Charge affects the oral toxicity of poly(amidoamine) dendrimers

Abstract

Poly(amidoamine) (PAMAM) dendrimers have been evaluated for the influence of surface functionality and size on the epithelial barrier of the gut with the goal of identifying safe carriers that can be used for oral drug delivery. Limited studies are conducted to date, however, to assess the toxicity of PAMAM dendrimers in vivo when administered by the oral route. The goal of this research was to conduct an oral acute toxicity study of PAMAM dendrimers as a function of size and charge in immune competent CD-1 mice. Maximum tolerated doses (MTD) of PAMAM dendrimers as a function of size and surface functionality were established and clinical signs of toxicity monitored. Results demonstrate that positively charged dendrimers caused more toxicity, whereas their anionic counterparts were tolerated at ten times higher doses. Severe signs of toxicity observed for large (G7) cationic amine- or hydroxyl-terminated dendrimers include hemobilia and spleenomegaly. The MTD for these dendrimers ranged from 30mg/kg to 200mg/kg. Anionic G6.5 or smaller molecular weight carboxyl-, amine-, or hydroxyl-terminated dendrimers (G3.5-COOH, G4-NH2, G4-OH) on the other hand were tolerated at doses of up to 500mg/kg (300mg/kg in some cases) with minimal or no signs of toxicity. Establishing the MTD of orally delivered PAMAM dendrimers and the influence of surface functionality and size on toxicity aids in the rational design of PAMAM-drug conjugates for oral drug delivery applications.