Cyclic RGD peptidomimetics containing 4- and 5-amino-cyclopropane pipecolic acid (CPA) templates as dual αVβ3 and α5β1 integrin ligands

4-Amino- and 5-amino-cyclopropane pipecolic acids (CPAs) with cis relative stereochemistry between the carboxylic and amino groups were used as templates to prepare cyclic peptidomimetics containing the RGD sequence as possible integrin binders. The peptidomimetic c(RGD8) built on the 5-amino-CPA displayed an inhibition activity (IC₅₀ = 2.4 nM) toward the α_vβ₃ integrin receptor (expressed in M21 human melanoma cell line) comparable to that of the most potent antagonists reported so far and it was ten times more active than the corresponding antagonist c(RGD7) derived from the isomeric 4-amino-CPA. Both compounds were also nanomolar ligands of the α₅β₁ integrin (expressed in human erythroleukemia cell line K562). These results suggest that the CPA-derived templates are suitable for the preparation of dual α_vβ₃ and α₅β₁ ligands to suppress integrin-mediated events as well as for targeted drug delivery in cancer therapy.     

A novel concept of radiosynthesis of a 99mTc-labeled dimeric RGD peptide as a potential radiotracer for tumor imaging

Radiolabeled Arg-Gly-Asp (RGD) peptides are promising agents for non invasive imaging of α_vβ₃ expression in malignant tumors. The integrin α_vβ₃ binding affinity and consequent tumor uptake could be improved when a dimeric RGD peptide is used as the targeting moiety instead of a monomer. Towards this, a novel approach was envisaged to synthesize a ^99mTc labeled dimeric RGD derivative using a RGD monomer and [^99mTcN]⁺² intermediate. The dithiocarbamate derivative of cyclic RGD peptide G₃-c(RGDfK) (G₃ = Gly-Gly-Gly, f = Phe, K = Lys) was synthesized and radiolabeled with [^99mTcN]⁺² intermediate to form the ^99mTcN-[G₃-c(RGDfK)]₂ complex in high yield (～98%). Biodistribution studies carried out in C57/BL6 mice bearing melanoma tumors showed good tumor uptake [4.61 ± 0.04% IA/g at 30 min post-injection] with fast clearance of the activity from non-target organs/tissue. Scintigraphic imaging studies showed visible accumulation of activity in the tumor with appreciable target to background ratio.     

Synthesis and in vivo evaluation of Tc-99m-labeled cyclic CisoDGRC peptide conjugates for targeting αvβ3 integrin expression

Two α_vβ₃ integrin-binding peptide conjugates containing the cyclic CisoDGRC motif, a linker, and a chelator to enable Tc-99m labeling via the fac-[^99mTc(CO)₃]+ core were synthesized. In vivo biodistribution studies in U87MG tumor-bear nude mice at 1 h post-injection revealed a profound effect of the linker on the clearance of the radiotracer from the blood stream. In vivo blocking studies demonstrated the selective binding to the tumors expressing α_vβ₃-integrin and other tissues. The HPLC analysis of urine samples collected upon necropsy showed no degradation indicating their metabolic stability. These results suggest that cyclic CisoDGRC motif could be exploited as a new α_vβ₃-targeting vector by an appropriate selection of a linker between the peptide and the payload to obtain optimum pharmacokinetic properties.     

Design of cyclic RGD-conjugated Aib-containing amphipathic helical peptides for targeted delivery of small interfering RNA

To achieve the targeted delivery of siRNA, five conjugates of Aib-containing amphipathic helical peptides with mono-, di-, and trivalent cRGDfC [cyclo(-Arg-Gly-Asp-d-Phe-Cys-)], which is known to bind to α_Vβ₃ integrin, at several positions of the amphipathic helical peptide were designed and synthesized. Among the five conjugates, the monovalent cRGDfC conjugating at position 20 of the amino acid sequence of the helical peptide through the formation of a disulfide bond (PI) and the divalent cRGDfC conjugating at positions 2 and 14 of the amino acid sequence of the helical peptide through the formation of disulfide bonds (PIII) significantly enhanced the delivery of fluorescence-labeled siRNA into A549 cells as the peptide/siRNA complex formed by electrostatic interaction. The cellular uptake of the PI/siRNA complex was mediated by both endocytic and non-endocytic pathways, whereas that of the PIII/siRNA complex was enabled by endocytosis. Furthermore, the cellular uptake of the PI/siRNA complex might involve specific interactions of the RGD group with the α_Vβ₃ integrin receptor. Next, the RNAi effect of the peptide/siRNA complex on luciferase expression in A549-Luc cells was examined. Luciferase expression was significantly decreased in the presence of the complex at the concentration of 1.0 μM PI/10 nM siRNA. In contrast, the PIII/siRNA complex did not show the RNAi effect under the same conditions. However, extending the incubation time led to the suppression of the luciferase expression in the presence of the PIII/siRNA complex. Considering that the cellular uptake of the PIII/siRNA complex is mediated by the endocytic pathway, the release of siRNA from the endosome into the cytosol might require a long time. We present herein a useful and unique tool for the delivery of siRNA.     

Structural basis for α-conotoxin potency and selectivity

Parkinson’s disease is a debilitating movement disorder characterized by altered levels of α₆β₂1 (1 indicates the possible presence of additional subunits) nicotinic acetylcholine receptors (nAChRs) localized on presynaptic striatal catecholaminergic neurons. α-Conotoxin MII (α-CTx MII) is a highly useful ligand to probe α₆β₂ nAChRs structure and function, but it does not discriminate among closely related α₆1 nAChR subtypes. Modification of the α-CTx MII primary sequence led to the identification of α-CTx MII[E11A], an analog with 500–5300-fold discrimination between α₆1 subtypes found in both human and non-human primates. α-CTx MII[E11A] binds most strongly (femtomolar dissociation constant) to the high affinity α₆ nAChR, a subtype that is selectively lost in Parkinson’s disease. Here, we present the three-dimensional solution structure for α-CTx MII[E11A] as determined by two-dimensional ¹H NMR spectroscopy to 0.13 ± 0.09 ? backbone and 0.45 ± 0.08 ? heavy atom root-mean-square deviation from mean structure. Structural comparisons suggest that the increased hydrophobic area of α-CTx MII[E11A] relative to other members of the α-CTx family may be responsible for its exceptionally high affinity for α6α4β21 nAChR as well as discrimination between α₆β₂ and α₃β₂ containing nAChRs. This finding may enable the rational design of novel peptide analogs that demonstrate enhanced specificity for α₆1 nAChR subunit interfaces and provide a means to better understand nAChR structural determinants that modulate brain dopamine levels and the pathophysiology of Parkinson’s disease.     

Engineered Cystine-Knot Peptides that Bind αvβ3 Integrin with Antibody-Like Affinities

The α_vβ₃ integrin receptor is an important cancer target due to its overexpression on many solid tumors and the tumor neovasculature and its role in metastasis and angiogenesis. We used a truncated form of the Agouti-related protein (AgRP), a 4-kDa cystine-knot peptide with four disulfide bonds and four solvent-exposed loops, as a scaffold for engineering peptides that bound to α_vβ₃ integrins with high affinity and specificity. A yeast-displayed cystine-knot peptide library was generated by substituting a six amino acid loop of AgRP with a nine amino acid loop containing the Arg-Gly-Asp integrin recognition motif and randomized flanking residues. Mutant cystine-knot peptides were screened in a high-throughput manner by fluorescence-activated cell sorting to identify clones with high affinity to detergent-solubilized α_vβ₃ integrin receptor. Select integrin-binding peptides were expressed recombinantly in Pichia pastoris and were tested for their ability to bind to human cancer cells expressing various integrin receptors. These studies showed that the engineered AgRP peptides bound to cells expressing α_vβ₃ integrins with affinities ranging from 15 nM to 780 pM. Furthermore, the engineered peptides were shown to bind specifically to α_vβ₃ integrins and had only minimal or no binding to α_vβ₅, α₅β₁, and α_iibβ₃ integrins. The engineered AgRP peptides were also shown to inhibit cell adhesion to the extracellular matrix protein vitronectin, which is a naturally occurring ligand for α_vβ₃ and other integrins. Next, to evaluate whether the other three loops of AgRP could modulate integrin specificity, we made second-generation libraries by individually randomizing these loops in one of the high-affinity integrin-binding variants. Screening of these loop-randomized libraries against α_vβ₃ integrins resulted in peptides that retained high affinities for α_vβ₃ and had increased specificities for α_vβ₃ over α_iibβ₃ integrins. Collectively, these data validate AgRP as a scaffold for protein engineering and demonstrate that modification of a single loop can lead to AgRP-based peptides with antibody-like affinities for their target.     

Dexamethasone increases αvβ3 integrin expression and affinity through a calcineurin/NFAT pathway

The purpose of this study was to determine how dexamethasone (DEX) regulates the expression and activity of αvβ3 integrin. FACS analysis showed that DEX treatment induced expression of an activated αvβ3 integrin. Its expression remained high as long as DEX was present and continued following DEX removal. FACS analysis showed that the upregulation of αvβ3 integrin was the result of an increase in the expression of the β3 integrin subunit. By real time qPCR, DEX treatment induced a 6.2-fold increase (p < 0.04) in β3 integrin mRNA by day 2 compared to control and remained elevated for 6 days of treatment and then an additional 10 days once the DEX was removed. The increase in β3 integrin mRNA levels required only 1 day of DEX treatment to increase levels for 4 days in the absence of DEX. In contrast, DEX did not alter β1 integrin mRNA or protein levels. The DEX-induced upregulation of β3 integrin mRNA was partly due to an increase in its half-life to 60.7 h from 22.5 h in control cultures (p < 0.05) and could be inhibited by RU486 and cycloheximide, suggesting that DEX-induced de novo protein synthesis of an activation factor was needed. The calcineurin inhibitors cyclosporin A (CsA) and FK506 inhibited the DEX induced increase in β3 integrin mRNA. In summary, the DEX-induced increase in β3 integrin is a secondary glucocorticoid response that results in prolonged expression of αvβ3 integrin and the upregulation of the β3 integrin subunit through the calcineurin/NFAT pathway.     

Substrate effects on the mechanism of enantioselective hydrogenation using ruthenium bis(phosphine) complexes as catalyst: A mechanistic investigation of the hydrogenation of α,β-unsaturated acids and esters based on deuterium labeling studies

The mechanism of ruthenium-bis(phosphine) catalyzed enantioselective hydrogenation of olefins was examined using [Ru((R)-BINAP)(H)(MeCN)_n(sol)_3 − n]BF₄ (n = 0–3, sol = solvent used in reaction) as catalyst. Tiglic and angelic acids were used as standard α,β-unsaturated acid substrates; (Z)-methyl α-acetamidocinnamate and dimethyl itaconate were used as standard α,β-unsaturated ester substrates. Isotopic labeling studies (deuterium scrambling) indicate that two distinct mechanisms are in operation for α,β-unsaturated acids versus α,β-unsaturated esters. In each case, 5-membered metallocycle intermediates are formed via olefin-hydride insertion. The mechanisms, however, deviate primarily in the activation of dihydrogen, which is strongly affected by the nature of the substrate. Hydrogenation of α,β-unsaturated acids proceed via heterolytic cleavage of dihydrogen, whereas hydrogenation of α,β-unsaturated esters proceed via homolytic cleavage of dihydrogen. A full discussion of the mechanisms is presented.     

Synthesis and in vitro evaluation of a novel radioligand for αvβ3 integrin receptor imaging: [18F]FPPA-c(RGDfK)

The development of RGD-based antagonist of αvβ3 integrin receptor has enhanced the interest in PET probes to image this receptor for the early detection of cancer, to monitor the disease progression and the response to therapy. In this work, a novel prosthetic group (N-(4-fluorophenyl)pent-4-ynamide or FPPA) for the ¹⁸F-labeling of an αvβ3 selective RGD-peptide was successfully prepared. [¹⁸F]FPPA was obtained in three steps with a radiochemical yield of 44% (decay corrected). Conjugation to c(RGDfK(N₃)) by the Cu(II) catalyzed Huisgen azido alkyne cycloaddition provided the [¹⁸F]FPPA-c(RGDfK) with a radiochemical yield of 29% (decay corrected), in an overall synthesis time of 140 min.     

Discovery of novel dual functional agent as PPARγ agonist and 11β-HSD1 inhibitor for the treatment of diabetes

PPARγ and 11β-HSD1 are attractive therapeutic targets for type 2 diabetes. However, PPARγ agonists induce adipogenesis, which causes the side effect of weight gain, whereas 11β-HSD1 inhibitors prevent adipogenesis and may be beneficial for the treatment of obesity in diabetic patients. For the first time, we designed, synthesized a series of α-aryloxy-α-methylhydrocinnamic acids as dual functional agents which activate PPARγ and inhibit 11β-HSD1 simultaneously. The compound 11e exhibited the most potent inhibitory activity compared to that of the lead compound 2, with PPARγ (EC₅₀ = 6.76 μM) and 11β-HSD1 (IC₅₀ = 0.76 μM) in vitro. Molecular modeling study for compound 11e was also presented. Compound 11e showed excellent efficacy for lowering glucose, triglycerides, body fat, in well established mice and rats models of diabetes and obesity and had a favorable ADME profile.     

Multiple FAS1 domains and the RGD motif of TGFBI act cooperatively to bind αvβ3 integrin,leading to anti-angiogenic and anti-tumor effects

TGFBI, a transforming growth factor β-induced extracellular matrix protein, circulates at a level of ~ 300 ng/ml in humans and modulates several integrin-mediated cellular functions. The protein contains an N-terminal EMI domain, four consecutive FAS1 domains, and the RGD motif. Each FAS1 domain and the RGD motif have been known to interact with avb3 integrin. Here, we found that the binding affinity (K_d) of TGFBI for αvβ3 integrin was approximately 3.8 × 10^? 8 M, a value ~ 2300-fold higher than that of a single FAS1 domain, and demonstrated that this greater affinity was due to the cooperative action of the four FAS1 domains and the RGD motif. Moreover, TGFBI exhibited more potent anti-angiogenic and anti-tumorigenic activities, even at a 100-fold lower molar dose than the reported effective dose of the FAS1 domain. Finally, our data showed that TGFBI specifically targeted the tumor vasculature and accumulated at the tumor site. Collectively, our results support the theory that TGFBI acts as a potent endogenous anti-tumor and anti-angiogenic molecule by targeting αvβ3 integrin, and highlights the importance of physiological circulating TGFBI levels in inhibiting tumor growth.     

Engineered cystine knot peptides that bind αvβ3, αvβ5, and α5β1 integrins with low‐nanomolar affinity

There is a critical need for compounds that target cell surface integrin receptors for applications in cancer therapy and diagnosis. We used directed evolution to engineer the Ecballium elaterium trypsin inhibitor (EETI‐II), a knottin peptide from the squash family of protease inhibitors, as a new class of integrin‐binding agents. We generated yeast‐displayed libraries of EETI‐II by substituting its 6‐amino acid trypsin binding loop with 11‐amino acid loops containing the Arg‐Gly‐Asp integrin binding motif and randomized flanking residues. These libraries were screened in a high‐throughput manner by fluorescence‐activated cell sorting to identify mutants that bound to α_vβ₃ integrin. Select peptides were synthesized and were shown to compete for natural ligand binding to integrin receptors expressed on the surface of U87MG glioblastoma cells with half‐maximal inhibitory concentration values of 10–30 nM. Receptor specificity assays demonstrated that engineered knottin peptides bind to both α_vβ₃ and α_vβ₅ integrins with high affinity. Interestingly, we also discovered a peptide that binds with high affinity to α_vβ₃, α_vβ₅, and α₅β₁ integrins. This finding has important clinical implications because all three of these receptors can be coexpressed on tumors. In addition, we showed that engineered knottin peptides inhibit tumor cell adhesion to the extracellular matrix protein vitronectin, and in some cases fibronectin, depending on their integrin binding specificity. Collectively, these data validate EETI‐II as a scaffold for protein engineering, and highlight the development of unique integrin‐binding peptides with potential for translational applications in cancer. Proteins 2009. © 2009 Wiley‐Liss, Inc.     

Lobeline esters as novel ligands for neuronal nicotinic acetylcholine receptors and neurotransmitter transporters

Vesicular monoamine transporter-2 (VMAT2) is a viable target for development of pharmacotherapies for psychostimulant abuse. Lobeline (1) is a potent antagonist at α4β21 nicotinic acetylcholine receptors, has moderate affinity (K_i = 5.46 μM) for VMAT2, and is being investigated currently as a clinical candidate for treatment of psychostimulant abuse. A series of carboxylic acid and sulfonic acid ester analogs 2–20 of lobeline were synthesized and evaluated for interaction with α4β21 and α71 neuronal nicotinic acetylcholine receptors (nAChRs), the dopamine transporter (DAT), serotonin transporter (SERT) and VMAT2. Both carboxylic acid and sulfonic acid esters had low affinity at α71 nAChRs. Similar to lobeline (K_i = 4 nM), sulfonic acid esters had high affinity at α4β21 (K_i = 5–17 nM). Aromatic carboxylic acid ester analogs of lobeline (2–4) were 100–1000-fold less potent than lobeline at α4β21 nAChRs, whereas aliphatic carboxylic acid ester analogs were 10–100-fold less potent than lobeline at α4β21. Two representative lobeline esters, the 10-O-benzoate (2) and the 10-O-benzenesulfonate (10) were evaluated in the ³⁶Rb⁺ efflux assay using rat thalamic synaptosomes, and were shown to be antagonists with IC₅₀ values of 0.85 μM and 1.60 μM, respectively. Both carboxylic and sulfonic acid esters exhibited a range of potencies (equipotent to 13–45-fold greater potency compared to lobeline) for inhibiting DAT and SERT, respectively, and like lobeline, had moderate affinity (K_i = 1.98–10.8 μM) for VMAT2. One of the more interesting analogs, p-methoxybenzoic acid ester 4, had low affinity at α4β21 nAChRs (K_i = 19.3 μM) and was equipotent with lobeline, at VMAT2 (K_i = 2.98 μM), exhibiting a 6.5-fold selectivity for VMAT2 over α4β2 nAChRs. Thus, esterification of the lobeline molecule may be a useful structural modification for the development of lobeline analogs with improved selectivity at VMAT2.     

Synthesis and biological evaluation of piperlongumine derivatives as potent anti-inflammatory agents

Piperlongumine (PL) and its derivatives were synthesized by the direct reaction between acid chloride of 3,4,5-trimethoxycinnamic acid and various amides/lactams. Later their anti-inflammatory effects were evaluated in lipopolysaccharide (LPS)-induced RAW-264.7 macrophages. Of the piperlogs prepared in this study, the maximum (91%) inhibitory activity was observed with PL (IC₅₀ = 3 μM) but showed cytotoxicity whereas compound 3 (IC₅₀ = 6 μM) which possess α,β-unsaturated γ-butyrolactam moiety offered good level (65%) of activity with no cytotoxicity. This study revealed that amide/lactam moiety connected to cinnamoyl group with minimum 3 carbon chain length and α,β-unsaturation is fruitful to show potent anti-inflammatory activity.     

Amphipathic short helix-stabilized peptides with cell-membrane penetrating ability

We synthesized four types of arginine-based amphipathic nonapeptides, including two homochiral peptides, R-(l-Arg-l-Arg-Aib)₃-NH₂ (R = 6-FAM-β-Ala: FAM-1; R = Ac: Ac-1) and R-(d-Arg-d-Arg-Aib)₃-NH₂ (R = 6-FAM-β-Ala: ent-FAM-1; R = Ac: ent-Ac-1); a heterochiral peptide, R-(l-Arg-d-Arg-Aib)₃-NH₂ (R = 6-FAM-β-Ala: FAM-2; R = Ac: Ac-2); and a racemic mixture of diastereomeric peptides, R-(rac-Arg-rac-Arg-Aib)₃-NH₂ (R = 6-FAM-β-Ala: FAM-3; R = Ac: Ac-3), and then investigated the relationship between their secondary structures and their ability to pass through cell membranes. Peptides 1 and ent-1 formed stable one-handed α-helical structures and were more effective at penetrating HeLa cells than the non-helical peptides 2 and 3.     

Design,synthesis, and biological evaluation of 4-(5-nitrofuran-2-yl)prop-2-en-1-one derivatives as potent antitubercular agents

Based on stereoelectronic feature analysis using density functional theory (DFT) at B3LYP/3-211G level, a series of 4-(5-nitrofuran-2-yl)prop-2-en-1-one derivatives with low LUMO energies (<?0.10 eV); concentrated over the nitro group, furan moiety and α,β-unsaturated carbonyl bridge were envisaged as potential antitubercular agents. The target compounds were prepared by condensation of 5-nitro-2-furaldehyde with various ketones under acidic condition. The compounds were evaluated for antitubercular activity against Mycobacterium tuberculosis H37Rv and their cytotoxicity in VERO cell line. Several synthesized compounds showed good antitubercular activity of <5 μM along with low cytotoxicity. In particular, compound ((E)-3-(5-nitrofuran-2-yl)-1-(4-(piperidin-1-yl)phenyl)prop-2-en-1-one) (3v) was found to be very potent (MIC: 0.19 μM) with good selectivity index (MIC₉₀/CC₅₀: >1800). Thus, this study shows the potential of stereoelectronic property analysis in developing improved nitroaromatics as antitubercular agents.     

Expanding the pharmacological profile of κ-hefutoxin 1 and analogues: A focus on the inhibitory effect on the oncogenic channel Kv10.1

Peptide toxins, such as scorpion peptides, are interesting lead compounds in the search for novel drugs. In this paper, the focus is on the scorpion peptide κ-hefutoxin 1. This peptide displays a cysteine-stabilized helix-loop-helix fold (CSα/α) and is known to be a weak K_v1.x inhibitor. Due to the low affinity of κ-hefutoxin 1 for these channels, it is assumed that the main target(s) of κ-hefutoxin 1 remain(s) unknown. In order to identify novel targets, electrophysiological measurements and antifungal assays were performed. The effect of κ-hefutoxin 1 was previously evaluated on a panel of 11 different voltage-gated potassium channels. Here, we extended this target screening with the oncogenic potassium channel K_v10.1. κ-Hefutoxin 1 was able to inhibit this channel in a dose-dependent manner (IC₅₀ ∼ 26 μM). Although the affinity is rather low, this is the first peptide toxin ever described to be a K_v10.1 inhibitor. The structure-activity relationship of κ-hefutoxin 1 on K_v10.1 was investigated by testing eight κ-hefutoxin 1 variants using the two-electrode voltage clamp technique. Several important amino acid residues were identified; the functional dyad residues (Tyr⁵ and Lys¹⁹), N-terminal residues (Gly¹ and His²) and the amidated C-terminal residue (Cys²²). Since the CSα/α fold is also found in a class of antifungal plant peptides, the α-hairpinines, we investigated the antifungal activity of κ-hefutoxin 1. κ-Hefutoxin 1 showed low activity against the plant pathogen Fusarium culmorum and no activity against three other yeast and fungal species, even at high concentrations (∼100 μM).     

Identification of dihydrostilbenes in Pholidota chinensis as a new scaffold for GABAA receptor modulators

A dichloromethane extract of stems and roots of Pholidota chinensis (Orchidaceae) enhanced GABA-induced chloride currents (IGABA) by 132.75 ± 36.69% when tested at 100 μg/mL in a two-microelectrode voltage clamp assay, on Xenopus laevis oocytes expressing recombinant α₁β₂γ_2S GABA_A receptors. By means of an HPLC-based activity profiling approach, the three structurally related stilbenoids coelonin (1), batatasin III (2), and pholidotol D (3) were identified in the active fractions of the extract. Dihydrostilbene 2 enhanced I_GABA by 1512.19 ± 176.47% at 300 μM, with an EC₅₀ of 52.51 ± 16.96 μM, while compounds 1 and 3 showed much lower activity. The relevance of conformational flexibility for receptor modulation by stilbenoids was confirmed with a series of 13 commercially available stilbenes and their corresponding semisynthetic dihydro derivatives. Dihydrostilbenes showed higher activity in the oocyte assay than their corresponding stilbenes. The dihydro derivatives of tetramethoxy-piceatannol (12) and pterostilbene (20) were the most active among these derivatives, but they showed lower efficiencies than compound 2. Batatasin III (2) showed high efficiency but no significant subunit specificity when tested on the receptor subtypes α₁β₂γ_2s, α₂β₂γ_2s, α₃β₂γ_2s, α₄β₂γ_2s, α₅β₂γ_2s, α₁β₁γ_2s, and α₁β₃γ_2s. Dihydrostilbenes represent a new scaffold for GABA_A receptor modulators.     

Synthesis and characterization of a fluorescent probe for α-tocopherol suitable for fluorescence microscopy

Previously prepared fluorescent derivatives of α-tocopherol have shown tremendous utility in both in vitro exploration of the mechanism of ligand transfer by the α-tocopherol transfer protein (α-TTP) and the intracellular transport of α-tocopherol in cells and tissues. We report here the synthesis of a 4,4-difluoro-4-bora-3a,4a-diaza-s-indacene (BODIPY) containing α-tocopherol analog having extended conjugation with an alkenyl thiophene group that extends the absorption and emission maxima to longer wavelengths (λ_ex = 571 nm and λ_em = 583 nm). The final fluorophore thienyl-ene-BODIPY-α-tocopherol, 2, binds to recombinant human α-TTP with a K_d = 8.7 ± 1.1 nM and is a suitable probe for monitoring the secretion of α-tocopherol from cultured Mcf7#189 cells.     

Active immunization against inhibin-based peptides to increase ovulation rate in non-prolific Malpura ewes

The aim of this study was to explore the possibility of increasing the ovulation rate of Malpura, a non-prolific tropical breed of sheep by immunization against inhibin-based peptide immunogens. Ewes were divided into three groups (n = 5 each) and actively immunized against the synthetic peptides from the α_C [bIα(1–29)-Tyr³⁰] or α_N [bI-₄₃-Tyr¹⁵²(153–167)Cys¹⁶⁸] area of the bovine inhibin α-subunit conjugated to ovalbumin or against ovalbumin (control). Each ewe received a primary immunization of 400 μg immunogen and 3 boosters, each of 200 μg immunogen at 4-week intervals. Estrus was synchronized using a double PGF₂α injection schedule and laparoscopy was performed after each estrus to determine the ovulation response. Immunization against both the peptides did not affect the interval from PGF treatment to the onset of estrus, the duration of estrus and the number of large unovulated follicles. In contrast to the complete absence of multiple ovulations in the controls, all the ewes immunized against α_C or α_N peptides showed multiple ovulations (range 2–7) in all the three estrous cycles evaluated, except for one ewe immunized against the α_N peptide, which exhibited multiple ovulations in only 1 out of the 3 estrous cycles. Compared to that of the controls (1.0 ± 0.9, 1.0 ± 0.0 and 0.6 ± 0.2, respectively), the mean ovulation rate was higher (P < 0.01) in the ewes immunized against the αC (4.8 ± 1.02, 5.0 ± 1.05 and 5.0 ± 0.45, respectively) or against αN (4.5 ± 1.19, 2.5 ± 0.87 and 2.7 ± 0.75, respectively, P < 0.05) peptide in estrous cycles numbers 1, 2 and 3. These results show that active immunization against inhibin-based peptide immunogens is effective in increasing ovulation rate in Malpura, a non-prolific breed of sheep and that it may be an alternative to conventional superovulation regimes.