AIM: This study tests the hypothesis that DNA intercalation and electrophilic interactions can be exploited to noncovalently assemble doxorubicin in a viral protein nanoparticle designed to target and penetrate tumor cells through ligand-directed delivery. We further test whether this new paradigm of doxorubicin targeting shows therapeutic efficacy and safety in vitro and in vivo. MATERIALS & METHODS: We tested serum stability, tumor targeting and therapeutic efficacy in vitro and in vivo using biochemical, microscopy and cytotoxicity assays. RESULTS: Self-assembly formed approximately 10-nm diameter serum-stable nanoparticles that can target and ablate HER2+ tumors at >10× lower dose compared with untargeted doxorubicin, while sparing the heart after intravenous delivery. The targeted nanoparticle tested here allows doxorubicin potency to remain unaltered during assembly, transport and release into target cells,while avoiding peripheral tissue damage and enabling lower, and thus safer, drug dose for tumor killing. CONCLUSION: This nanoparticle may be an improved alternative to chemical conjugates and signal-blocking antibodies for tumor-targeted treatment.
AIM: This study tests the hypothesis that DNA intercalation and electrophilic interactions can be exploited to noncovalently assemble doxorubicin in a viral protein nanoparticle designed to target and penetrate tumor cells through ligand-directed delivery. We further test whether this new paradigm of doxorubicin targeting shows therapeutic efficacy and safety in vitro and in vivo. MATERIALS & METHODS: We tested serum stability, tumor targeting and therapeutic efficacy in vitro and in vivo using biochemical, microscopy and cytotoxicity assays. RESULTS: Self-assembly formed approximately 10-nm diameter serum-stable nanoparticles that can target and ablate HER2+ tumors at >10× lower dose compared with untargeted doxorubicin, while sparing the heart after intravenous delivery. The targeted nanoparticle tested here allows doxorubicin potency to remain unaltered during assembly, transport and release into target cells,while avoiding peripheral tissue damage and enabling lower, and thus safer, drug dose for tumor killing. CONCLUSION: This nanoparticle may be an improved alternative to chemical conjugates and signal-blocking antibodies for tumor-targeted treatment.
Authors: Charles L Vogel; Melody A Cobleigh; Debu Tripathy; John C Gutheil; Lyndsay N Harris; Louis Fehrenbacher; Dennis J Slamon; Maureen Murphy; William F Novotny; Michael Burchmore; Steven Shak; Stanford J Stewart; Michael Press Journal: J Clin Oncol Date: 2002-02-01 Impact factor: 44.544
Authors: J Baselga; D Tripathy; J Mendelsohn; S Baughman; C C Benz; L Dantis; N T Sklarin; A D Seidman; C A Hudis; J Moore; P P Rosen; T Twaddell; I C Henderson; L Norton Journal: J Clin Oncol Date: 1996-03 Impact factor: 44.544
Authors: Jolanta F Kukowska-Latallo; Kimberly A Candido; Zhengyi Cao; Shraddha S Nigavekar; Istvan J Majoros; Thommey P Thomas; Lajos P Balogh; Mohamed K Khan; James R Baker Journal: Cancer Res Date: 2005-06-15 Impact factor: 12.701
Authors: G D Lewis; J A Lofgren; A E McMurtrey; A Nuijens; B M Fendly; K D Bauer; M X Sliwkowski Journal: Cancer Res Date: 1996-03-15 Impact factor: 12.701
Authors: Jae Youn Hwang; David J Lubow; David Chu; Jessica Sims; Felix Alonso-Valenteen; Harry B Gray; Zeev Gross; Daniel L Farkas; Lali K Medina-Kauwe Journal: J Control Release Date: 2012-10-04 Impact factor: 9.776
Authors: Jessica D Sims; Jae Youn Hwang; Shawn Wagner; Felix Alonso-Valenteen; Chris Hanson; Jan Michael Taguiam; Richard Polo; Ira Harutyunyan; Gevorg Karapetyan; Karn Sorasaenee; Ahmed Ibrahim; Eduardo Marban; Rex Moats; Harry B Gray; Zeev Gross; Lali K Medina-Kauwe Journal: J Control Release Date: 2015-08-31 Impact factor: 9.776
Authors: Jae Youn Hwang; Jinhyoung Park; Bong Jin Kang; David J Lubow; David Chu; Daniel L Farkas; K Kirk Shung; Lali K Medina-Kauwe Journal: PLoS One Date: 2012-04-03 Impact factor: 3.240
Authors: Iris R Bell; Barbara Sarter; Mary Koithan; Prasanta Banerji; Pratip Banerji; Shamini Jain; John Ives Journal: Glob Adv Health Med Date: 2014-01