Christina M. Pica scite author profile

The ubiquitin-proteasome pathway is the central mediator of regulated proteolysis in cells, and defects in this pathway are associated with cancer and neurodegenerative diseases. To assess 26S proteasome function in living animals, we developed a ubiquitin-luciferase reporter for bioluminescence imaging. The reporter was degraded rapidly under steady-state conditions and stabilized in a dose- and time-dependent manner in response to proteasome inhibitors. Using bioluminescence imaging after one dose of the chemo-therapeutic proteasome inhibitor bortezomib (PS-341), proteasome function in tumor xenografts was blocked within 30 min and returned to nearly baseline by 46 h. After a 2-week regimen of bortezomib, however, imaging of target tumors showed significantly enhanced proteasome inhibition that no longer returned to baseline. The ubiquitin-luciferase reporter enables repetitive tissue-specific analysis of 26S proteasome activity in vivo and should facilitate development and validation of proteasome inhibitors in mouse models, as well as investigations of the ubiquitin-proteasome pathway in disease pathogenesis.

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Novel Tat-Peptide Chelates for Direct Transduction of Technetium-99m and Rhenium into Human Cells for Imaging and Radiotherapy

Polyakov

et al. 2000

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Rapid and efficient delivery of radioactive metal complexes to the cell interior would enable novel applications in medical imaging and radiotherapy. Membrane permeant peptide conjugates incorporating HIV-1 Tat transactivation protein sequences (GRKKRRQRRR) and an appropriate peptide-based motif (epsilon-KGC) that provides an N(3)S donor core for chelating technetium and rhenium were synthesized. Oxotechnetium(V) and oxorhenium(V) Tat-peptide complexes were prepared by facile transchelation reactions with permetalates, tin(II) chloride and sodium glucoheptonate. RP-HPLC showed two major [(99m)Tc]Tat-peptide species (4) that differed in retention time by approximately 2 min corresponding to two [Re]Tat-peptide species (7) shown to have identical mass, consistent with formation of two isomers, likely the oxo-metal diastereomers. [(99m)Tc]Tat-peptides were stable to transchelation in vitro. In human Jurkat cells, [(99m)Tc]Tat-peptide 4 showed concentrative cell accumulation (30-fold greater than extracellular concentration) and rapid uptake kinetics (t(1/2) < 2 min) in a diastereomeric-comparable manner. Paradoxically, uptake was enhanced in 4 degrees C buffer compared to 37 degrees C, while depolarization of membrane potential as well as inhibition of microtubule function and vesicular trafficking showed no inhibitory effect. Cells preloaded with 4 showed rapid washout kinetics into peptide-free solution. Modification of [(99m)Tc]Tat-peptide by deletion of the N-terminus Gly with or without biotinylation minimally impacted net cell uptake. In addition, the C-terminus thiol of the prototypic Tat-peptide was labeled with fluorescein-5-maleimide to yield conjugate 8. Fluorescence microscopy directly localized conjugate 8 to the cytosol and nuclei (possibly nucleolus) of human Jurkat, KB 3-1 and KB 8-5 tumor cells. Preliminary imaging studies in mice following intravenous administration of prototypic [(99m)Tc]Tat-peptide 4 showed an initial whole body distribution and rapid clearance by both renal and hepatobiliary excretion. Analysis of murine blood in vivo and human serum ex vivo revealed >95% intact complex, while murine urine in vivo showed 65% parent complex. Thus, these novel Tat-peptide chelate conjugates, capable of forming stable [Tc/Re(V)]complexes, rapidly translocate across cell membranes into intracellular compartments and can be readily derivatized for further targeted applications in molecular imaging and radiotherapy.

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Noninvasive Bioluminescence Imaging of Herpes Simplex Virus Type 1 Infection and Therapy in Living Mice

Luker

Bardill

Prior

et al. 2002

J Virol

167

141

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Mouse models of herpes simplex virus type 1 (HSV-1) infection provide significant insights into viral and host genes that regulate disease pathogenesis, but conventional methods to determine the full extent of viral spread and replication typically require the sacrifice of infected animals. To develop a noninvasive method for detecting HSV-1 in living mice, we used a strain KOS HSV-1 recombinant that expresses firefly (Photinus pyralis) and Renilla (Renilla reniformis) luciferase reporter proteins and monitored infection with a cooled charge-coupled device camera. Viral infection in mouse footpads, peritoneal cavity, brain, and eyes could be detected by bioluminescence imaging of firefly luciferase. The activity of Renilla luciferase could be imaged after direct administration of substrate to infected eyes but not following the systemic delivery of substrate. The magnitude of bioluminescence from firefly luciferase measured in vivo correlated directly with input titers of recombinant virus used for infection. Treatment of infected mice with valacyclovir, a potent inhibitor of HSV-1 replication, produced dose-dependent decreases in firefly luciferase activity that correlated with changes in viral titers. These data demonstrate that bioluminescence imaging can be used for noninvasive, real-time monitoring of HSV-1 infection and therapy in living mice.

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Bioluminescence Imaging Reveals Systemic Dissemination of Herpes Simplex Virus Type 1 in the Absence of Interferon Receptors

Luker

Prior

Song

et al. 2003

J Virol

110

112

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Herpes simplex virus type 1 (HSV-1) can produce disseminated, systemic infection in neonates and patients with AIDS or other immunocompromising diseases, resulting in significant morbidity and mortality in spite of antiviral therapy. Components of host immunity that normally limit HSV-1 to localized epithelial and neuronal infection remain incompletely defined. We used in vivo bioluminescence imaging to determine effects of type I and II interferons (IFNs) on replication and tropism of HSV-1 infection in mice with genetic deficiency of type I, type II, or both type I and II IFN receptors. Following footpad or ocular infection of mice lacking type I IFN receptors, HSV-1 spread to parenchymal organs, including lung, liver, spleen, and regional lymph nodes, but mice survived. Deletion of type I and II IFN receptors produced quantitatively greatest and most widespread dissemination of virus to visceral organs and the nervous system, and these mice invariably died after ocular or footpad infection. Type II receptor knockout and wild-type mice had comparable viral replication and localization, with no systemic spread of HSV-1 or lethality. Therefore, while isolated deficiency of type II IFN receptors did not affect pathogenesis, loss of these receptors in combination with genetic deletion of type I receptors had a profound effect on susceptibility to HSV-1. These data demonstrate different effects of type I and II IFNs in limiting systemic dissemination of HSV-1 and further validate the use of bioluminescence imaging for studies of viral pathogenesis.

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Effects of MDR1 and MDR3 P-glycoproteins, MRP1, and BCRP/MXR/ABCP on the transport of 99mTc-tetrofosmin

Chen

Luker

Dahlheimer

et al. 2000

Biochemical Pharmacology

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Characterization of Novel Histidine-Tagged Tat-Peptide Complexes Dual-Labeled with ^99mTc-Tricarbonyl and Fluorescein for Scintigraphy and Fluorescence Microscopy

et al. 2002

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To enable concurrent whole body scintigraphy and direct imaging of subcellular localization of permeation peptides, dual-labeled Tat-peptides useful for both radiometric analysis and fluorescence microscopy are desired for molecular imaging applications. Thus, novel dual-labeled D-Tat-peptides comprising Tat-basic domain (hgrkkrrqrrrgc), C-terminus conjugated with fluorescein-5-maleimide (FM) and N-terminus chelated with [(99m)Tc(CO)(3)] via histidine coordination, were synthesized and characterized. In human Jurkat cells, radiotracer uptake and washout studies revealed concentration-dependent accumulation of the dual-labeled Tat-peptide within cells. Subcellular localization of Tat-peptide was confirmed by fluorescence microscopy using an analogous [Re(CO)(3)] dual-labeled Tat-peptide. As seen with C-terminus single-labeled Tat-peptides, localization to the nucleoli was observed with the dual-labeled Tat-peptide, suggesting that the mechanism of Tat-peptide uptake and localization was not dependent on free peptide termini at either end. In Balb/c mice, biodistribution studies performed with the dual-labeled Tat-peptide showed fluorescence intensity by microscopic analysis that visually confirmed and correlated directly with scintigraphic and radiometric data. Of note, following intravenous administration, little brain penetration of these permeation sequences was observed in vivo. His[(99m)Tc(CO)(3)]-, DTPA[(99m)Tc(CO)(3)]-, and epsilon-lys-gly-cys[(99m)Tc(O)]-labeled Tat-peptides showed significant pharmacokinetic differences in liver and kidney depending on labeling strategy, indicating that Tat-peptide biodistribution can be impacted by the chelation moiety coordinated with (99m)Tc. Thus, we have shown that dual-labeled (99m)Tc-tricarbonyl Tat-peptide-FM conjugates can be conveniently synthesized and enable direct comparison of quantitative radiometric and qualitative fluorescence data both in vitro as well as in vivo.

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Noninvasive imaging of protein–protein interactions in living animals

Luker

Sharma

Pica

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

154

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Novel gallium(III) complexes transported by MDR1 P-glycoprotein: potential PET imaging agents for probing P-glycoprotein-mediated transport activity in vivo

Sharma

Beatty

Wey

et al. 2000

Chemistry & Biology

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Christina M. Pica

Imaging 26S proteasome activity and inhibition in living mice

Novel Tat-Peptide Chelates for Direct Transduction of Technetium-99m and Rhenium into Human Cells for Imaging and Radiotherapy

Noninvasive Bioluminescence Imaging of Herpes Simplex Virus Type 1 Infection and Therapy in Living Mice

Bioluminescence Imaging Reveals Systemic Dissemination of Herpes Simplex Virus Type 1 in the Absence of Interferon Receptors

Effects of MDR1 and MDR3 P-glycoproteins, MRP1, and BCRP/MXR/ABCP on the transport of 99mTc-tetrofosmin

Characterization of Novel Histidine-Tagged Tat-Peptide Complexes Dual-Labeled with ^99mTc-Tricarbonyl and Fluorescein for Scintigraphy and Fluorescence Microscopy

Noninvasive imaging of protein–protein interactions in living animals

Novel gallium(III) complexes transported by MDR1 P-glycoprotein: potential PET imaging agents for probing P-glycoprotein-mediated transport activity in vivo

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Christina M. Pica

Imaging 26S proteasome activity and inhibition in living mice

Novel Tat-Peptide Chelates for Direct Transduction of Technetium-99m and Rhenium into Human Cells for Imaging and Radiotherapy

Noninvasive Bioluminescence Imaging of Herpes Simplex Virus Type 1 Infection and Therapy in Living Mice

Bioluminescence Imaging Reveals Systemic Dissemination of Herpes Simplex Virus Type 1 in the Absence of Interferon Receptors

Effects of MDR1 and MDR3 P-glycoproteins, MRP1, and BCRP/MXR/ABCP on the transport of 99mTc-tetrofosmin

Characterization of Novel Histidine-Tagged Tat-Peptide Complexes Dual-Labeled with 99mTc-Tricarbonyl and Fluorescein for Scintigraphy and Fluorescence Microscopy

Noninvasive imaging of protein–protein interactions in living animals

Novel gallium(III) complexes transported by MDR1 P-glycoprotein: potential PET imaging agents for probing P-glycoprotein-mediated transport activity in vivo

Contact Info

Product

Resources

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Characterization of Novel Histidine-Tagged Tat-Peptide Complexes Dual-Labeled with ^99mTc-Tricarbonyl and Fluorescein for Scintigraphy and Fluorescence Microscopy