Polyelectrolyte complexes (PECs) are self-assembling nano-sized constructs that offer several advantages over traditional nanoparticle carriers including controllable size, biodegradability, biocompatibility, and lack of toxicity, making them particularly appealing as tools for drug delivery. Here, we discuss potential application of PECs for drug delivery to the slightly acidic tumor microenvironment, a pH in the range of 6.5–7.0. Poly(l-glutamic acid) (E_n), poly(l-lysine) (K_n), and a copolymer composed of histidine-glutamic acid repeats ((HE)_n) were studied for their ability to form PECs, which were analyzed for size, polydispersity, and pH sensitivity. PECs showed concentration dependent size variation at residue lengths of E₅₁/K₅₅ and E₁₃₅/K₁₂₇, however, no complexes were observed when E₂₂ or K₂₁ were used, even in combination with the longer chains. (HE)₂₀/K₅₅ PECs could encapsulate daunomycin, were stable from pH 7.4–6.5, and dissociated completely between pH 6.5–6.0. Conversely, the E_51-dauno/K₅₅ PEC dissociated between pH 4.0 and 3.0. These values for pH-dependent particle dissociation are consistent with the pK_a’s of the ionizable groups in each formulation and indicate that the specific pH-sensitivity of (HE)_20-dauno/K₅₅ PECs is mediated by incorporation of histidine. This response within a pH range that is physiologically relevant to the acidic tumors suggests a potential application of these PECs in pH-dependent drug delivery.