In vivo targeting of cell death using a synthetic fluorescent molecular probe

Bryan A. Smith; Shuzhang Xiao; William Wolter; James Wheeler; Mark A. Suckow; Bradley D. Smith

doi:10.1007/s10495-011-0601-5

In vivo targeting of cell death using a synthetic fluorescent molecular probe

Bryan A. Smith
, Shuzhang Xiao
, William Wolter
, James Wheeler
, Mark A. Suckow
, Bradley D. Smith

Producción científica: Article › revisión exhaustiva

49 Citas (Scopus)

Resumen

A synthetic, near-infrared, fluorescent probe, named PSS-794 was assessed for its ability to detect cell death in two animal models. The molecular probe contains a zinc(II)-dipicolylamine (Zn₂₊-DPA) affinity ligand that selectively targets exposed phosphatidylserine on the surface of dead and dying cells. The first animal model used rats that were treated with dexamethasone to induce thymic atrophy. Ex vivo fluorescence imaging and histological analysis of excised organs showed thymus uptake of PSS-794 was four times higher than a control fluorophore that lacked the Zn₂₊-DPA affinity ligand. In addition, the presence of PSS-794 produced a delayed and higher build up of dead and dying cells in the rat thymus. The second animal model employed focal beam radiation to induce cell death in tumor-bearing rats. Whole-body and ex vivo imaging showed that the amount of PSS-794 in a radiationtreated tumor was almost twice that in a non-treated tumor. The results indicate that PSS-794 may be useful for preclinical optical detection of tumor cell death due to therapy.

Idioma original	English
Páginas (desde-hasta)	722-731
Número de páginas	10
Publicación	Apoptosis
Volumen	16
N.º	7
DOI	https://doi.org/10.1007/s10495-011-0601-5
Estado	Published - jul 2011

Nota bibliográfica

Funding Information:
Acknowledgments We thank Sarah Chapman for preparing the histology sections, and Chelsea Poschar and Samantha Korda for assistance in operating the accelerator. This work was supported by the Walther Cancer Foundation, the Notre Dame Integrated Imaging Facility, and NIH Grants R01GM059078 (B.D.S.), T32GM075762 (B.A.S.).

Financiación

Acknowledgments We thank Sarah Chapman for preparing the histology sections, and Chelsea Poschar and Samantha Korda for assistance in operating the accelerator. This work was supported by the Walther Cancer Foundation, the Notre Dame Integrated Imaging Facility, and NIH Grants R01GM059078 (B.D.S.), T32GM075762 (B.A.S.).

Financiadores	Número del financiador
Notre Dame Integrated Imaging Facility
National Institutes of Health (NIH)	R01GM059078
National Institute of General Medical Sciences	T32GM075762
Walther Cancer Foundation

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

Good health and well being

ASJC Scopus subject areas

Pharmacology
Pharmaceutical Science
Clinical Biochemistry
Cell Biology
Biochemistry, medical
Cancer Research

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10.1007/s10495-011-0601-5

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title = "In vivo targeting of cell death using a synthetic fluorescent molecular probe",

abstract = "A synthetic, near-infrared, fluorescent probe, named PSS-794 was assessed for its ability to detect cell death in two animal models. The molecular probe contains a zinc(II)-dipicolylamine (Zn2+-DPA) affinity ligand that selectively targets exposed phosphatidylserine on the surface of dead and dying cells. The first animal model used rats that were treated with dexamethasone to induce thymic atrophy. Ex vivo fluorescence imaging and histological analysis of excised organs showed thymus uptake of PSS-794 was four times higher than a control fluorophore that lacked the Zn2+-DPA affinity ligand. In addition, the presence of PSS-794 produced a delayed and higher build up of dead and dying cells in the rat thymus. The second animal model employed focal beam radiation to induce cell death in tumor-bearing rats. Whole-body and ex vivo imaging showed that the amount of PSS-794 in a radiationtreated tumor was almost twice that in a non-treated tumor. The results indicate that PSS-794 may be useful for preclinical optical detection of tumor cell death due to therapy.",

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author = "Smith, \{Bryan A.\} and Shuzhang Xiao and William Wolter and James Wheeler and Suckow, \{Mark A.\} and Smith, \{Bradley D.\}",

note = "Funding Information: Acknowledgments We thank Sarah Chapman for preparing the histology sections, and Chelsea Poschar and Samantha Korda for assistance in operating the accelerator. This work was supported by the Walther Cancer Foundation, the Notre Dame Integrated Imaging Facility, and NIH Grants R01GM059078 (B.D.S.), T32GM075762 (B.A.S.).",

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AU - Wheeler, James

AU - Suckow, Mark A.

AU - Smith, Bradley D.

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N2 - A synthetic, near-infrared, fluorescent probe, named PSS-794 was assessed for its ability to detect cell death in two animal models. The molecular probe contains a zinc(II)-dipicolylamine (Zn2+-DPA) affinity ligand that selectively targets exposed phosphatidylserine on the surface of dead and dying cells. The first animal model used rats that were treated with dexamethasone to induce thymic atrophy. Ex vivo fluorescence imaging and histological analysis of excised organs showed thymus uptake of PSS-794 was four times higher than a control fluorophore that lacked the Zn2+-DPA affinity ligand. In addition, the presence of PSS-794 produced a delayed and higher build up of dead and dying cells in the rat thymus. The second animal model employed focal beam radiation to induce cell death in tumor-bearing rats. Whole-body and ex vivo imaging showed that the amount of PSS-794 in a radiationtreated tumor was almost twice that in a non-treated tumor. The results indicate that PSS-794 may be useful for preclinical optical detection of tumor cell death due to therapy.

AB - A synthetic, near-infrared, fluorescent probe, named PSS-794 was assessed for its ability to detect cell death in two animal models. The molecular probe contains a zinc(II)-dipicolylamine (Zn2+-DPA) affinity ligand that selectively targets exposed phosphatidylserine on the surface of dead and dying cells. The first animal model used rats that were treated with dexamethasone to induce thymic atrophy. Ex vivo fluorescence imaging and histological analysis of excised organs showed thymus uptake of PSS-794 was four times higher than a control fluorophore that lacked the Zn2+-DPA affinity ligand. In addition, the presence of PSS-794 produced a delayed and higher build up of dead and dying cells in the rat thymus. The second animal model employed focal beam radiation to induce cell death in tumor-bearing rats. Whole-body and ex vivo imaging showed that the amount of PSS-794 in a radiationtreated tumor was almost twice that in a non-treated tumor. The results indicate that PSS-794 may be useful for preclinical optical detection of tumor cell death due to therapy.

KW - Cell death

KW - Molecular probe

KW - Optical imaging

KW - Tumor therapy

KW - Zinc(II)-dipicolylamine

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In vivo targeting of cell death using a synthetic fluorescent molecular probe

Resumen

Nota bibliográfica

Financiación

ODS de las Naciones Unidas

ASJC Scopus subject areas

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