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PhotoImmuno-NanoTherapy (PINT)

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PhotoImmuno-NanoTherapy (PINT) Mark Kester G. Thomas Passananti Professor of Pharmacology Director, Penn State Center for NanoMedicine and Materials – PowerPoint PPT presentation

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Title: PhotoImmuno-NanoTherapy (PINT)


1
  • PhotoImmuno-NanoTherapy (PINT)
  • Mark Kester
  • G. Thomas Passananti Professor of Pharmacology
  • Director, Penn State Center for NanoMedicine and
    Materials

2
PhotoImmuno-NanoTherapy (PINT) Mark
Kester Keystone Nano, Inc State College,
PA Chief Medical Officer
3
PhotoImmuno-NanoTherapy (PINT) Mark
Kester Keystone Nano, Inc State College,
PA Chief Medical Officer
Harnessing the Power of Light for Theranostics
4
NanoJacketsCalcium Phosphate NanoParticles
(CPNPs)
5
Nanojackets are Molecular Smart Bombs
Encapsulated components are released as a
function of pH
5
6
TEM of ICG-Doped CPNPs of 16nm mean diameter
7
  • Limitations of free ICG
  • Fluorescence instability in physiological
    environments
  • Dimerization leads to fluorescent quenching
  • Protein binding causes absorption shifts
  • Rapid elimination from the body
  • Plasma t1/2 3-4 minutes
  • Taken up exclusively by hepatic parenchymal cells
  • Subsequently secreted entirely into the bile
  • Benefits of NanoJacket Encapsulation
  • Monomer caging prevents aggregate formation
  • Solvent protection improves photostability
  • Surface passivation affords long-term in vivo
    circulation
  • Tumor localization via the EPR-Effect

8
Colloidal Stability of CPNPs in PBS
9
Absorption and Fluorescence Spectra of Free ICG
and ICG-Doped CPNPs in Aqueous Solution
10
Fluorescence Lifetime of Free ICG and ICG-CPNPs
11
Comparative Spectral Effects of Various Solvents
on the Emission Response of Free ICG and ICG-CPNPs
12
EPR effect
12
13
In Vivo Administration of PEGylated ICG-CPNPs
  • Accumulation within tumors via enhanced
    permeation retention effect
  • Internalization into tumor cells via endosome
    pathway

14
Comparative Fluorescence Signal Intensity as
Function of Depth in Porcine Muscle Tissue
15
Active Targeting
16
Theory of Photodynamic Therapy
  • Requirements photosensitizer, light, and oxygen
  • Photosensitizer is excited at appropriate
    wavelength from ground singlet state to excited
    singlet state
  • Excited photosensitizer undergoes intersystem
    crossing to excited triplet state
  • Energy transfer to molecular oxygen (ground
    triplet state) allows photosensitizer to relax to
    ground singlet state
  • Oxygen is now in excited singlet state
  • Singlet oxygen is highly reactive

17
Current Limitations
  • Low quantum yield of photosensitizers
  • Short lifetimes of photosensitizers
  • Lack of specific targeting
  • Inability to penetrate sufficient light to
    targets
  • Poor understanding of mechanisms linking singlet
    oxygen generation to cancer cell death

18
Photodynamic Therapy Utilizing ICG-Loaded
Calcium Phosphate Nanoparticles Prevents Breast
Cancer Growth In Vivo (Single IV Injection and
Single NIR Treatment)
19
PINT Extends Survival of Leukemic Mice (3 IV
Injections and Splenic NIR Treatment)
20
In Vitro Photodynamic Therapy With ICG-CPNPs
21
Myeloid Derived Suppressor Cells Decrease
5-Days Post-NIR Treatment
22
PINT Reduces MDSCs in 410.4 Tumor-Bearing BALB/cJ
Mice
22
23
PINT Increases Natural Killer Cells in MDA-MB-231
Tumor-Bearing Nude Mice
23
24
PINT Increases Dendritic and Natural Killer Cells
in 410.4 Tumor-Bearing BALB/cJ Mice
24
25
Adoptive Transfer
26
Injection of Culture-(PINT) Treated Cells in
Tumor-Established Nude Mice
26
27
Conclusion
  • Nanotechnology has the potential to deliver the
    promise of light-based pharmaceutics

28
Acknowledgements
  • Brian Barth
  • Tom Stover
  • James Kaiser
  • Todd Fox
  • Onar Unal
  • Yasser Haekal
  • Tony Brown
  • Sean ONeil
  • Kristie Houck
  • Murali Nagarajan
  • Sriram Shamnugavelandyu
  • Lindsey Rylund
  • Tom Loughran
  • Xin Liu
  • James Adair
  • Sarah Rouse
  • Erhan Antinouli
  • Tom Morgan
  • Peter Eklund
  • Peter Butler
  • MK is Founder and CMO for Keystone Nano, Inc
  • NanoJackets have been licensed by Penn State
    Research Foundation to Keystone Nano, Inc., State
    College, PA
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