Group-Specific Antibodies against Zearalenone and Its Metabolites and Synthetic Analogs

Formation kinetics, specificity, and analytical potential of polyclonal antibodies raised in rabbits against BSA conjugates of zearalanone carboxymethyloxime (CMO-ZAN) and zearalenone carboxymethyloxime (CMO-ZEN) have been studied. Preparation of the conjugates involved conversion of CMO-ZAN and CMO-ZEN into activated esters or carbodiimide condensation. Two versions of a group-specific enzyme immunoassay (for zearalenone/-zearalenol and zearalanone/-zearalanol) based on the heterologous combination of solid-phase antigens are described (sensitivity, 0.01 ng/ml).     

Fibroblast aggregation by suspension with conjugates of poly(ethylene glycol) and RGD

Cell aggregates may be useful components of artificial organs and mammalian cell bioreactors, but many cells do not naturally aggregate. In a previous report,(4) we described a method for promoting neural cell aggregation by addition of water-soluble conjugates of cell adhesion peptides, containing the three amino acid sequence Arg-Gly-Asp (RGD), and poly(ethylene glycol) (PEG). Here, we examined the mechanism of conjugate-induced aggregation using fibroblasts and a variety PEG-peptide conjugates. Aggregation was monitored during rotation culture of fibroblasts in the presence of unconjugated GRGDY and PEG; monofunctional (PEG-GRGDY) and bifunctional (GRGDY-PEG-GRGDY) conjugates; and bifunctional conjugates produced with a similar, but non-cell-binding, peptide (GRGEY-PEG-GRGEY). GRGDY-PEG-GRGDY conjugates induced rapid and pronounced fibroblast aggregation that was dose-dependent; at the highest concentration tested (5 mg/mL GRGDY-PEG-GRGDY), cell aggregates were produced more quickly ( approximately 1 h) and were significantly larger at 24 h (mean radius approximately 66 mum) than at slightly lower concentrations (1.7 and 3.3 mg/mL). Aggregation with GRGDY-PEG-GRGDY was completely inhibited by dissolved GRGDY (1.7 mg/mL). Neither unmodified GRGDY, unmodified PEG, PEG-GRGDY, nor GRGEY-PEG-GRGEY conjugates led to significant aggregation. The extent of aggregation depended on PEG molecular weight: conjugates with 3400 M(w) PEG produced aggregates with significantly larger mean radius than conjugates with 20,000 M(w) PEG. When 1N-8A fibroblasts, genetically engineered to produce recombinant nerve growth factor (NGF), were aggregated with GRGDY-PEG-GRGDY, aggregated cells produced more NGF per cell than nonaggregated cells. Aggregation of cells may lead to improved cell function, such as the increase in NGF production observed here, which could be useful in large-scale cell culture and construction of artificial organs or tissue transplants for tissue engineering. (c) 1996 John Wiley & Sons, Inc.     

Synthesis and biological activity of novel platinum(II) complexes of glutamate tethered to hydrophilic hematoporphyrin derivatives

A new series of hematoporphyrin-platinum(II) conjugates was prepared by platination of the glutamate ligand tethered to hydrophilic hematoporphyrin derivatives, in which different numbers of ethylene oxide unit were introduced to modulate the hydrophobic/hydrophilic balance of the conjugates. The antitumor activity of the hematoporphyrin-platinum(II) conjugates was assayed in vitro and in vivo against the leukemia L1210 cell line. Among the complexes, compound 11 exhibited not only higher in vivo activity (T/C% = 192) than cisplatin (T/C% = 184) and carboplatin (T/C% = 168), but also elevated tumor-localizing effect (tumor/muscle ratio > 3).     

Enhancement of immunotoxin efficacy by acid-cleavable cross-linking agents utilizing diphtheria toxin and toxin mutants

We have utilized a new class of acid-cleavable protein cross-linking reagents in the construction of antibody-diphtheria toxin conjugates (Srinivaschar, K., and Neville, D. M., Jr. (1989) Biochemistry 28, 2501-2509). The potency of anti-CD5 conjugates assayed by inhibition of protein synthesis on CD5 bearing cells (Jurkat) is correlated with cross-linker hydrolytic rates. The maximum increase in potency of the cleavable conjugates over non-cleavable conventional conjugates is 50-fold and is specific for the CD5 uptake route as judged by competition with excess anti-CD5. The potency of conjugates made from diphtheria toxin and the anti-high molecular weight melanoma-associated antigen (HMW-MAA) is enhanced 3-10-fold by a cleavable cross-linker. However the potency of transferrin or anti-CD3 diphtheria toxin conjugates is only minimally enhanced (2-3-fold). Mutant diphtheria toxins, CRM103 and CRM9, previously shown to express less than 1/100 of the wild type in binding affinity were substituted into these conjugates as probes for possible intracellular toxin receptor interactions. Both mutants were equally as toxic to Jurkat target cells exhibiting 1/700 the wild-type potency. CRM9 non-cleavable conjugates were equally as potent as wild-type conjugates for transferrin and anti-CD3-mediated uptake but not for anti-CD5-mediated uptake where toxicity was reduced 60-fold over the wild-type analog. The cleavable cross-linker enhanced the toxicity of anti-CD5-CRM103 and anti-CD5-CRM9 conjugates, but potency was only 1/10 that of the analogous wild-type cleavable conjugate. These data are consistent with a model in which potentiation of toxicity of the anti-CD5 and anti-high molecular weight melanoma-associated antigen conjugates by the cleavable cross-linker occurs from an enhanced intracellular toxin-toxin receptor interaction that ultimately results in increased toxin translocation to the cytosol compartment. In contrast, these data indicate that the anti-CD3 and transferrin uptake systems do not require this interaction in agreement with previous work (Johnson, V.G., Wilson, D., Greenfield, L., and Youle, R. J. (1988) J. Biol. Chem. 263, 1295-1300).     

Using small-angle neutron scattering to study the solution conformation of N-(2-hydroxypropyl)methacrylamide copolymer-doxorubicin conjugates

Our past research developed two N-(2-hydroxypropyl)methacrylamide (HPMA) copolymer-doxorubicin (Dox) conjugates that became the first synthetic polymer-anticancer conjugates to be evaluated clinically. The first, FCE28068, contained Dox bound to the polymeric carrier via a tetrapeptidic linker (glycine-phenylalanine-leucine-glycine (GFLG)) (Mw approximately 30,000 g/mol; approximately 8 wt % drug), and the second, FCE28069, contained additionally galactosamine (Gal) (Mw approximately 30,000 g/mol; approximately 7.5 wt % Dox) again bound by a GFLG linker. Galactosamine was included to promote hepatocyte/hepatoma targeting via the asialoglycoprotein receptor. Both conjugates showed antitumor activity and were clinically less toxic than free Dox (2-5 fold). However, despite their similar chemical characteristics, the conjugates displayed a significantly different maximum-tolerated dose (MTD) in patients. The aim of this study, therefore, was to use small-angle neutron scattering (SANS) to explore the solution behavior of a small library of HPMA polymer conjugates including FCE28068, FCE28069, and their pharmaceutical formulations, plus as reference compounds HPMA copolymer-GFLG conjugates containing aminopropanol (Ap) or galactosamine (Gal) alone (i.e., without Dox). The SANS data obtained showed that HPMA copolymer-GFLG-Ap conjugates (containing 5 and 10 mol % side chains) showed evidence of polymer aggregation, however, no indication of aggregation was observed for FCE28068 and FCE28069 over the concentration range studied (2.5-50 mg/mL). Clear differences in the scattering behavior for the two conjugates were observed at equivalent concentration. Data were best fitted by a model for polydisperse Gaussian coils, and the HPMA copolymer-Dox conjugate with Gal (FCE28069) exhibited a larger radius of gyration (Rg) (by approximately 2.5 nm) compared to FCE28068. In conclusion, we have shown that SANS will be a valuable tool to elucidate conformation-performance relationships for polymer-drug conjugates.     

PEG-doxorubicin conjugates: influence of polymer structure on drug release, in vitro cytotoxicity, biodistribution, and antitumor activity

Polymer-drug conjugates (polymer therapeutics) are finding increasing use as novel anticancer agents. Here a series of poly(ethylene glycol) PEG-doxorubicin (Dox) conjugates were synthesized using polymers of linear or branched architecture (molecular weight 5000-20000 g/mol) and with different peptidyl linkers (GFLG, GLFG, GLG, GGRR, and RGLG). The resultant conjugates had a drug loading of 2.7-8.0 wt % Dox and contained <2.0% free drug (% total drug). All conjugates containing a GFLG linker showed approximately 30% release of Dox at 5 h irrespective of PEG molecular weight or architecture. The GLFG linker was degraded more quickly (approximately 57% Dox release at 5 h), and the other linkers more slowly (<16% release at 5 h), by lysosomal enzymes in vitro. In vitro there was no clear relationship between cytotoxicity toward B16F10 cells and the observed Dox release rate. All PEG conjugates were more than 10-fold less toxic (IC50 values > 2 microg/mL) than free Dox (IC50 value = 0.24 microg/mL). Biodistribution in mice bearing sc B16F10 tumors was assessed after administration of PEGs (5000, 10000, or 20000 g/mol) radioiodinated using the Bolton and Hunter reagent or PEG-Dox conjugates by HPLC. The 125I-labeled PEGs showed a clear relationship between Mw and blood clearance and tumor accumulation. The highest Mw PEG had the longest plasma residence time and consequently the greatest tumor targeting. The PEG-Dox conjugates showed a markedly prolonged plasma clearance and greater tumor targeting compared to free Dox, but there was no clear molecular weight-dependence on biodistribution. This was consistent with the observation that the PEG-Dox conjugates formed micelles in aqueous solution comprising 2-20 PEG-Dox molecules depending on polymer Mw and architecture. Although PEG-Dox showed greater tumor targeting than free Dox, PEG conjugation led to significantly lower anthracycline levels in heart. Preliminary experiments to assess antitumor activity against sc B16F10 in vivo showed the PEG5000linear (L)-GFLG-Dox and PEG10000branched (B)-GLFG-Dox (both 5 mg/kg Dox-equiv) to be the most active with T/C values of 146 and 143%, respectively. Free Dox did not show significant activity in this model (T/C = 121%). Dose escalation of PEG5000(L)-GFLG-Dox to 10 mg/kg Dox-equiv prolonged further animal survival (T/C = 161%). Using the Dox-sensitive model ip L1210 (where Dox displayed a T/C = 150% after single ip dose), the PEG5000(L)-GFLG-Dox displayed a maximum T/C of 141% (10 mg/kg Dox-equiv) using a once a day (x3) schedule. Further studies are warranted with PEG5000(L)-GFLG-Dox to determine its spectrum of antitumor activity and also the optimum dosing schedule before clinical testing.     

Monitoring ovarian function and pregnancy by evaluating excretion of urinary oestrogen conjugates in semi-free-ranging Przewalski's horses (Equus przewalskii).

Immunoreactive urinary oestrogen conjugates were assessed in daily urine samples (approximately 5 samples/week) collected from 8 Przewalski's mares maintained under semi-free-ranging pasture conditions. The relative percentage contributions of immunoreactive urinary oestrogens during different reproductive stages (oestrus, luteal phase, early, mid- and late gestation) were determined using high-pressure liquid chromatography. In general, conjugated forms of oestrone (oestrone sulphate and oestrone glucuronide) were the major excreted immunoreactive oestrogens in nonpregnant and pregnant Przewalski's mares. Variations in urinary oestrogen conjugates indicated that the onset of oestrous cyclicity coincided with increasing daylengths, and the non-conception oestrous cycle was 24.1 +/- 0.7 days (n = 17) in duration. Most copulations (29/35, 82.9%) were observed between Day -4 and Day +1 from the preovulatory oestrogen conjugates peak (Day 0). Based on known copulation dates, the mean gestation length was 48.6 +/- 0.4 weeks (range 47.3-50.3 weeks). During pregnancy, urinary excretion of oestrogen conjugates increased approximately 300-fold over levels in non-pregnant mares, reaching peak concentrations by Week +24 (51% of gestation). These results demonstrate that longitudinal reproductive events, including oestrous cyclicity and pregnancy, can be monitored precisely by evaluating urinary oestrogen conjugates in samples from Przewalski's mares maintained under semi-free-ranging conditions.     

Immunologic and pharmacologic activity of atropine-protein conjugates

The immunological (production of specific antibodies to hapten) and pharmacological activity of bovine serum albumin conjugates with different chemical modifications of atropine was investigated. Mice and rabbits treated with atropine-protein conjugates (1-10 mg/kg) have produced a considerable number of specific serum antibodies to hapten during primary and secondary immune response. Mice treated with atropine-protein conjugates (25 and 50 mg/kg) have produced undetectable amounts of specific serum antibodies. The study of pharmacological activity in mice has revealed peripheral activity of atropine-protein conjugates. There was a correlation between the pharmacological activity of atropine-protein conjugates (25-50 mg/kg) and the activity of atropine (5 mg/kg), however the pharmacological effect of atropine-protein conjugates was somewhat longer. The results suggest that atropine-protein conjugates are both immunologically and pharmacologically active compounds.     

Targeted destruction of prostate cancer cells and xenografts by lytic peptide-betaLH conjugates

In series of experiments conducted in vitro, we have established the concept that conjugates of the lytic peptides Hecate or Phor14 with a fragment of the beta chain of LH (amino acids 80-94) selectively destroy both androgen sensitive and insensitive human prostate cancer cells. Extraction of steroids from the culture medium by charcoal reduced the ability of the conjugates to kill LNCaP, BRF41T and PC-3 cells. Addition of hormones known to up-regulate LH receptors (estradiol, testosterone or FSH) to the culture medium restored the ability of the conjugates to kill these cell lines. The toxicity of the conjugates (EC(50)) to these cell lines was closely correlated to their LH binding capacities (f mol/10(6) cells). In series of in vivo experiments we have shown that both the Hecate and Phor14-betaLH conjugates are remarkably effective in causing tumor cell necrosis and cessation of tumor growth in nude athymic mice. Treatment with Hecate-betaLH (12 mg/kg body weight) resulted in a reduction of tumor burden (mg tumor/g body weight) from 60 to 14 (P<0.0001); treatment with Phor14-betaLH (12 mg/kg body weight) reduced tumor burden to 27 mg (P<0.0001). Treatment with a high dose of Phor14-betaLH (24 mg/kg body weight) reduced the tumor burden from 60 to 12 mg/kg P<0.0001). Pretreatment of animals receiving a low dose of Phor14-betaLH (12 mg/kg) with either estradiol or follicle stimulating hormone, (FSH) resulted in reduction of tumor burden from 60 to 11 mg/kg. Administration of a second 3-week treatment after a one month recovery period caused complete regression of more than 75 percent of the tumors. No changes in body weight or histological abnormalities were found in any of the organs examined, except the testes.     

99mTc-labeling and in vitro and in vivo evaluation of HYNIC- and (Nalpha-His)acetic acid-modified [D-Glu1]-minigastrin

Gastrin/CCK-2 receptors are overexpressed in a number of tumors such as medullary thyroid cancer (MTC) and small cell lung cancer (SCLC). Recently [D-Glu1]-minigastrin (MG) has been radiolabeled with 131I, 111In, and 90Y and evaluated in patients. This study describes the labeling and evaluation of MG with technetium-99m using two different labeling approaches: HYNIC as bifunctional coupling agent and (Nalpha-His)Ac as tridentate ligand for 99mTc(CO3) labeling. Labeling was perfomed at high specific activities using Tricine and EDDA as coligands for HYNIC-MG and [99mTc(OH2)3(CO)3]+ for (Nalpha-His)Ac-MG. Stability experiments were carried out by reversed phase HPLC analysis in PBS, serum, histidine, and cysteine solutions, as well as rat liver and kidney homogenates. Receptor binding and internalization experiments were performed using CCK-2 receptor positive AR42J rat pancreatic tumor cells. Biodistribution experiments were carried out in nude mice carrying AR42J tumors by injection of 99mTc-labeled peptide with or without coinjection of 50 microg of minigastrin I human (MGh). HYNIC-MG and (Nalpha-His)Ac-MG could be radiolabeled at high specific activities (>1 Ci/micromol). For HYNIC-MG, high labeling yields (>95%) were achieved using Tricine and EDDA as coligands. Stability experiments of all 99mTc-labeled conjugates revealed a high stability of the label in PBS and serum as well as toward challenge with histidine and cysteine. Incubation in kidney homogenates resulted in a rapid degradation of all conjugates with <10% intact peptide after 60 min at 37 degrees C, with no considerable differences between the radiolabeled conjugates; a somewhat lower degradation rate was seen in liver homogenates. Protein binding varied considerably with lowest levels for 99mTc-EDDA/HYNIC-MG. Competition experiments of unlabeled conjugates on AR42J membranes versus [125I-Tyr12]-gastrin I showed high CCK-2 receptor affinity for all conjugates under study. Internalization behavior was very rapid for all radiolabeled conjugates in the order of 99mTc-(Nalpha-His)Ac-MG > 99mTc-EDDA/HYNIC-MG > 99mTc-Tricine/HYNIC-MG. In tumor-bearing nude mice the highest tumor-uptake was observed with 99mTc-EDDA/HYNIC-MG (8.1%ID/g) followed by 99mTc-Tricine/HYNIC-MG (2.2%ID/g) and 99mTc-(Nalpha-His)Ac-MG (1.2%ID/g) which correlated with kidney uptake (101.0%ID/g, 53.8%ID/g, 1.8%ID/g respectively). In this series of compounds 99mTc-EDDA/HYNIC-MG with its very high tumor/organ ratios except for kidneys seems to be the most promising agent to target CCK-2 receptors. Despite promising properties concerning receptor binding, internalization, and in vitro stability, 99mTc-(Nalpha-His)Ac-MG showed low tumor uptake in vivo.     

N-(2-hydroxypropyl)methacrylamide copolymer-6-(3-aminopropyl)-ellipticine conjugates. Synthesis, in vitro, and preliminary in vivo evaluation

Ellipticine derivatives have potential as anticancer drugs. Their clinical use has been limited, however, by poor solubility and host toxicity. As N-(2-hydroxypropyl)methacrylamide (HPMA) copolymer-anticancer conjugates are showing promise in early clinical trials, a series of novel HPMA copolymer conjugates have been prepared containing the 6-(3-aminopropyl)-ellipticine derivative (APE, NSC176328). Drug was linked to the polymer via GFLG or GG peptide side chains. To optimize biological behavior, HPMA copolymer-GFLG-APE conjugates with different drug loading (total APE: 2.3-7% w/w; free APE: <0.1% w/w) were synthesized. Conjugation of APE to HPMA copolymers considerably increased its aqueous solubility (>10-fold). HPMA copolymer-GG-APE did not liberate drug in the presence of isolated lysosomal enzymes (tritosomes), but HPMA copolymer-GFLG-APE released APE to a maximum of 60% after 5 h. The rate of drug release was influenced by drug loading; lower loading led to greater release. Whereas free APE (35 microg/mL) caused significant hemolysis (50% after 1 h), HPMA copolymer-APE conjugates were not hemolytic up to 300 microg/mL (APE-equiv). As would be expected from its cellular pharmacokinetics, HPMA copolymer-GFLG-APE was >75 times less cytotoxic than free drug (IC(50) approximately 0.4 microg/mL) against B16F10 melanoma in vitro. However, in vivo when tested in mice bearing s.c. B16F10 melanoma, HPMA copolymer-GFLG-APE (1-10 mg/kg single dose, APE-equiv) given i.p. was somewhat more active (highest T/C value of 143%) than free APE (1 mg/kg) (T/C =127%). HPMA copolymer-APE conjugates warrant further evaluation as potential anticancer agents.     

In vitro and in vivo gene transfer by an optimized alpha-cyclodextrin conjugate with polyamidoamine dendrimer

The purpose of the present study is to optimize the structure of the polyamidoamine starburst dendrimer (dendrimer) conjugate with alpha-cyclodextrin (alpha-CDE conjugate) as a nonviral vector. alpha-CDE conjugates of dendrimer (generation 3, G3) with various average degrees of substitution (DS) of alpha-CyD of 1.1, 2.4, and 5.4 were prepared. alpha-CDE conjugates formed the complexes with pDNA, resulting in a change of the particle sizes of pDNA complexes, but the distinction of physicochemical properties among their vector/pDNA complexes was only very slight. The membrane-disruptive ability of alpha-CDE conjugates on liposomes encapsulating calcein and their cytotoxicity to NIH3T3 and HepG2 increased with an increase in the DS value of alpha-CyD. In vitro gene transfer activity of alpha-CDE conjugates in both NIH3T3 and HepG2 cells augmented as the charge ratio (vector/pDNA) increased, and the activity of alpha-CDE conjugate (DS 2.4) was the highest at higher charge ratios among dendrimer (G3), the three alpha-CDE conjugates, and TransFast. After intravenous administration of pDNA complexes in mice, alpha-CDE conjugate (DS 2.4) delivered pDNA more efficiently in spleen, liver, and kidney, compared with dendrimer and other alpha-CDE conjugates (DS 1.1 and 5.4). The potential use of alpha-CDE conjugate (G3, DS 2.4) could be expected as a nonviral vector in vitro and in vivo, and these data may be useful for design of alpha-CyD conjugates with other nonviral vectors.     

Synthesis and antiproliferative activity of novel steroidal dendrimer conjugates

We describe the synthesis of steroidal dendrimer conjugates of first and second generation with tetramethylene core and 5-hydroxy-isophtalic acid dimethyl ester as branching unit modified to incorporate ethynylestradiol or 17α-estradiol as terminal units. The steroidal dendrimer conjugates, the free drug (steroids) and dendrimer were tested against a panel of cancer cell lines (CEM, MCF7, HeLa) and normal human fibroblast (BJ). The steroidal dendrimer conjugates of first generation exhibited cytotoxic activity and induced apoptosis in chronic leukemia (CEM) as resultant activation of caspase cascade which is mainly provoked in G2/M arrested cells.     

Changes of free and conjugated abscisic acid and phaseic acid in xylem sap of drought-stressed sunflower plants

Abscisic acid (ABA), conjugated abscisic acid, phaseic acid (PA), and conjugated phaseic acid were determined by enzyme-linked immunosorbent assay (ELISA) and gas chromatography (GC) in xylem sap of well-watered and drought-stressed sunflower plants. Conjugated ABA and conjugated PA were determined indirectly after chemical or enzymatic hydrolysis. Conjugated ABA was found to be the predominant ABA metabolite in xylem sap. In xylem sap from well-watered plants at least five, and in sap from drought-stressed plants at least six alkaline hydrolysable ABA conjugates were found. One of them corresponds chromatographically (HPLC) with abscisic acid glucose ester (ABAGE). Under drought conditions the concentrations of ABA, alkaline hydrolysable ABA conjugates, -glucosidase hydrolysable ABA conjugates, PA, and conjugated PA increased. After rewatering the drought-stressed plants, the ABA and the conjugated ABA content decreased. The possible function of the ABA conjugates in the xylem sap as a source of free ABA is discussed.     

生物法合成伤寒O-糖蛋白结合疫苗及其免疫原性评估

伤寒由伤寒沙门氏菌(Salmonella Typhi)引发,至今在发展中国家仍是备受关注的重要公共卫生问题。文章通过敲除伤寒菌脂多糖合成途径中O-抗原连接酶基因,转入含脑膜炎奈瑟球菌(Neisseria meningitidis)蛋白糖基化途径中糖基转移酶的表达载体,以及改构的重组铜绿假单胞菌(Pseudomonas Aeruginosa)外毒素A(rEPA_N29)的表达载体,使细胞内能够诱导合成以伤寒O特异性多糖(O-specific polysaccharides, OPS)为目标抗原、以rEPA_N29为载体蛋白的伤寒OPS-rEPA_N29糖蛋白复合物,并对纯化所得复合物进行了免疫原性评价。ELISA测定血清抗体滴度表明,rEPA_N29作为载体蛋白能有效增加糖链的免疫原性,糖蛋白比单独的多糖能诱导产生更好的免疫应答;3次免疫、间隔3周比间隔2周IgG滴度稍有提高;而免疫过量的糖蛋白,抗O-多糖的血清抗体效价并无提升。文章为生物法制备多糖-蛋白结合疫苗提供了新思路,理论上也适用于其他革兰氏阴性菌的疫苗研发。     

Binding of different antigen-enzyme and antibody-enzyme conjugates by intracellular antibodies in cytoplasm and Golgi complex of plasma cells

Summary Intracellular immunoglobulins in plasma cells were characterized by antigen-enzyme conjugates and anti-immunoglobulin antibody-enzyme conjugates applied in a double immunocytochemical approach. After their assemblage, immunoglobulins in the cytoplasm of anti-TNP antibody producing plasma cells can be demonstrated both by TNP-enzyme conjugates and by anti-immunoglobulin ( or chain specific) antibody-enzyme conjugates. Once arrived in the Golgi complex (GC) detection with TNP-enzyme conjugates remains possible, but anti-immunoglobulin antibody-enzyme conjugates did not bind to a detectable degree. Similar results were obtained in experiments where immunoglobulin-enzyme conjugates were used both as an antigen-enzyme conjugate and as an antibody-enzyme conjugate.     

Porphyrin-retinamides: synthesis and cellular studies

A series of four porphyrin-retinamides containing either all-trans- or 13-cis-retinoid acid residues, directly linked to the para-phenyl position of meso-tetraphenylporphyrin or via a low-molecular-weight PEG spacer, have been synthesized. The biological properties of these conjugates were evaluated in a model cell line, human HEp2, and in neuroblastoma SK-N-DZ cells, which exhibit moderate expression of retinoic acid receptors and retinoic acid-induced differentiation. The directly linked porphyrin-retinamides were taken up by a greater extent (20-50% more) in SK-N-DZ than in HEp2 cells. However, the PEG-containing conjugates accumulated maximally within both cell lines and approximately by the same amount, probably due to their increased amphiphilicity. Among all conjugates, the porphyrin-PEG-13-cis-retinamide accumulated the most in both cell lines (about 5 times more than the non-pegylated conjugates). None of the porphyrin-retinamide conjugates were toxic toward HEp2 cells at concentrations up to 100 microM, and only the hydrophobic non-pegylated conjugates were moderately toxic to SK-N-DZ cells [IC50 (dark) = 56-92 microM, and IC50 (at 1 J/cm2) = 6-8 microM]. All conjugates preferentially localized within cellular vesicles that correlated well to the lysosomes and, in addition, the PEG-containing porphyrin-retinamides were also found in the ER.     

Template-directed formation of luminescent lanthanide complexes: versatile tools for colorimetric identification of single nucleotide polymorphism

We present the facile technique of colorimetric SNP (single nucleotide polymorphism) analysis through DNA-templated cooperative complexation between a luminescent lanthanide ion (Ln(III): Tb(III) or Eu(III)) and two ODN (oligodeoxyribonucleotide) conjugates carrying a metal chelator. Families of complexane-type chelators and heterocyclic aromatic ligands were covalently attached to ODNs to form conjugates for application as capture and sensitizer probes. The sequences of the conjugates were designed so as to form a ternary tandem duplex with the target, where their auxiliary units face each other, providing a microenvironment to accommodate Ln(III). Only the combination of EDTA (ethylenediaminetetraacetic acid) conjugates and phen (1,10-phenanthroline) conjugates provided significant emissions with quantum yields of 3.3% and 1.5% for Tb(III) and Eu(III), respectively, in the presence of the target. Biallelic polymorphism in the TPMT (thiopurine S-methyltransferase) gene, wt/wt (G/G), mut/mut (C/C), and wt/mut (G/C), were distinguished as emissions in green, red, and yellow, respectively; the colors were identified even by the naked eye.     

Synthesis and antituberculosis activity of the derivatives of glycoside steviolbioside from the plant Stevia rebaudiana and diterpenoid isosteviol containing hydrazone, hydrazide and pyridinoyl moieties

Conjugates of antitubercular drug Isoniazid (hydrazide of isonicotinic acid), nicotinic and alpha-picolinic acid hydrazides and glycoside steviolbioside from the plant Stevia rebaudiana as well as the product of its acid hydrolysis, diterpenoid isosteviol, were synthesized. Besides, isosteviol hydrazide and hydrazone derivatives as well as conjugates containing two isosteviol moieties connected by dihydrazide linker were also obtained. Both initial compounds and their synthetic derivatives inhibit the growth of Mycobacterium tuberculosis (H37Rv in vitro). The minimum concentration at which the growth of M. tuberculosis was inhibited by 100% (MIC) for stevioside and steviolbioside equals 7.5 and 3.8 microg/mL, respectively. MIC values for conjugates of the hydrazides of pyridine carbonic acids and steviolbioside as well as isosteviol are in the ranges 5-10 and 10-20 microg/mL, respectively. Maximum inhibitory effect against M. tuberculosis showed the conjugates of isosteviol and adipic acid dihydrazide (MIC values ranged from 1.7 to 3.1 microg/mL). Antitubercular activity of the compounds studied is higher than the activity of antitubercular drug Pyrizanamide (MIC = 12.5-20 microg/mL) but lower than the activity of antitubercular drug Isoniazid (MIC = 0.02-0.04 microg/mL).     

Cellular uptake and biological activity of peptide nucleic acids conjugated with peptides with and without cell‐penetrating ability

A 12‐mer peptide nucleic acid (PNA) directed against the nociceptin/orphanin FQ receptor mRNA was disulfide bridged with various peptides without and with cell‐penetrating features. The cellular uptake and the antisense activity of these conjugates were assessed in parallel. Quantitation of the internalized PNA was performed by using an approach based on capillary electrophoresis with laser‐induced fluorescence detection (CE‐LIF). This approach enabled a selective assessment of the PNA moiety liberated from the conjugate in the reducing intracellular environment, thus avoiding bias of the results by surface adsorption. The biological activity of the conjugates was studied by an assay based on the downregulation of the nociceptin/orphanin FQ receptor in neonatal rat cardiomyocytes (CM). Comparable cellular uptake was found for all conjugates and for the naked PNA, irrespective of the cell‐penetrating properties of the peptide components. All conjugates exhibited a comparable biological activity in the 100 nM range. The naked PNA also exhibited extensive antisense activity, which, however, proved about five times lower than that of the conjugates. The found results suggest cellular uptake and the bioactivity of PNA‐peptide conjugates to be not primarily related to the cell‐penetrating ability of their peptide components. Likewise from these results it can be inferred that the superior bioactivity of the PNA‐peptide conjugates in comparison with that of naked PNA rely on as yet unknown factors rather than on higher membrane permeability. Several hints point to the resistance against cellular export and the aggregation propensity combined with the endocytosis rate to be candidates for such factors. Copyright © 2009 European Peptide Society and John Wiley & Sons, Ltd.