Cell Uptake of Steroid-BODIPY Conjugates and Their Internalization Mechanisms: Cancer Theranostic Dyes.

Estradiol-BODIPY linked via an 8-carbon spacer chain and 19-nortestosterone- and testosterone-BODIPY linked via an ethynyl spacer group were evaluated for cell uptake in the breast cancer cell lines MCF-7 and MDA-MB-231 and prostate cancer cell lines PC-3 and LNCaP, as well as in normal dermal fibroblasts, using fluorescence microscopy. The highest level of internalization was observed with 11β-OMe-estradiol-BODIPY and 7α-Me-19-nortestosterone-BODIPY towards cells expressing their specific receptors. Blocking experiments showed changes in non-specific cell uptake in the cancer and normal cells, which likely reflect differences in the lipophilicity of the conjugates.

X-ray structure analysis of the cholesterol 25- and 20-hydroperoxides, the elusive primary sidechain autoxidation products of cholesterol.

The systematic X-ray structure analyses of the primary cholesterol sidechain autoxidation products cholesterol 25- and 20β(S)-hydroperoxide are presented and compared to cholesterol and 25-hydroxycholesterol. Intermolecular interactions in crystal structures of the molecules are revealed through Hirshfeld surface analysis and fingerprint plots. The magnitude of energy frameworks is presented by combining efficient calculations of intermolecular interaction energies with novel graphical representation.

New Therapeutic Targets for Brain Function and Disease.

Cytochrome P450 46A1 (CYP46A1) or cholesterol-24-hydroxylase is responsible for cholesterol metabolism and homeostasis in the human brain. More recently its activity has been linked to brain function and disease. The anti-HIV drug efavirenz activates CYP46A1 at low drug levels while inhibiting the enzyme activity at the high dose used in clinical practice.

Improved Estrogen Receptor Assessment by PET Using the Novel Radiotracer F-4FMFES in Estrogen Receptor-Positive Breast Cancer Patients: An Ongoing Phase II Clinical Trial.

After encouraging preclinical and human dosimetry results for the novel estrogen receptor (ER) PET radiotracer 4-fluoro-11β-methoxy-16α-F-fluoroestradiol (F-4FMFES), a phase II clinical trial was initiated to compare the PET imaging diagnostic potential of F-4FMFES with that of 16α-F-fluoroestradiol (F-FES) in ER-positive (ER+) breast cancer patients. Patients diagnosed with ER+ breast cancer ( = 31) were recruited for this study, including 6 who underwent mastectomy or axillary node dissection. For each patient, F-FES and F-4FMFES PET/CT scans were done sequentially (within a week) and in random order.

Synthesis and spectral properties of estrogen- and androgen-BODIPY conjugates.

To develop receptor based fluorescence ligands for imaging breast and prostate cancer, a series of estrogen-, testosterone- and 19-nortestosterone conjugates linked to BODIPY (4,4-difluoro-4-bora-3a,4a-diaza-s-indacene) or aza-BODIPY, were prepared. Their synthesis involves attachment of iodo derivatives of differently substituted BODIPY and aza-BODIPY analogs to the C17α-position of the steroid moieties using either the Sonogashira coupling or Click reaction. The UV-Vis absorption spectra of the conjugates range from 500 to 710nm with fluorescence emission properties ranging from 520 to 700nm, facilitating observations in living cells and tissues.

BODIPY-17α-ethynylestradiol conjugates: Synthesis, fluorescence properties and receptor binding affinities.

In vivo imaging of estrogen receptor (ER) densities in human breast cancer is a potential tool to stage disease, guide treatment protocols and follow-up on treatment outcome. Both positron emission tomography (PET) and fluorescence imaging have received ample attention to detect ligand-ER interaction. In this study we prepared BODIPY-estradiol conjugates using 4,4-difluoro-4-bora-3a,4a-diaza-s-indacene (BODIPY) as fluorescent probe and estradiol derivatives as ligand and established their relative binding affinity (RBA) for the ERα.

ChAcNLS, a Novel Modification to Antibody-Conjugates Permitting Target Cell-Specific Endosomal Escape, Localization to the Nucleus, and Enhanced Total Intracellular Accumulation.

The design of antibody-conjugates (ACs) for delivering molecules for targeted applications in humans has sufficiently progressed to demonstrate clinical efficacy in certain malignancies and reduced systemic toxicity that occurs with standard nontargeted therapies. One area that can advance clinical success for ACs will be to increase their intracellular accumulation. However, entrapment and degradation in the endosomal-lysosomal pathway, on which ACs are reliant for the depositing of their molecular payload inside target cells, leads to reduced intracellular accumulation.

Cholesterol hydroperoxides as substrates for cholesterol-metabolizing cytochrome P450 enzymes and alternative sources of 25-hydroxycholesterol and other oxysterols.

The interaction of the primary autoxidation products of cholesterol, namely 25- and 20ξ-hydroperoxides, with the four principal cholesterol-metabolizing cytochrome P450 enzymes is reported. Addition of cholesterol 25-hydroperoxide to the enzymes CYP27A1 and CYP11A1 induced well-defined spectral changes while generating 25-hydroxycholesterol as the major product. The 20ξ-hydroperoxides induced spectral shifts in CYP27A1 and CYP11A1 but glycol metabolites were detected only with CYP11A1.

Radioisotopic Purity of Sodium Pertechnetate 99mTc Produced with a Medium-Energy Cyclotron: Implications for Internal Radiation Dose, Image Quality, and Release Specifications.

Unlabelled: Cyclotron production of 99mTc is a promising route to supply 99mTc radiopharmaceuticals. Higher 99mTc yields can be obtained with medium-energy cyclotrons in comparison to those dedicated to PET isotope production. To take advantage of this capability, evaluation of the radioisotopic purity of 99mTc produced at medium energy (20-24 MeV) and its impact on image quality and dosimetry was required.

A real-time follow-up of photodynamic therapy during PET imaging.

Purpose: To monitor a real-time follow-up of tumor response to photodynamic therapy (PDT) by dynamic 2-deoxy-2-[(18)F]fluoro-d-glucose ((18)FDG) and positron emission tomography (PET) using two photosensitizing drugs in vivo, and to assess their mechanisms of action.

Methods: Two types of photosensitizers with different action mechanisms were used in rats implanted with two tumors: AlPcS4 mainly affecting the tumor vascular system, and ZnPcS2 largely inducing direct cell kill. Twenty-four hours after administration of either photosensitizer, one tumor served as control while the other was treated with red light during 30min within the 2h PET imaging by infusion of (18)FDG.

Deciphering PDT-induced inflammatory responses using real-time FDG-PET in a mouse tumour model.

Dynamic positron emission tomography (PET), combined with constant infusion of 2-deoxy-2-[(18)F]fluoro-d-glucose (FDG), enables real-time monitoring of transient metabolic changes in vivo, which can serve to understand the underlying physiology. Here we investigated characteristic changes in the tumour FDG-uptake profiles in relation to acute localized inflammatory responses induced by photodynamic therapy (PDT). Dynamic PET imaging with constant FDG infusion was used with EMT-6 tumour bearing mice.

(68)Ga/DOTA- and (64)Cu/NOTA-phthalocyanine conjugates as fluorescent/PET bimodal imaging probes.

In this paper, we describe the synthesis and characterization of a series of new bimodal probes combining water-soluble sulfonated zinc phthalocyanine (ZnPc) as a fluorescence imaging unit and either (68)Ga/1,4,7,10-tetraazocyclododecane-N,N'N″,N'″-tetraacetic acid (DOTA) or (64)Cu/1,4,7-triazacyclononane-1,4,7-triacetic acid (NOTA) for PET imaging. The two moieties were linked through aliphatic chains of different lengths to modulate amphiphilicity. Labeling of DOTA- or NOTA-ZnPc conjugates with (68)Ga (t1/2 = 68 min) and (64)Cu (t1/2 = 12.

Assessment of the novel estrogen receptor PET tracer 4-fluoro-11β-methoxy-16α-[(18)F]fluoroestradiol (4FMFES) by PET imaging in a breast cancer murine model.

Purpose: The aim of this study was to compare the in vivo stability, uptake, and positron emission tomography (PET) imaging performance of a novel estrogen receptor PET tracer, 4-fluoro-11β-methoxy-16α-[(18)F]fluoroestradiol (4FMFES), with 16α-[(18)F]fluoroestradiol (FES).

Procedures: MC7-L1 and MC4-L2 (ER+) cell lines and their ERα-knockdown variants (ERαKD) were implanted subcutaneously in Balb/c mice. After 21 days, mice were imaged using either FES or 4FMFES.

Phthalocyanine-peptide conjugates: receptor-targeting bifunctional agents for imaging and photodynamic therapy.

The synthesis of a series of new zinc phthalocyanine-peptide conjugates targeting the gastrin-releasing peptide (GRP) and integrin receptors is reported. Two alternative synthetic methods based on Sonogashira cross-coupling of an iodinated zinc phthalocyanine with acetylenic bombesin or arginine-glycine-aspartic acid (RGD) derivatives, either in solution or on solid phase, are presented. The water-soluble conjugates were screened for their photodynamic efficacy against several cancer cell lines expressing different levels of GRP and integrin receptors, and their intracellular localization was evaluated via confocal fluorescence microscopy.

Predicting efficacy of photodynamic therapy by real-time FDG-PET in a mouse tumour model.

Dynamic positron emission tomography (PET) combined with the constant infusion of 2-deoxy-2-[(18)F]fluoro-D-glucose (FDG) as a tracer permits real-time monitoring of systemic transient metabolic changes resulting from photodynamic therapy (PDT) in tumour bearing animals. The effect of PDT on tumour FDG uptake rates was evaluated using four different sulfonated phthalocyanine analogs as photosensitizers (PS) in combination with either continuous or fractionated illumination protocols. Mice bearing two EMT-6 tumours were infused with FDG to start PDT 30 min later.

PET imaging using 64Cu-labeled sulfophthalocyanines: synthesis and biodistribution.

Sulfonated metallo phthalocyanines (MPcS(n)) are second generation photosensitizers advanced for photodynamic therapy of various medical applications. A series of ZnPcS(n) was demetallated and subsequently converted to the corresponding [(64)Cu]CuPcS(n) in 40-50% isolated yields and >98% radiochemical purities. Tumor-bearing mice were injected with the (64)Cu-labeled products and subjected to 3-h dynamic PET imaging studies.

Phthalocyanine-peptide conjugates via palladium-catalyzed cross-coupling reactions.

Phthalocyanines (Pc) were conjugated with peptide moieties to improve their target selectivity for potential use as fluorescence and/or positron emission tomography (PET) probes in medical imaging. Three synthetic methods based on palladium-catalyzed cross-coupling reactions (Sonogashira, Buchwald-Hartwig, and Suzuki-Miyaura) were investigated. Using these methods, a series of peptides monofunctionalized with Pc at the N/C-terminal position or on a phenylalanine side chain was obtained in good yields and characterized.

Mono- and tri-cationic porphyrin-monoclonal antibody conjugates: photodynamic activity and mechanism of action.

Two cationic porphyrins bearing an isothiocyanate group for conjugation to monocolonal antibodies have been synthesized. The two porphyrins conjugated efficiently to three monoclonal antibodies (anti-CD104, anti-CD146 and anti-CD326), which recognize antigens commonly over-expressed on a range of tumour cells. In vitro, all conjugates retained the phototoxicity of the porphyrin and the immunoreactivity of the antibody.

Structure-activity relationships of mono-substituted trisulfonated porphyrazines for the photodynamic therapy (PDT) of cancer.

The impact of lipophilicity on biological parameters critical to photodynamic efficacy was analyzed for a new generation of trisulfobenzo(mononaphtho)porphyrazines. The porphyrazines were substituted on the naphtho ring with linear alkynyl side chains of various lengths. When compared to the analogous phthalocyanine structures, the added benzo ring in the porphyrazine structures increased the lipophilicity for analogs with short alkynyl chains, while this effect disappeared for analogs with longer side chains.

Trisulfonated porphyrazines: new photosensitizers for the treatment of retinal and subretinal edema.

A new series of water-soluble, mononaphthotrisulfobenzoporphyrazines, bearing an alkynyl side chain of varying lengths on the naphtho ring, were prepared and tested for their efficacy to inhibit plasma extravasation when used as photosensitizers during photodynamic therapy (PDT) of the retina in the rat. The hexynyl substituted photosensitizer was the most potent, and was able to produce complete inhibition, at low doses of photosensitizer and light.

Pd-catalyzed Heck reaction for the synthesis of isomeric metallo tetravinylsulfo phthalocyanines and their photosensitizing properties.

Tetrasulfonated zinc phthalocyanine (ZnPcS(4)) is a potent sensitizer for photodynamic therapy of various medical conditions. Depending on its mode of preparation the material consists of mixtures of ortho and meta sulfonated derivatives as well as regioisomers with different photodynamic potency. To study the effect of the site of substitution on biological parameters that contribute to overall photodynamic efficacy, a series of pure ortho- and meta-tetravinylsulfonated metallo phthalocyanines MPc-o/m-(VS)(4) were prepared from the corresponding tetraiodo phthalocyanines using the palladium-catalyzed cross-coupling reaction (Heck reaction).

Two-photon absorption cross section of excited phthalocyanines by a femtosecond Ti-sapphire laser.

In the past few years, photodynamic therapy (PDT) has become a major treatment for neovascular age-related macular degeneration (AMD) in which there is abnormal growth of choroidal neovasculature (CNV) that eventually obscures central vision, leading to blindness. However, one of the main limitations of current PDT is the relatively low specificity of the photosensitizer (PS) and light for pathological tissue which may induce damage to adjacent healthy tissue. An alternative approach to circumvent the specificity limitation is to improve the irradiation process.

Bromines on N-allyl position of cationic porphyrins affect both radio- and photosensitizing properties.

With the aim to develop improved dual-action sensitizers suitable for both photodynamic therapy (PDT) and radiotherapy, we prepared a series of metal and metal-free cationic porphyrins, brominated either on beta- or N-allyl positions. Photo- and radiosensitizing efficacy was evaluated in MDA-MB-231 breast cancer cells incubated with 1 muM porphyrin and treated with graded doses of visible light or 0-6 Gy of 60Co gamma irradiation. Metabolic activity after PDT or cell survival after gamma irradiation were estimated by a colorimetric (MTT) or clonogenicity assay, respectively.