches enabling proteoform characterization are still underrepresented. Using mammalian cell proteomes, we here established a facile one-pot sample preparation protocol based on protein aggregation on magnetic beads and intact proteoform elution using 40% v/v formic acid. Performed on a digital microfluidics device, the workflow enabled sensitive analysis of single Caenorhabditis elegans nematodes, increasing the number of proteoform identifications compared to in-tube sample preparation by 46%. Label-free quantification of single nematodes grown under different conditions allowed to identify changes in abundance of proteoforms not distinguishable by bottom-up proteomics. The workflow presented here will help to elucidate cellular changes on the proteoform level in other samples of limited availability.