Linker modification reduced the renal uptake of technetium-99m-labeled Arg-Ala-Asp-conjugated alpha-melanocyte stimulating hormone peptide

The purpose of this study was to examine the biodistribution of ^99mTc-RAD-Arg-(Arg¹¹)CCMSH in B16/F1 melanoma-bearing C57 mice to determine whether the replacement of the Lys linker with an Arg linker could decrease the renal uptake of ^99mTc-RAD-Arg-(Arg¹¹)CCMSH. ^99mTc-RAD-Arg-(Arg¹¹)CCMSH exhibited rapid and high tumor uptake (17.98 ± 4.96% ID/g at 2 h post-injection) in B16/F1 melanoma-bearing C57 mice. As compared to ^99mTc-RAD-Lys-(Arg¹¹)CCMSH, the replacement of the Lys linker with an Arg linker dramatically decreased the renal uptake of ^99mTc-RAD-Arg-(Arg¹¹)CCMSH by 68%, 62%, 73% and 64% at 0.5, 2, 4 and 24 h post-injection, respectively. Flank B16/F1 melanoma lesions were clearly imaged at 2 h post-injection using ^99mTc-RAD-Arg-(Arg¹¹)CCMSH as an imaging probe.     

Replacement of the Lys linker with an Arg linker resulting in improved melanoma uptake and reduced renal uptake of Tc-99m-labeled Arg-Gly-Asp-conjugated alpha-melanocyte stimulating hormone hybrid peptide

The purpose of this study was to reduce the non-specific renal uptake of Arg-Gly-Asp (RGD)-conjugated alpha-melanocyte stimulating hormone (α-MSH) hybrid peptide through structural modification or l-lysine co-injection. The RGD motif {cyclic(Arg-Gly-Asp-DTyr-Asp)} was coupled to [Cys^3,4,10, d-Phe⁷, Arg¹¹] α-MSH_3-13 {(Arg¹¹)CCMSH} through the Arg linker (substituting the Lys linker) to generate a novel RGD-Arg-(Arg¹¹)CCMSH hybrid peptide. The melanoma targeting and pharmacokinetic properties of ^99mTc-RGD-Arg-(Arg¹¹)CCMSH were determined in B16/F1 melanoma-bearing C57 mice. The effect of l-lysine co-injection on the renal uptake was determined through the co-injection of l-lysine with ^99mTc-RGD-Arg-(Arg¹¹)CCMSH or ^99mTc-RGD-Lys-(Arg¹¹)CCMSH. Replacement of the Lys linker with an Arg linker exhibited a profound effect in reducing the non-specific renal uptake of ^99mTc-RGD-Arg-(Arg¹¹)CCMSH, as well as increasing the tumor uptake of ^99mTc-RGD-Arg-(Arg¹¹)CCMSH compared to ^99mTc-RGD-Lys-(Arg¹¹)CCMSH. ^99mTc-RGD-Arg-(Arg¹¹)CCMSH exhibited high tumor uptake (21.41 ± 3.74% ID/g at 2 h post-injection) and prolonged tumor retention (6.81 ± 3.71% ID/g at 24 h post-injection) in B16/F1 melanoma-bearing mice. The renal uptake values of ^99mTc-RGD-Arg-(Arg¹¹)CCMSH were 40.14–64.08% of those of ^99mTc-RGD-Lys-(Arg¹¹)CCMSH (p <0.05) at 0.5, 2, 4 and 24 h post-injection. Co-injection of l-lysine was effective in decreasing the renal uptakes of ^99mTc-RGD-Arg-(Arg¹¹)CCMSH by 27.7% and ^99mTc-RGD-Lys-(Arg¹¹)CCMSH by 52.1% at 2 h post-injection. Substitution of the Lys linker with an Arg linker dramatically improved the melanoma uptake and reduced the renal uptake of ^99mTc-RGD-Arg-(Arg¹¹)CCMSH, warranting the further evaluation of ¹⁸⁸Re-labeled RGD-Arg-(Arg¹¹)CCMSH as a novel MC1 receptor-targeting therapeutic peptide for melanoma treatment in the future.     

Tc-99m-labeled RGD-conjugated alpha-melanocyte stimulating hormone hybrid peptides with reduced renal uptake

The purpose of this study was to examine whether the replacement of the positively-charged Lys or Arg linker with a neutral linker could reduce the renal uptake of Arg-Gly-Asp (RGD)-conjugated alpha-melanocyte stimulating hormone (α-MSH) hybrid peptide. The RGD motif {cyclic(Arg-Gly-Asp-DTyr-Asp)} was coupled to [Cys^3,4,10, D-Phe⁷, Arg¹¹]α-MSH_3-13 {(Arg¹¹)CCMSH} through the neutral βAla or Ahx {aminohexanoic acid} linker (replacing the Lys or Arg linker) to generate novel RGD-βAla-(Arg¹¹)CCMSH and RGD-Ahx-(Arg¹¹)CCMSH hybrid peptides. The receptor-binding affinity and cytotoxicity of RGD-βAla-(Arg¹¹)CCMSH and RGD-Ahx-(Arg¹¹)CCMSH were determined in B16/F1 melanoma cells. The melanoma targeting and imaging properties of ^99mTc-RGD-βAla-(Arg¹¹)CCMSH and ^99mTc-RGD-Ahx-(Arg¹¹)CCMSH were determined in B16/F1 melanoma-bearing C57 mice. The replacement of the Lys or Arg linker with the βAla or Ahx linker retained nanomolar receptor-binding affinities and remarkable cytotoxicity of RGD-βAla-(Arg¹¹)CCMSH and RGD-Ahx-(Arg¹¹)CCMSH. The receptor-binding affinities of RGD-βAla-(Arg¹¹)CCMSH and RGD-Ahx-(Arg¹¹)CCMSH were 0.8?±?0.05 and 1.3?±?0.1 nM. Three-hour incubation with 0.1 µM of RGD-βAla-(Arg¹¹)CCMSH and RGD-Ahx-(Arg¹¹)CCMSH decreased the survival percentages of B16/F1 cells by 71 and 67 % as compared to the untreated control cells 5 days post the treatment. The replacement of the Arg linker with the βAla or Ahx linker reduced the non-specific renal uptake of ^99mTc-RGD-βAla-(Arg¹¹)CCMSH and ^99mTc-RGD-Ahx-(Arg¹¹)CCMSH by 62 and 61 % at 2 h post-injection. ^99mTc-RGD-βAla-(Arg¹¹)CCMSH displayed higher melanoma uptake than ^99mTc-RGD-Ahx-(Arg¹¹)CCMSH at 0.5, 2, 4, and 24 h post-injection. Enhanced tumor to kidney uptake ratio of ^99mTc-RGD-βAla-(Arg¹¹)CCMSH warranted the further evaluation of ¹⁸⁸Re-labeled RGD-βAla-(Arg¹¹)CCMSH as a novel MC1 receptor-targeting therapeutic peptide for melanoma treatment in the future.     

Evaluation of the human melanoma targeting properties of radiolabeled alpha-melanocyte stimulating hormone peptide analogues

The purpose of this study was to evaluate the human MC1 receptor-mediated melanoma targeting properties of two metal cyclized alpha-MSH peptide analogues, (188)Re-(Arg(11))CCMSH and (188)Re-CCMSH. Initially, the presence and density of the MC1 receptor were determined on a bank of human melanoma cell lines. All eight human melanoma cell lines tested in this study displayed the MC1 receptor at a density of 900 to 5700 receptors per cell. Receptor affinity and biodistribution properties of (188)Re-(Arg(11))CCMSH and (188)Re-CCMSH were evaluated in a cultured TXM13 human melanoma-xenografted Scid mouse model. Biodistribution results demonstrated that 3.06 +/- 0.68 %ID/g of (188)Re-(Arg(11))CCMSH accumulated in the tumors 1 h postinjection and greater than 65% of the activity at 1 h postinjection remained in the tumors at 4 h after dose administration. Whole body clearance of (188)Re-(Arg(11))CCMSH was very rapid, with approximately 82% of injected dose cleared through urinary system at 4 h postinjection. There was very little activity in blood and major organs such as liver, lung, and muscle except for the kidney. (188)Re-CCMSH exhibited similar tumor uptake and retention in TXM13 human melanoma-xenografted Scid mice as (188)Re-(Arg(11))CCMSH. However, the kidney uptake value of (188)Re-CCMSH was two times higher than that of (188)Re-(Arg(11))CCMSH. The results of this study indicate that the MC1 receptor is present on the surface of a large number of human melanoma cells, which makes the MC1 receptor a good imaging or therapeutic target. Moreover, the biodistribution properties of (188)Re-(Arg(11))CCMSH and (188)Re-CCMSH highlight their potential as therapeutic agents for human melanoma.     

111In-labeled lactam bridge-cyclized alpha-melanocyte stimulating hormone peptide analogues for melanoma imaging

The purpose of this study was to examine the influence of the lactam bridge cyclization on melanoma targeting and biodistribution properties of the radiolabeled conjugates. Two novel lactam bridge-cyclized alpha-MSH peptide analogues, DOTA-CycMSH (1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid-c[Lys-Nle-Glu-His-DPhe-Arg-Trp-Gly-Arg-Pro-Val-Asp]) and DOTA-GlyGlu-CycMSH (DOTA-Gly-Glu-c[Lys-Nle-Glu-His-DPhe-Arg-Trp-Gly-Arg-Pro-Val-Asp]), were synthesized and radiolabeled with (111)In. The internalization and efflux of (111)In-labeled CycMSH peptides were examined in B16/F1 melanoma cells. The melanoma targeting properties, pharmacokinetics, and SPECT/CT imaging of (111)In-labeled CycMSH peptides were determined in B16/F1 melanoma-bearing C57 mice. Both (111)In-DOTA-CycMSH and (111)In-DOTA-GlyGlu-CycMSH exhibited fast internalization and extended retention in B16/F1 cells. The tumor uptake values of (111)In-DOTA-CycMSH and (111)In-DOTA-GlyGlu-CycMSH were 9.53+/-1.41% injected dose/gram (% ID/g) and 10.40+/-1.40% ID/g at 2 h postinjection, respectively. Flank melanoma tumors were clearly visualized with (111)In-DOTA-CycMSH and (111)In-DOTA-GlyGlu-CycMSH by SPECT/CT images at 2 h postinjection. Whole-body clearance of the peptides was fast, with greater than 90% of the radioactivities cleared through urinary system by 2 h postinjection. There was low radioactivity (<0.8% ID/g) accumulated in blood and normal organs except kidneys at all time points investigated. Introduction of a negatively charged linker (-Gly-Glu-) into the peptide sequence decreased the renal uptake by 44% without affecting the tumor uptake at 4 h postinjection. High receptor-mediated melanoma uptakes coupled with fast whole-body clearance in B16/F1 melanoma-bearing C57 mice demonstrated the feasibility of using (111)In-labeled lactam bridge-cyclized alpha-MSH peptide analogues as a novel class of imaging probes for receptor-targeting melanoma imaging.     

Metastatic melanoma imaging using a novel Tc-99m-labeled lactam-cyclized alpha-MSH peptide

The purpose of this study was to determine the metastatic melanoma imaging property of ^99mTc(EDDA)-HYNIC-Aoc-Nle-CycMSH_hex {hydrazinonicotinamide-8-aminooctanoic acid-Nle-c[Asp-His-DPhe-Arg-Trp-Lys]-CONH₂}. HYNIC-Aoc-Nle-CycMSH_hex was synthesized using fluorenylmethyloxy carbonyl (Fmoc) chemistry. The IC₅₀ value of HYNIC-Aoc-Nle-CycMSH_hex was 0.78?±?0.13?nM for B16/F10 melanoma cells. ^99mTc(EDDA)-HYNIC-Aoc-Nle-CycMSH_hex displayed significantly higher uptake (14.26?±?2.74 and 10.45?±?2.31%?ID/g) in B16/F10 metastatic melanoma-bearing lung than that in normal lung (0.90?±?0.15 and 0.53?±?0.14%?ID/g) at 2 and 4?h post-injection, respectively. B16/F10 pulmonary metastatic melanoma lesions were clearly visualized by SPECT/CT using ^99mTc(EDDA)-HYNIC-Aoc-Nle-CycMSH_hex as an imaging probe at 2?h post-injection, underscoring its potential as an imaging probe for metastatic melanoma detection.     

Melanoma targeting property of a Lu-177-labeled lactam bridge-cyclized alpha-MSH peptide

The purpose of this study was to determine the melanoma targeting property of ¹⁷⁷Lu-DOTA-GGNle-CycMSH_hex in B16/F1 melanoma-bearing C57 mice. ¹⁷⁷Lu-DOTA-GGNle-CycMSH_hex exhibited high receptor-mediated melanoma uptake and fast urinary clearance. The tumor uptake of ¹⁷⁷Lu-DOTA-GGNle-CycMSH_hex was 20.25 ± 4.59 and 21.63 ± 6.27% ID/g at 0.5 and 2 h post-injection, respectively. Approximately 83% of injected dose cleared out the body via urinary system at 2 h post-injection. ¹⁷⁷Lu-DOTA-GGNle-CycMSH_hex showed high tumor to normal organ uptake ratios except for the kidneys. The tumor/kidney uptake ratios of ¹⁷⁷Lu-DOTA-GGNle-CycMSH_hex were 2.76 and 1.74 at 2 and 24 h post-injection. The melanoma lesions were clearly visualized by SPECT/CT using ¹⁷⁷Lu-DOTA-GGNle-CycMSH_hex as an imaging probe at 2 h post-injection. Overall, high melanoma uptake coupled with fast urinary clearance of ¹⁷⁷Lu-DOTA-GGNle-CycMSH_hex underscored its potential for melanoma treatment in the future.     

64Cu-labeled alpha-melanocyte-stimulating hormone analog for microPET imaging of melanocortin 1 receptor expression

The alpha-melanocyte-stimulating hormone (alpha-MSH) receptor (melanocortin type 1 receptor, or MC1R) plays an important role in the development and growth of melanoma cells. It was found that MC1R was overexpressed on most murine and human melanoma, making it a promising molecular target for melanoma imaging and therapy. Radiolabeled alpha-MSH peptide and its analogs that can specifically bind with MC1R have been extensively explored for developing novel agents for melanoma detection and radionuclide therapy. The goal of this study was to evaluate a 64Cu-labeled alpha-MSH analog, Ac-Nle-Asp-His-D-Phe-Arg-Trp-Gly-Lys(DOTA)-NH2 (DOTA-NAPamide), as a potential molecular probe for microPET imaging of melanoma and MC1R expression in melanoma xenografted mouse models. 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA) conjugated NAPamide was synthesized and radiolabeled with 64Cu (t1/2=12 h) in NH4OAc (0.1 M; pH 5.5) buffered solution for 60 min at 50 degrees C. Cell culture studies reveal rapid and high uptake and internalization of 64Cu-DOTA-NAPamide in B16F10 cells. Over 90% of receptor-bound tracer is internalized at 3 h incubation. A cellular retention study demonstrates that the receptor-bound 64Cu-DOTA-NAPamide is slowly released from the B16F10 cells into the medium; 66% of the radioactivity is still associated with the cells even after 3 h incubation. The biodistribution of 64Cu-DOTA-NAPamide was then investigated in C57BL/6 mice bearing subcutaneous murine B16F10 melanoma tumors with high capacity of MC1R and Fox Chase Scid mice bearing human A375M melanoma with a relatively low number of MC1R receptors. Tumor uptake values of 64Cu-DOTA-NAPamide are found to be 4.63 +/- 0.45% and 2.49 +/- 0.31% ID/g in B16F10 and A375M xenografted melanoma at 2 h postinjection (pi), respectively. The B16F10 tumor uptake at 2 h pi is further inhibited to 2.29 +/- 0.24% ID/g, while A375M tumor uptake at 2 h pi remains 2.20 +/- 0.41% ID/g with a coinjection of excess alpha-MSH peptide. MicroPET imaging of 64Cu-DOTA-NAPamide in B16F10 tumor mice clearly shows good tumor localization. However, low A375M tumor uptake and poor tumor to normal tissue contrast were observed. This study demonstrates that 64Cu-DOTA-NAPamide is a promising molecular probe for alpha-MSH receptor positive melanoma PET imaging as well as MC1R expression imaging in living mice.     

Biological evaluation of glucose and deoxyglucose derivatives radiolabeled with [99mTc(CO)3(H2O)3]+ core as potential melanoma imaging agents

Glucose 9 and 2-deoxyglucose 10 were successfully synthesized and radiolabeled with [(99m)Tc(CO)(3)(H(2)0)(3)](+) intermediate in high yield. The complexes were characterized by HPLC and its stability with histidine over time was challenged. Cell uptake and biodistribution studies in melanoma-bearing C57BL/6 mice were performed. Both compounds showed accumulation in tumor tissue with high tumor-to-muscle ratios. Thus, D-glucose- and D-2-deoxyglucose-(99m)Tc complex could be considered as agents for melanoma diagnosis.     

Immunological response in the mouse melanoma model after local hyperthermia

Our study was aimed to characterize the phenotype and functional endpoints of local microwave hyperthermia (LHT, 42 degrees C) on tumor infiltrating and spleen leukocytes. The effectiveness of LHT applied into the tumor of B16F10 melanoma-bearing C57/BL6 mice was compared with anesthetized and non-treated animals. Subpopulations of leukocytes were analyzed using the flow cytometry, and the cytotoxic activity of splenocytes against syngeneic B16F10 melanoma and NK-sensitive YAC-1 tumor cell lines was evaluated in (51)Cr-release assay. Similarly, the in vitro modification of the heat treatment was performed using healthy and melanoma-bearing splenocytes. We found a 40 % increase of activated monocytes (CD11b+CD69+) infiltration into the tumor microenvironment. In the spleen of experimental animals, the numbers of cytotoxic T lymphocytes (CTLs-CD3+CD8+) and NK cell (CD49b+NK1.1+) raised by 22 % and 14 %, respectively, while the NK1.1+ monocytes decreases by 37 %. This was accompanied by an enhancement of cytotoxic effector function against B16F10 and YAC-1 targets in both in vivo and in vitro conditions. These results demonstrate that LHT induces better killing of syngeneic melanoma targets. Furthermore, LHT evokes the homing of activated monocytes into the tumor microenvironment and increases the counts of NK cells and CTL in the spleen.     

The effect of murine B16F10 melanoma on the biodistribution of 99mTc-MDP in male C57BL/6J mice.

The biodistribution of radiopharmaceuticals used in diagnostic imaging can be altered by a wide variety of factors. We studied the effect of murine B16F10 melanoma on the biodistribution in mice of 99mTechnetium-methylenediphosphonic acid (99mTc-MDP). Viable B16-F10 cell lines (1 x 10(5)) were inoculated subcutaneously in the dorsal region of 8-12 week-old male isogenic C57BV/6j mice. 14-16 days after inoculation, 99mTc-MDP was injected in the ocular plexus and after 0.5 hr the animals were rapidly sacrificed. The organs and tumor were isolated, the mass determined and the percentage per gram of injected activity (%ATI/g) calculated. The results shown that the %ATI/g:i/ has not been altered in inguinal lymph nodes, prostate, pancreas, testis, seminal vesicle, bladder, kidney, stomach, small intestine, spleen, thymus, heart, lung, brain and muscle; but ii/ significantly decreased in thyroid, bone, blood and liver. In conclusion, the B16F10 melanoma can alter the 99mTc-MDP uptakes in some organs.     

Melanoma targeting with α-melanocyte stimulating hormone analogs labeled with fac-[99mTc(CO)3]+: effect of cyclization on tumor-seeking properties

Early detection of primary melanoma tumors is essential because there is no effective treatment for metastatic melanoma. Several linear and cyclic radiolabeled α-melanocyte stimulating hormone (α-MSH) analogs have been proposed to target the melanocortin type 1 receptor (MC1R) overexpressed in melanoma. The compact structure of a rhenium-cyclized α-MSH analog (Re-CCMSH) significantly enhanced its in vivo tumor uptake and retention. Melanotan II (MT-II), a cyclic lactam analog of α-MSH (Ac-Nle-cyclo[Asp-His-dPhe-Arg-Trp-Lys]-NH₂]), is a very potent and stable agonist peptide largely used in the characterization of melanocortin receptors. Taking advantage of the superior biological features associated with the MT-II cyclic peptide, we assessed the effect of lactam-based cyclization on the tumor-seeking properties of α-MSH analogs by comparing the pharmacokinetics profile of the ^99mTc-labeled cyclic peptide βAla-Nle-cyclo[Asp-His-d-Phe-Arg-Trp-Lys]-NH₂ with that of the linear analog βAla-Nle-Asp-His-dPhe-Arg-Trp-Lys-NH₂ in melanoma-bearing mice. We have synthesized and coupled the linear and cyclic peptides to a bifunctional chelator containing a pyrazolyl-diamine backbone (pz) through the amino group of βAla, and the resulting pz–peptide conjugates were reacted with the fac-[^99mTc(CO)₃]⁺ moiety. The ^99mTc(CO)₃-labeled conjugates were obtained in high yield, high specific activity, and high radiochemical purity. The cyclic ^99mTc(CO)₃-labeled conjugate presents a remarkable internalization (87.1% of receptor-bound tracer and 50.5% of total applied activity, after 6 h at 37 °C) and cellular retention (only 24.7% released from the cells after 5 h) in murine melanoma B16F1 cells. A significant tumor uptake and retention was obtained in melanoma-bearing C57BL6 mice for the cyclic radioconjugate [9.26 ± 0.83 and 11.31 ± 1.83% ID/g at 1 and 4 h after injection, respectively]. The linear ^99mTc(CO)₃-pz–peptide presented lower values for both cellular internalization and tumor uptake. Receptor blocking studies with the potent (Nle⁴,dPhe⁷)-αMSH agonist demonstrated the specificity of the radioconjugates to MC1R (74.8 and 44.5% reduction of tumor uptake at 4 h after injection for cyclic and linear radioconjugates, respectively).     

Design,synthesis, and comparative evaluation of 99mTc(CO)3‐labeled N‐terminal and C‐terminal modified asparagine–glycine–arginine peptide constructs

The present study describes modification of asparagine–glycine–arginine (NGR) peptide at N‐terminally and C‐terminally by introduction of a tridentate chelating scaffold via click chemistry reaction. The N‐terminal and C‐terminal modified peptides were radiometalated with [^99mTc(CO)₃]⁺ precursor. The influence of these moieties at the two termini on the targeting properties of NGR peptide was determined by in vitro cell uptake studies and in vivo biodistribution studies. The two radiolabeled constructs did not exhibit any significant variation in uptake in murine melanoma B16F10 cells during in vitro studies. In vivo studies revealed nearly similar tumor uptake of N‐terminally modified peptide construct 5 and C‐terminally construct 6 at 2 h p.i. (1.9 ± 0.1 vs 2.4 ± 0.2% ID/g, respectively). The tumor‐to‐blood (T/B) and tumor‐to‐liver (T/L) ratios of the two radiometalated peptides were also quite similar. The two constructs cleared from all the major organs (heart, lungs, spleen, stomach, and blood) at 4 h p.i. (<1% ID/g). Blocking studies carried out by coinjection of cCNGRC peptide led to approximately 50% reduction in the tumor uptake at 2 h p.i. This work thus illustrates the possibility of convenient modification/radiometalation of NGR peptide at either N‐ or C‐terminus without hampering tumor targeting and pharmacokinetics.     

Injection of cells and monoclonal antibodies into mice: comparison of tail vein and retroorbital routes

Organ distribution and blood concentration profiles were compared following injection of mice with radiolabeled test agents via the lateral tail vein or retroorbital venous sinus. Monoclonal antibodies directed against B16 melanoma of C57BL/6 origin were labeled with iodine-125. Thymocytes from BALB/c mice and B16 melanoma cells were labeled with technetium-99m sodium pertechnetate (Na 99mTcO4). Animals were injected with 5 microCI of iodinated antibody, 5 X 10(5) syngeneic thymocytes, 2.5 X 10(5) melanoma cells, or 10 microCi Na 99mTcO4 in 0.2 ml saline via either route. In non-tumor-bearing C57BL/6 mice radiolabeled monoclonal antibody was found primarily in the gastrointestinal tract, liver, and blood. Na 99mTcO4 localized in the gastrointestinal tract, 99mTc-labeled thymocytes in the spleen and liver, and 99mTc-labeled B16 melanoma cells in the liver and lungs. Pharmacokinetic analysis of blood samples taken 4, 8, and 12 min following injection of the labeled agents suggested that the iodinated antibody had less vascular permeability than Na 99mTcO4 and that thymocytes and B16 melanoma cells were trapped in the pulmonary vasculature as they passed through the lungs. It is noteworthy that no biologically significant differences in organ distribution patterns or blood decay profiles were found between lateral tail vein and retroorbital routes. The data clearly indicate that these routes can be used interchangeably with one another for intravenous injections.     

Inhibition of metastasis of syngeneic murine melanoma in vivo and vasculogenesis in vitro by monoclonal antibody C11C1 targeted to domain 5 of high molecular weight kininogen

Metastasis of malignant tumors is a major cause of morbidity and mortality. Inhibition of tumor growth in distant organs is of clinical importance. We have demonstrated that C11C1, a murine monoclonal antibody to the light chain region of high molecular weight kininogen (HK), reduces growth of murine multiple myeloma in normal mice and human colon cancer in nude mice. C11C1 inhibits angiogenesis by reducing tumor microvascular density by blocking binding of HK to endothelial cells. We now evaluate the anti-metastatic effect of C11C1 on C57BL/6 mouse lung metastatic model using B16F10 melanoma cells. The tail veins of mice were injected with 0.5 × 10⁶ cells of melanoma B16F10. One group received C11C1 and the other received saline (control) intraperitoneally. When mice were killed at 28 days, 6 of 10 control mice had detectable metastatic pulmonary nodules which stained positive with an antibody against S-100 protein, a tumor antigen present in malignant melanoma cells. In the C11C1 groups, none of the mice showed metastatic foci in their lungs. We showed that C11C1 inhibits endothelial cell tube formation in a 3-D collagen fibrinogen gel model by inhibiting the rate of cleavage of HK by plasma kallikrein without changing the binding affinity for HK. These studies demonstrate that a monoclonal antibody to HK has the potential to prevent metastasis with minimal side effects.     

Feasibility study of fluorine-18 labeled dopa for melanoma imaging

Feasibility of fluorine-18 labeled l-dopa for melanoma imaging was investigated. In B16 melanoma-bearing mice given 2-[¹⁸F]fluoro-l-dopa, the radioactivity in the B16 decreased for the first 60 min and then remained constant, while all other tissues investigated decreased with time. High tumor uptake ratios for all other tissues except for the pancreas were obtained at 120 min. 6-[¹⁸F]Fluoro-l-dopa showed a similar tissue distribution. However, the B16 uptake was about half that value for the 2-fluoro analogue. A higher incorporation rate of 2-[¹⁸F]fluoro-l-dopa into the acid-precipitable fraction of the melanoma also showed that the 2-[¹⁸F]fluoro-l-dopa was a preferable melanin precursor. Among the four kinds of non-melanoma tumors in mice or rats three tumors showed an uptake of 2-[¹⁸F]fluoro-l-dopa similar to the B16 at 60 min. However, larger melanoma-to-tissue uptake ratios were observed when compared to non-melanoma tumors.     

4-Borono-2-[18F]fluoro-d,l-phenylalanine: a possible tracer for melanoma diagnosis with PET

The potential of 4-borono-2-[¹⁸F]fluoro-d,l-phenylalanine ([¹⁸F]FBPA), a fluorinated derivative of a target compound for boron neutron capture therapy, for melanoma imaging by positron emission tomography (PET) was studied using animal models. A high uptake of [¹⁸F]FBPA was found in murine B16 melanoma or in Greene's melanoma No. 179, a melanotic cell line in hamsters, for the first 6 h after injection. Whole body autoradiography using [¹⁸F]FBPA gave a clear image of the B16 tumor. The acid-insoluble ¹⁸F in the B16 increased to 27% by 6h, and most of the free ¹⁸F was detected as [¹⁸F]FBPA in both B16 and plasma. In the hamster models, No. 179 showed a 1.7 times higher uptake than amelanotic Greene's melanoma No. 178 at 6 h post-injection, although both melanomas indicated similar metabolic activities when examined by a tracer uptake study using l-[¹⁴C]methionine, 2-deoxy-d-[¹⁴C]glucose and [³H]thymidine. [¹⁸F]FBPA may be a very promising PET tracer for melanoma imaging.     

Radiofluorinated rhenium cyclized α-MSH analogues for PET imaging of melanocortin receptor 1

In order to accomplish in vivo molecular imaging of melanoma biomarker melanocortin 1 receptor (MC1R), several α-melanocyte-stimulating hormone (α-MSH) analogues have been labeled with N-succinimidyl-4-1?F-fluorobenzoate (1?)F-SFB) and studied as positron emission tomography (PET) probes in our recent studies. To further pursue a radiofluorinated α-MSH peptide with high clinical translation potential, we utilized 4-nitrophenyl 2-1?F-fluoropropionate (1?F-NFP) to radiofluorinate the transition metal rhenium cyclized α-MSH metallopeptides for PET imaging of MC1R positive malignant melanoma. Metallopeptides Ac-d,Lys-ReCCMSH(Arg11) (two isomers, namely RMSH-1 and RMSH-2) were synthesized using conventional solid phase peptide synthesis chemistry and rhenium cyclization reaction. The two isomers were then conjugated with 1?F-NFP or 1?F-NFP. The resulting cold or radiofluorinated metallopeptides, (1?/1?)F-FP-RMSH-1 and (1?/1?)F-FP-RMSH-2, were further evaluated for their in vitro receptor binding affinities, in vivo biodistribution, and small-animal PET imaging properties. The binding affinities of 1?F-FP-RMSH-1 and 1?F-FP-RMSH-2 were determined to be within low nanomolar range. In vivo studies revealed that both F-labeled metallopeptides possessed good tumor uptake in the B16F10 murine model with high MC1R expression, while possessing much lower uptake in A375M human melanoma xenografts. Moreover, 1?F-FP-RMSH-1 displayed more favorable in vivo performance in terms of higher tumor uptake and much lower accumulation in the kidney and liver, when compared to that of 1?F-FP-RMSH-2 at 2 h postinjection (p.i.). 1?F-FP-RMSH-1 also displayed lower liver and lung uptake when compared with that of the same peptide labeled with 1?F-SFB (named as 1?F-FB-RMSH-1). Small animal PET imaging of 1?F-FP-RMSH-1 in mice bearing B16F10 tumors at 1 and 2 h showed good tumor imaging quality. As expected, much lower tumor uptake and poorer tumor/normal organ contrast were observed for A375M model compared to those of the B16F10 model. 1?F-FP-RMSH-1 also exhibited higher tumor uptake and better tumor retention when compared with 1?F-FB-RMSH-1. 1?F-FP-RMSH-1 demonstrates significant advantages over 1?F-FB-RMSH-1 and 1?F-FP-RMSH-2. It is a promising PET probe for imaging MC1R positive melanoma and MC1R expression in vivo.     

Effects of moderate exercise and oat beta-glucan on lung tumor metastases and macrophage antitumor cytotoxicity.

Both moderate exercise and the soluble fiber beta-glucan can have beneficial effects on the initiation and growth of tumors, but the data are limited, and there is no information on their combined effects. This study tested the independent and combined effects of short-term moderate-exercise training and the soluble oat fiber beta-glucan (ObetaG) on the metatastic spread of injected tumor cells and macrophage antitumor cytotoxicity. Male C57BL/6 mice were assigned to one of four groups: exercise (Ex)-H2O, Ex-ObetaG, control (Con)-H2O, or Con-ObetaG. ObetaG was fed in the drinking water for 10 days before tumor administration and death. Exercise consisted of treadmill running (1 h/day) for 6 days. After rest or exercise on the last day of training, syngeneic B16 melanoma cells (2 x 10(5)) were administered via intravenous injection (n = 8-11 per group). Lungs were removed 14 days later, and tumor foci were counted. Additional mice (n = 8 per group) were killed, and peritoneal macrophages were assayed for cytotoxicity against the same mouse tumor cell line at various effector-to-target ratios. Both moderate exercise and ObetaG decreased lung tumor foci and increased macrophage cytotoxicity. However, there were no differences in lung tumor foci and macrophage cytotoxicity between Ex-ObetaG and either Ex-H2O or Con-ObetaG. These data suggest that, although not additive in their effects, both short-term moderate-exercise training and consumption of the soluble ObetaG can decrease the metatastic spread of injected B16 melanoma cells, and these effects may be mediated in part by an increase in macrophage cytotoxicity to B16 melanoma.     

Development of 99mTc(CO)₃-dendrimer-FITC for cancer imaging

Study of fluorophore and technetium labeling of poly(amido)-amine (PAMAM) generation 4 (G4) dendrimer and its evaluation as potential molecular imaging agent in both normal and melanoma-bearing mice, are described. Dendrimers were first conjugated with FITC (fluorescein isothiocyanate). Dendrimer-FITC was then incubated with the intermediate [(99m)Tc(CO)(3)(H(2)O)(3)](+) and purified by gel filtration. Biodistribution and scintigraphy images were performed administrating (99m)Tc(CO)(3)-dendrimer-FITC to normal mice (NM) or melanoma-bearing mice (MBM). Cryostat tissue sections from MBM mice were analyzed by confocal microscopy. Radiolabeling yield of dendrimer was approx. 90%. The (99m)Tc(CO)(3)-dendrimer-FITC complex was stable for at least 24h. Biodistribution studies in NM showed blood clearance with hepatic and renal depuration. MBM showed a similar pattern of biodistribution with high tumor uptake that allowed tumor imaging. Confocal microscopy analysis showed cytoplasmic distribution of (99m)Tc(CO)(3)-dendrimer-FITC.