(628d) Nanoparticle Carrying T Cells for Targeted Drug Delivery
AIChE Annual Meeting
2019
2019 AIChE Annual Meeting
Nanoscale Science and Engineering Forum
Bionanotechnology for Gene and Drug Delivery I
Thursday, November 14, 2019 - 9:16am to 9:34am
Abedin, Muhammad (S&T-Student) Normal Abedin, Muhammad (S&T-Student) 2 38 2019-04-12T03:24:00Z 2019-04-12T03:24:00Z 1 506 2885 Missouri University of Science and Technology 24 6 3385 15.00
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text-align:center;line-height:19.2pt;background:white">Bionanotechnology (22B 02)
text-align:center;line-height:19.2pt;background:white">
normal">
" times new roman>Nanoparticle Carrying T
Cells for Targeted Drug Delivery text-align:center;line-height:19.2pt;background:white">Muhammad Raisul Abedina, Yongjian Liub, Sutapa Baruaa,1 text-align:center;line-height:19.2pt;background:white">a Department of Chemical and Biochemical
Engineering, Missouri University of Science and Technology, text-align:center;line-height:19.2pt;background:white">Rolla, MO-65409 text-align:center;line-height:19.2pt;background:white"> b Mallinckrodt Institute of Radiology, Washington
University School of Medicine, Washington University in St. Louis, St. Louis, MO-63110 text-align:center;line-height:19.2pt;background:white">1 10.0pt;font-family:" times new roman color:>Corresponding Author: Email: baruas@mst.edu text-align:center;line-height:19.2pt;background:white">
of this article is to explore a combinatorial approach in exploiting the
specificity of antibody conjugated drug nanorods with the direction of
polyclonal T cells for breast cancer therapy. We hypothesize that the
attachment of Trastuzumab-conjugated paclitaxel drug nanorods to natural T
cells will enhance their circulation time and substantially alter their
anti-tumoral efficacy. mso-add-space:auto;text-align:justify;line-height:normal"> justify"> line-height:107%;font-family:" times new roman>Introduction auto;text-align:justify;line-height:normal"> mso-bidi-font-size:11.0pt;font-family:" times new roman>Major
limitations of the current nano drug delivery vehicles are inefficient
transport of drug to the tumor site, uncontrolled nanoparticle-biomolecule
interaction at the extra cellular matrix, and intracellular lysosomal or
phagolysosomal degradation of the nanoparticle.
Moreover, the majority of the designed
nano drug vehicles accumulate in the vicinity of the off target cells or
tissues resulting in off target toxicity or might be eliminated by the residing
macrophages in the organs like liver and spleens. To address this
issue, this project aims to take a combinatorial approach of immunotherapies,
and targeted drug NPs for efficient
delivery of therapeutic payloads to the breast cancer site, and expand
therapeutic benefits. Here, we propose an alternative strategy that makes use
of the ability of natural immune T cells to circulate and target breast cancer
cells for the effective delivery of synthetic drug NPs. Specifically, it is
proposed to anchor Trastuzumab conjugated paclitaxel drug nanorods to the
surface of patient derived T cells as a means of avoiding the reticuloendothelial
system (RES) clearance. We hypothesize that the attachment of
Trastuzumab-conjugated paclitaxel drug nanorods to natural T cells will enhance
their circulation time and substantially alter their anti-tumoral efficacy. justify"> justify"> line-height:107%;font-family:" times new roman>Materials and Methods justify"> 107%;font-family:" times new roman>Paclitaxel nanorods (503.42±210
nm) 107%;font-family:" times new roman>were prepared using the solvent diffusion method. Trastuzumab (TTZ) (Genentech)
was conjugated with the functionalized paclitaxel drug nanorods. The antibody
drug conjugate (PTXNR-TTZ) was further conjugated with the DOTA chelator for
radiolabeling with positron emitting 64Cu isotope. Cytotoxic T lymphocytes
were bound with PTXNR-TTZ in serum free un-supplemented RPMI 1640 medium. normal"> justify"> line-height:107%;font-family:" times new roman> justify"> line-height:107%;font-family:" times new roman>Results justify"> 107%;font-family:" times new roman>The SEM images confirm
the cylindrical or rod-like the shape of the paclitaxel drug particles in the
nano dimension of (503.42±210) 18.0pt;line-height:107%;font-family:" times new roman text1>× ( mso-bidi-font-size:11.0pt;line-height:107%;font-family:" times new roman mso-no-proof:yes>96.87±33)nm. The nanoparticle synthesis efficiency was 65%. Monoclonal
antibody trastuzumab was chemically conjugated with the paclitaxel drug nanorods
with the conjugation efficiency of 53%.
The drug NRs along with the antibody conjugated PTXNR-TTZ showed enhanced
stability in the biological media. PTXNR-TTZ was bound on the surface of the
cytotoxic T lymphocytes without inducing apoptosis to the T cells. T- cell
surface bound antibody conjugated drug nanorods induced apoptosis in HER 2+
breast cancer cells resulting in significant tumor clearence.
Cells for Targeted Drug Delivery text-align:center;line-height:19.2pt;background:white">Muhammad Raisul Abedina, Yongjian Liub, Sutapa Baruaa,1 text-align:center;line-height:19.2pt;background:white">a Department of Chemical and Biochemical
Engineering, Missouri University of Science and Technology, text-align:center;line-height:19.2pt;background:white">Rolla, MO-65409 text-align:center;line-height:19.2pt;background:white"> b Mallinckrodt Institute of Radiology, Washington
University School of Medicine, Washington University in St. Louis, St. Louis, MO-63110 text-align:center;line-height:19.2pt;background:white">1 10.0pt;font-family:" times new roman color:>Corresponding Author: Email: baruas@mst.edu text-align:center;line-height:19.2pt;background:white">
normal">Abstract
normal">
justify"> line-height:107%;font-family:" times new roman>Objective mso-add-space:auto;text-align:justify;line-height:normal">The overall goalof this article is to explore a combinatorial approach in exploiting the
specificity of antibody conjugated drug nanorods with the direction of
polyclonal T cells for breast cancer therapy. We hypothesize that the
attachment of Trastuzumab-conjugated paclitaxel drug nanorods to natural T
cells will enhance their circulation time and substantially alter their
anti-tumoral efficacy. mso-add-space:auto;text-align:justify;line-height:normal"> justify"> line-height:107%;font-family:" times new roman>Introduction auto;text-align:justify;line-height:normal"> mso-bidi-font-size:11.0pt;font-family:" times new roman>Major
limitations of the current nano drug delivery vehicles are inefficient
transport of drug to the tumor site, uncontrolled nanoparticle-biomolecule
interaction at the extra cellular matrix, and intracellular lysosomal or
phagolysosomal degradation of the nanoparticle.
Moreover, the majority of the designed
nano drug vehicles accumulate in the vicinity of the off target cells or
tissues resulting in off target toxicity or might be eliminated by the residing
macrophages in the organs like liver and spleens. To address this
issue, this project aims to take a combinatorial approach of immunotherapies,
and targeted drug NPs for efficient
delivery of therapeutic payloads to the breast cancer site, and expand
therapeutic benefits. Here, we propose an alternative strategy that makes use
of the ability of natural immune T cells to circulate and target breast cancer
cells for the effective delivery of synthetic drug NPs. Specifically, it is
proposed to anchor Trastuzumab conjugated paclitaxel drug nanorods to the
surface of patient derived T cells as a means of avoiding the reticuloendothelial
system (RES) clearance. We hypothesize that the attachment of
Trastuzumab-conjugated paclitaxel drug nanorods to natural T cells will enhance
their circulation time and substantially alter their anti-tumoral efficacy. justify"> justify"> line-height:107%;font-family:" times new roman>Materials and Methods justify"> 107%;font-family:" times new roman>Paclitaxel nanorods (503.42±210
nm) 107%;font-family:" times new roman>were prepared using the solvent diffusion method. Trastuzumab (TTZ) (Genentech)
was conjugated with the functionalized paclitaxel drug nanorods. The antibody
drug conjugate (PTXNR-TTZ) was further conjugated with the DOTA chelator for
radiolabeling with positron emitting 64Cu isotope. Cytotoxic T lymphocytes
were bound with PTXNR-TTZ in serum free un-supplemented RPMI 1640 medium. normal"> justify"> line-height:107%;font-family:" times new roman> justify"> line-height:107%;font-family:" times new roman>Results justify"> 107%;font-family:" times new roman>The SEM images confirm
the cylindrical or rod-like the shape of the paclitaxel drug particles in the
nano dimension of (503.42±210) 18.0pt;line-height:107%;font-family:" times new roman text1>× ( mso-bidi-font-size:11.0pt;line-height:107%;font-family:" times new roman mso-no-proof:yes>96.87±33)nm. The nanoparticle synthesis efficiency was 65%. Monoclonal
antibody trastuzumab was chemically conjugated with the paclitaxel drug nanorods
with the conjugation efficiency of 53%.
The drug NRs along with the antibody conjugated PTXNR-TTZ showed enhanced
stability in the biological media. PTXNR-TTZ was bound on the surface of the
cytotoxic T lymphocytes without inducing apoptosis to the T cells. T- cell
surface bound antibody conjugated drug nanorods induced apoptosis in HER 2+
breast cancer cells resulting in significant tumor clearence.