Affinity enhancement bivalent morpholinos for pretargeting: surface plasmon resonance studies of molecular dimensions

Bivalent effectors have been reported to provide superior pretargeting by affinity enhancement. We recently reported that one bivalent MORF (phosphorodiamidate morpholino, a DNA analogue oligomer) exhibited affinity enhancement (ratio of bivalent to monovalent equilibrium constants for binding) to immobilized complementary DNA (cDNA) by surface plasmon resonance (SPR). Because bivalent effectors using oligomers are easily synthesized with molecular spacing between binding sites, an important determinant of binding, adjustable simply by selecting linkers of different dimensions and/or lengthening or shortening the oligomer chain length, they may have advantages over existing bivalent effectors. We synthesized four bivalent MORFs with different dimensions between binding sites and measured binding affinities and affinity enhancement by SPR. An 18 mer (MORF18) was made bivalent by dimerizing both with disuccinimidyl suberate (DSS) and disuccinimidyl glutarate (DSG) linkers. By again using DSS but adding seven nonbinding adenine bases and by eliminating six binding bases, a total of four bivalent effectors, DSS-MORF12, DSG-MORF18, DSS-MORF18, and DSS-MORF25, were prepared with two different hybridization affinities (i.e. MORF12 and MORF18/25) and three different spacings (i.e. 20, 25, and 100 angstroms) between binding sites. The biotinylated cDNA was immobilized on a sensor chip at 500 and 100 RU coating densities providing an average cDNA separation of 25 and 80 angstroms. As expected, bimolecular binding dominated monomolecular binding in all cases, especially at lower MORF effector concentrations and at higher coating densities. All bivalent MORFs showed equilibrium constants superior to their monovalent form and therefore affinity enhancement. DSS-MORF25 showed the highest equilibrium constant for bimolecular binding presumably because of its larger separation between binding sites. Nevertheless, DSS-MORF12 showed the largest affinity enhancement of almost 3 orders of magnitude presumably because the shorter chain lowered the equilibrium constant for monomolecular binding. We have shown that bivalent effectors may be easily synthesized using MORF. The results provide further evidence that the use of bivalent effectors can greatly improve MORF pretargeting and, finally, that bivalent MORFs with reduced equilibrium constants may actually exhibit higher affinity enhancement.     

Synthesis and in vitro characterization of a dendrimer-MORF conjugate for amplification pretargeting

Amplification pretargeting can play an important role in molecular imaging by significantly increasing the accumulation of signal in target tissues. Multiple-step amplification pretargeting offers the potential to greatly improve target localization of effector molecules through the intermediate use of polymers conjugated with multiple copies of complementary oligomers. In this study, PAMAM dendrimer generation 3 (G3) was conjugated with multiple copies of a phosphorodiamidate morpholino (MORF) oligomer. Characterization of the conjugate by native-PAGE and SE-HPLC demonstrated that the conjugation was successful. The average numbers of MORF groups in the G3-MORF conjugate, both attached and accessible to the (99m)Tc labeled complementary MORF (cMORF), were determined. The antitumor antibody CC49 was conjugated with both MORF and cMORF (collectively (c)MORF) at an average of about one group per molecule. Nine of the 32 carboxyl groups of the dendrimer were modified with MORF, of which 90% were accessible in solution to (99m)Tc-cMORF. After purification, the G3-MORF was radiolabeled with tracer (99m)Tc-labeled cMORF (i.e., G3-MORF/(99m)Tc-cMORF) and added to the antibody CC49 previously conjugated with cMORF (i.e., CC49-cMORF/G3-MORF/(99m)Tc-cMORF), the complex demonstrated a single peak on SE-HPLC as evidence of complete hybridization between G3-MORF/(99m)Tc-cMORF and CC49-cMORF. The CC49-(c)MORF were bound to both Protein G and Protein L coated plates, and G3-MORF was added to hybridize with CC49-cMORF before the (99m)Tc-cMORF was added to test amplification pretargeting. In comparison to conventional pretargeting without the G3-MORF, the signal was amplified about 6 and 14 times, respectively, showing that the G3-MORF participated in amplifying the signal. Further amplification studies using the CC49-(c)MORF for LS174T tumor cells in tissue culture also demonstrated clear evidence of signal amplification.     

An improved method for covalently conjugating morpholino oligomers to antitumor antibodies

Whether for conventional pretargeting, amplification pretargeting, or affinity enhancement pretargeting, it will be necessary to conjugate an antitumor antibody as the first injectate. This laboratory is investigating phosphorodiamidate morpholinos (MORFs) for pretargeting, and accordingly we are examining methods of attaching MORFs to antitumor antibodies that provide at least one group per molecule (gpm) without adversely influencing antibody properties. The aim of this investigation was to evaluate the commercial Hydralink for the conjugation of the anti-CEA MN14 antibody with an 18 mer amine-derivatized MORF. The conjugation was approached in both directions by first reacting MN14 with the NHS derivatives of 4-hydrozinonicotinate acetone hydrazone (SANH) or 4-formylbenzoate (SFB) and then combining with MORF that was previously reacted with SFB or SANH to yield MN14(SANH)-MORF and MN14(SFB)-MORF respectively. The storage stability, immunoreactive fraction, and the biodistribution in normal mice were compared for both conjugates. Thereafter, MN14(SANH)-MORF was used in a pretargeting study in tumored nude mice, and the results were compared to that obtained historically with MN14-MORF prepared by carbodiimide (EDC) coupling. Both new methods of conjugation provided between 1 and 2 gpm compared to 0.2 achieved previously by EDC. Furthermore, by repeat SE HPLC with and without CEA, both showed an unimpaired immunoreactive fraction. MN14(SANH)-MORF tolerated long-term storage best. More importantly, when labeled by hybridization with 99mTc-labeled complementary MORF (99mTc-cMORF), the biodistribution of MN14(SANH)-MORF was more favorable than that of MN14(SFB)-MORF in normal mice with lower liver (5.7 vs 9.4 %ID/g at 18 h) and spleen (3.5 vs 8.4 %ID/g) accumulations and higher blood levels (4.8 vs 3.4 %ID/g). Accordingly, only MN14(SANH)-MORF was used in a pretargeting study in tumored mice. When targeted with 99mTc-cMORF and at 2 days postinjection of antibody-MORF, the results obtained with 6 microg of antibody prepared in this way were essentially identical to that obtained previously with 30 microg of antibody prepared via EDC. Hydralink was used successfully to conjugate MORF to MN14 at higher gpm than that achieved earlier and without an obvious compromise of properties. Using MN14(SANH)-MORF, the influence of the higher gpm on pretargeting permitted lowering the dosages of MN14 administered and may permit administering higher levels of radioactivity in connection with therapy.     

Affinity enhancement bivalent morpholino for pretargeting: initial evidence by surface plasmon resonance

Pretargeting with bivalent effectors capable of bridging antitumor antibodies has been reported to provide superior results by affinity enhancement. Morpholinos (MORFs) and other DNA analogues used for pretargeting are ideally suited as bivalent effectors since they are easily synthesized and the distance between binding regions, likely to be a determinant of binding, may be adjusted simply by lengthening the chain. The goal of this investigation was to synthesize a bivalent MORF and to determine by surface plasmon resonance (SPR) whether the bivalent MORF exhibited bimolecular binding and whether the MORFs showed improved in vitro hybridization affinity in its bivalent form compared to its monovalent form. An 18 mer amino-derivitized MORF was made bivalent by dimerizing with disuccinimidyl suberate (DSS) in 1-methyl-2-pyrrolidinone (NMP) with N,N-diisopropylethylamine (DIEA) followed by purification by ion exchange chromatography. The in vitro hybridization affinity of bivalent compared to monovalent MORF was then measured by SPR. For these measurements, the complementary biotinylated cDNA was immobilized at coating densities that provided an average spacing of 20-100 angstroms and used to investigate the influence of this spacing on binding of the bivalent MORF with its binding regions separated by 25 A. The yield of bivalent MORF was as high as 45%, and the structure was confirmed by MALDI-TOF mass spectroscopy. When the sensograms obtained by SPR were analyzed using different binding models, the evidence was consistent with bimolecular binding of the bivalent MORF. The dissociation rate constant of the bivalent compared to monovalent MORF was more than 10-fold lower at 2.14 compared to 0.27 x 10(-5) (1/s) (p < 0.05), and since the association rate constants were similar at 8.53 and 5.64 x 10(5) (1/M.s) (p = 0.08), the equilibrium constant for hybridization to the immobilized cDNA of the bivalent compared to the monovalent MORF was almost 20-fold higher at 3.99 compared to 0.21 x 10(10) (1/M) (p < 0.05). In addition, qualitative evidence for bivalent binding of the bivalent MORF was apparent in the lower concentrations necessary to saturate the cDNA. Finally, the stoichiometry interpretation of the binding data provided estimates of the fraction of bivalent MORF binding bimolecularly. Under one set of conditions, this value was 20%. In conclusion, a bivalent MORF was easily synthesized by dimerization of a monovalent MORF. A lower dissociation rate constant and higher equilibrium constant was measured by SPR for the bivalent compared to monovalent MORF in their binding to an immobilized cDNA. These results show that bimolecular binding was occurring in the case of the bivalent MORF and suggest that bivalency may be superior to monovalency in MORF pretargeting applications.     

99mTc-MORF oligomers specific for bacterial ribosomal RNA as potential specific infection imaging agents

PurposeRadiolabeled oligomers complementary to the 16S rRNA in bacteria were investigated as bacterial infection imaging agents.Methods and resultsIdentical sequences with backbones phosphorodiamidate morpholino (MORF), peptide nucleic acid (PNA), and phosphorothioate DNA (PS-DNA) were ^99mTc-labeled and evaluated for binding to bacterial RNA. MORF binding to RNA from Escherichia coli strains SM101 and K12 was 4- and 150-fold higher compared to PNA and PS-DNA, respectively. Subsequently MORF oligomer in fluorescence in situ hybridization showed a stronger signal with study MORF compared to control in fixed preparations of two E. coli strains and Klebsiella pneumoniae. Flow cytometry analysis showed study MORF accumulation to be 8- and 80-fold higher compared to the control in live K. pneumoniae and Staphylococcus aureus, respectively. Further, fluorescence microscopy showed increased accumulation of study MORF over control in live E. coli and K. pneumonia. Binding of ^99mTc-study MORF to RNA from E. coli SM101 and K12 was 30.4 and 117.8 pmol, respectively, per 10¹⁰ cells. Mice with K. pneumoniae live or heat-killed (sterile inflammation) in one thigh at 90 min for both ^99mTc-study MORF and control showed higher accumulation in target thighs than in blood and all other organs expect for kidneys and small intestine. Accumulation of ^99mTc-study MORF was significantly higher (p = 0.009) than that of the control in the thigh with sterile inflammation.ConclusionA ^99mTc-MORF oligomer complimentary to the bacterial 16S rRNA demonstrated binding to bacterial RNA in vitro with specific accumulation into live bacteria. Radiolabeled MORF oligomers antisense to the bacterial rRNA may be useful to image bacterial infection.     

Improving the labeling of S-acetyl NHS-MAG(3)-conjugated morpholino oligomers

S-Acetyl MAG(3) (S-acetylmercaptoacetyltriglycine) has been used as a chelator for the (99m)Tc labeling of a variety of biomolecules. The objective of this study was to improve upon the labeling of morpholino (MORF), a DNA analogue, as a model biomolecule. A 15mer MORF with a primary amine was conjugated with NHS-MAG(3) in the usual manner, and the MORF-MAG(3) was purified over a P4 column as before. The conjugate was radiolabeled using stannous ion as usual, and the impurities were identified using size exclusion high-performance liquid chromatography (SE HPLC). Various methods were then investigated to remove the impurities. With tartrate as the transchelator, two impurities were identified as labeled MAG(3) and labeled tartrate. The labeled MAG(3) could not be removed by simply repurifying the conjugate using the usual pH 5.2 NH(4)OAc buffer before labeling. However, this impurity could be completely removed if the conjugate was adjusted to pH 7.6 and heated before repurification. The labeled tartrate impurity was removed by heating during labeling. On the basis of these observations, the following procedure for purification of the conjugation mixture and subsequent labeling was adopted. After MORF was conjugated with NHS-MAG(3) and purified over P4 with pH 5.2 NH(4)OAc eluant, the oligomer fractions were combined, adjusted to pH 7.6, and heated in a boiling water bath for 20 min. The conjugated oligomer was then repurified over P4 for storage at refrigerator temperatures. Labeling is achieved simply by adding fresh stannous ion to a solution of the MORF-MAG(3) in pH 7.6 containing tartrate followed by (99m)Tc-pertechnetate. After the mixture is heated for 20 min in boiling water, the labeling efficiency is always over 90% as determined by size exclusion HPLC and paper chromatography and the specific activities can exceed 7 mCi/microg. By making several relatively simple changes to the routine procedure used to conjugate and radiolabel biomolecules with (99m)Tc via MAG(3), a modified procedure was developed that results in labeling efficiency high enough to avoid postlabeling purification.     

A comparison of in vitro and in vivo stability in mice of two morpholino duplexes differing in chain length

The stability of hybridized duplexes is an important criterion for any radiopharmaceutical application of DNAs or their analogues such as phosphorodiamidate morpholinos (MORFs). OBJECTIVE: The stabilities in vitro and in mice of the duplex between MORF and its complement (cMORF) were investigated for two different chain lengths, a 15-mer MORF compared to the identical MORF but elongated to a 25-mer. METHODS: The hybridization characteristics of the 15-mer MORF with its complementary 15-mer and that of the 25-mer with its complementary 25-mer MORF were measured using surface plasmon resonance (SPR) analysis. For radiolabeling with (99m)Tc, the 15- and 25-mer MORF, both with a primary amine via a 10-member linker on the 3' equivalent end, were conjugated with NHS-MAG(3). The 15- and 25-mer cMORFs were conjugated via their amines to carbodiimidazole treated poly(methyl vinyl ether-alt-maleic acid) (PA) such that about 50 cMORFs were attached to each polymer molecule in both cases (estimated MWs about 300 and 450 kDa, respectively). After hybridization in vitro, both the PA-cMORF15-(99m)Tc-MORF15 and PA-cMORF25-(99m)Tc-MORF25 homoduplexes were evaluated by size exclusion HPLC in saline, after incubation in 37 degrees C serum and in urine obtained 30 min post IV administration to normal mice. Biodistributions were obtained up to 18 h post administration. RESULTS: By SPR, the affinity constants for the homoduplexes were both about 10(9) M(-)(1) with the 25/25 only about 25% higher than the 15/15. However, the affinity constants for the 15/25 and 25/15 heteroduplexes showed a surprisingly 13-fold difference. By HPLC analysis, all duplexes were stable in saline; however, analysis of serum incubates and urine containing PA-cMORF15-(99m)Tc-MORF15 showed an immediate and pronounced low molecular weight peak that was identified by a shift assay to be (99m)Tc-MORF15. The comparable peak in both fluids was much less pronounced in the case of PA-cMORF25-(99m)Tc-MORF25. Whole body radioactivity levels also fell much more rapidly in mice receiving the 15-mer conjugate (65 vs 30% eliminated at 18 h) and biodistribution results showed higher kidney levels for the 15-mer conjugate. Results with the PA-cMORF25-(99m)Tc-MORF15 heteroduplex were more similar to that obtained with the 15-mer homoduplex than the 25-mer homoduplex. CONCLUSION: Despite what is reported to be high hybridization affinities, both the homoduplex and heteroduplexes prepared with (99m)Tc-MORF15 were found to be unstable in serum and in vivo toward dissociation to free (99m)Tc-MORF15. By contrast, homoduplex prepared with (99m)Tc-MORF25 showed higher stability. These differences in hybridization stability may be important considerations in radiopharmaceutical design.     

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.     

Comparison of several linear fluorophore- and quencher-conjugated oligomer duplexes for stability, fluorescence quenching, and kinetics in vitro and in vivo in mice

A useful property of optical imaging is the potential to modulate the detectable signal to improve target/nontarget ratios. When administered as a dimer of a fluorophore- and a quencher-conjugated duplex arranged to inhibit fluorescence but designed to dissociate only in the presence of its target, the fluorescence signal should in principle appear only in the target. This laboratory has demonstrated the feasibility of this approach by using a duplex consisting of a linear oligomer conjugated with Cy5.5 (emitter) hybridized to another linear oligomer conjugated with Iowa Black (quencher) in a pretargeting optical study. Now eight duplexes consisting of combinations of 18 mer linear phosphodiester (PO) and phosphorothioate (PS) DNAs and phosphorodiamidate morpholinos (MORFs) conjugated with Cy5.5 (emitter) and Iowa Black (quencher) were variously screened for in vitro duplex stability. The MORF/PO duplex was selected for further study based on evidence of stability in 37 degrees C serum. Simultaneously, the kinetics of quenching were investigated in vitro and in vivo in mice. Thereafter, mice were implanted in one thigh with MORF/PO Cy 5.5 microspheres and the complementary PS Iowa Black administered iv to measure the extent and kinetics of duplex formation in the target. While all duplexes were stable in buffer, only the MORF/PO duplexes and possibly all PS containing duplexes were stable in 37 degrees C serum for at least 4 h. The kinetics of quenching were found to be rapid in vitro, with a 80-90% decrease in Cy5.5 fluorescence immediately following formation of a PS/PS homoduplex, and in vivo, with a 27 to 38% decrease in target thigh/nontarget ratio within 1 h following administration of the complementary PS Iowa Black complementary DNA but not the random control DNA to mice implanted with MORF/PO Cy5.5 microspheres. This investigation has provided additional evidence that Cy5.5 may be efficiently and rapidly quenched by Iowa Black when both are conjugated to complementary oligomers and that the resulting inhibition of fluorescence is sufficiently persistent for imaging.     

Systemic catabolism of Alzheimer's Abeta40 and Abeta42

To better understand the physiologic excretion and/or catabolism of circulating peripheral amyloid beta (Abeta), we labeled human Abeta40 (monomeric, with predominant unordered structure) and Abeta42 (mixture of monomers and oligomers in approximately 50:50 ratio, rich in beta-sheet conformation) with either Na(125)I or (125)I-tyramine cellobiose, also known as the cell-trapping ligand procedure, testing their blood clearance and organ uptake in B6SJLF1/J mice. Irrespective of the labeling protocol, the peptide conformation, and the degree of oligomerization, both Abeta40 and Abeta42 showed a short half-life of 2.5-3.0 min. The liver was the major organ responsible for plasma clearance, accounting for >60% of the peptide uptake, followed by the kidney. In vivo, hepatocytes captured >90% of the radiolabeled peptides which, after endocytosis, were preferentially catabolized and excreted into the bile. Biliary excretion of intact as well as partially degraded Abeta species became obviously relevant at doses above 10 microg. The use of biotin-labeled Abeta allowed the visualization of the interaction with HepG2 cells in culture, whereas competitive inhibition experiments with unlabeled Abeta demonstrated the specificity of the binding. The capability of the liver to uptake, catabolize, and excrete large doses of Abeta, several orders of magnitude above its physiologic concentration, may explain not only the femtomolar plasma levels of Abeta but the little fluctuation observed with age and disease stages.     

Evaluation of kidney repair capacity using Tc-DMSA in ischemia/reperfusion injury models

Quantitative ^99mTc-DMSA renal uptake was studied in different renal ischemia/reperfusion (I/R) mice models for the assessment of renal repair capacity. Mice models of nephrectomy, uni- and bi-lateral I/R together with sham-operated mice were established. At 1 h, 1 d, 4 d, 1, 2 and 3 wk after I/R, ^99mTc-DMSA (27.7 ± 1.3 MBq) was injected via tail vein and after 3 h post-injection, the mice were scanned for 30 min with pinhole equipped gamma camera. Higher uptake of ^99mTc-DMSA was measured in normal kidneys of uni-lateral I/R model and nephrectomized kidney I/R model at 3 wk post-surgery. Comparing the restoration capacities of the affected kidneys of nephrectomy, uni- and bi-lateral I/R models, higher repair capacity was observed in the nephrectomized model followed by bi-lateral then uni-lateral models. The normal kidney may retard the restoration of damaged kidney in uni-lateral I/R model. Moreover, 3 wk after Uni-I/R, the size of injured kidney was significantly smaller than non-ischemic contralateral and sham operated kidneys, while nephrectomy I/R kidneys were significantly enlarged compared to all others at 3 wk post-surgery. Very strong correlation between ^99mTc-DMSA uptake and weight of dissected kidneys in I/R models was observed. Consistent with ^99mTc-DMSA uptake results, all histological results indicate that kidney recovery after injury is correlated with the amount of intact tubules and kidney sizes. In summary, our study showed good potentials of ^99mTc-DMSA scan as a promising non-invasive method for evaluation of kidney restoration after I/R injuries. Interestingly, mice with Bi-I/R injury showed faster repair capacity than those with uni-I/R.     

Development of the metanephric kidney. Protein and nucleic acid synthesis

The metanephric kidney was studied in fetal and older mice beginning at 16 days after mating of the parents. Polyribosomes from fetal kidneys labeled in vitro with 14C-labeled amino acids had 10-20 times more acid-precipitable radioactivity associated with them than polysomes from adult kidneys similarly labeled. Between 3 and 6 days after birth the rate incorporation of labeled amino acids by polyribosomes from neonatal kidneys declined sharply to only twice the value found for adult kidneys. There was no change in the shape of the polyribosome profile with increasing age, but before birth few, if any, ribosomes were bound to membranes compared with 20% 2 days after birth and between 20 and 30% in the adult. Total protein represented less than 10% of the wet weight in the fetal kidney but increased to 17% of the wet weight in the adult kidney. There was a steady decline in the concentration of RNA and DNA with respect to dry weight throughout kidney development. DNA concentration declined more rapidly than RNA concentration, so that the milligram to milligram ratio of RNA to DNA increased. In males the RNA/DNA ratio was stable at 1.3 at 40 days after birth; but in females the decline in DNA concentration was more protracted, and at 200 days after birth the RNA/DNA ratio was only 0.99. Thus, total nucleic acids show only gradual changes in concentration throughout development of the kidney, but a sharp change in the synthetic activity of the ribosomes and in their binding to membranes occurs in kidneys soon after birth.     

Radiolabeling and preliminary biodistribution study of 99mTc-labeled antibody-mimetic scaffold protein repebody for initial clearance properties

Antibody-mimetic proteins are intensively being developed for biomedical applications including tumor imaging and therapy. Among them, repebody is a new class of protein that consists of highly diverse leucine-rich repeat (LRR) modules. Although all possible biomedical applications with repebody are ongoing, it’s in vivo biodistribution and excretion pathway has not yet been explored. In this study, hexahistidine (His₆)-tag bearing repebody (rEgH9) was labeled with [^99mTc]-tricarbonyl, and biodistribution was performed following intravenous (I.V.) or intraperitoneal (I.P.) injection. Repebody protein was radiolabeled with high radiolabeling efficiency (>90%) and radiolabeled compound was more than 99% pure after purification. Biodistribution data indicates radiotracer has a rapid clearance from blood and excreted through the kidneys for intravenous (I.V.) injection, but comparatively slow clearance for an intraperitoneal (I.P.) injection. SPECT-CT images were found to be in agreement with biodistribution data, high activity was found inside kidneys. The observed result for rapid blood clearance and renal excretion of repebody (rEgH9) provide useful information for the further development of therapeutic strategy.     

Antisense inhibition of Flk-1 by oligonucleotides composed of 2'-deoxy-2'-fluoro-beta-D-arabino- and 2'-deoxy-nucleosides

The design of new antisense oligomers with improved binding affinity for targeted RNA, while still activating RNase H, is a major research area in medicinal chemistry. RNase H recognizes the RNA-DNA duplex and cleaves the complementary mRNA strand, providing the main mechanism by which antisense oligomers elicit their activities. It has been shown that configuration inversion at the C2' position of the DNA sugar moiety (arabinonucleic acid, ANA), combined with the substitution of the 2'OH group by a fluorine atom (2'F-ANA) increases the oligomer's binding affinity for targeted RNA. In the present study, we evaluated the antisense activity of mixed-backbone phosphorothioate oligomers composed of 2'-deoxy-2'-fluoro-beta-D-arabinose and 2'-deoxyribose sugars (S-2'F-ANA-DNA chimeras). We determined their abilities to inhibit the protein expression and phosphorylation of Flk-1, a vascular endothelial growth factor receptor (VEGF), and VEGF biological effects on endothelial cell proliferation, migration, and platelet-activating factor synthesis. Treatment of endothelial cells with chimeric oligonucleotides reduced Flk-1 protein expression and phosphorylation more efficiently than with phosphorothioate antisenses (S-DNA). Nonetheless, these two classes of antisenses inhibited VEGF activities equally. Herein, we also demonstrated the capacity of the chimeric oligomers to elicit RNase H activity and their improved binding affinity for complementary RNA as compared with S-DNA.     

Synthesis, radiolabeling and in vitro and in vivo characterization of a technetium-99m-labeled alpha-M2 peptide as a tumor imaging agent.

In an effort to develop a peptide-based radiopharmaceutical for the detection of breast cancer, we have prepared an analog of alphaM2 peptide, modified to incorporate an N3S chelate system. Mercaptoacetyltriglycine (MAG)(3)-derivatized alphaM2 peptide was prepared by solid-phase synthesis and radiolabeled with (99m)Tc by an exchange method. In vitro cell-binding on human breast cancer cell lines, MDA-MB-231 and MCF-7, indicated the affinity and specificity of (99m)Tc-MAG(3)-alphaM2 toward breast cancer cells. Additionally, the radiolabeled peptide showed rapid internalization into human breast cancer cells. In vivo biodistribution in mice showed that the radiolabeled peptide cleared rapidly from the blood and most non-target tissues and was excreted significantly via the kidneys. Uptake of (99m)Tc-MAG(3)-alphaM2 in the tumor was moderate. The radiochemical and in vitro and in vivo characterization indicates that the radiolabeled peptide has certain favorable properties and it might be a useful radiopharmaceutical for the detection of breast cancer in vivo.     

The high binding affinity of phosphorothioate-modified oligomers for Ff gene 5 protein is moderated by the addition of C-5 propyne or 2′-O-methyl modifications

One of the problems that hamper the use of antisense DNAs as effective drugs is the non-specific binding of chemically-modified oligonucleotides to cellular proteins. We previously showed that the affinity of a model ssDNA-binding protein, the Ff gene 5 protein (g5p), was >300-fold higher for phosphorothioate-modified DNA (S-DNA) than for unmodified dA₃₆, consistent with the propensity of S-DNA to bind indiscriminately to proteins. The current work shows that g5p binding is also sensitive to sugar and pyrimidine modifications used in antisense oligomers. Binding affinities of g5p for 10 36mer oligomers were quantitated using solution circular dichroism measurements. The oligomers contained C-5-propyne (prC), 2′-O-methyl (2′-O-Me) or 2′-OH (RNA) groups, alone or combined with the phosphorothioate modification. In agreement with reported increases in antisense activity, the addition of prC or 2′-O-Me modifications substantially reduced the affinity of oligomers for g5p by ~2-fold compared with the same DNA oligomer sequences containing only phosphorothioate linkages. That is, such modifications moderated the propensity of the phosphorothioate group to bind tightly to the g5p. The Ff g5p could be a useful model protein for assessing non-specific binding effects of antisense oligomer modifications.     

Fate of injected interleukin 1 in rats: Sequestration and degradation in the kidney

The tissue distribution and route of clearance of human recombinant interleukin 1 alpha (IL 1 alpha) injected intravenously in rats was studied. The plasma half-life was approximately 2.5 min, and this was increased after nephrectomy, the kidney being the major organ through which the IL 1 alpha was excreted. Two iodinated fragments of IL 1 alpha, of approximately 5 and 9 kDa, were excreted by the kidneys whereas only intact, 17-kDa IL 1 alpha was detected in plasma, suggesting that the protein was being degraded after uptake by the kidney. The results of in vivo experiments in which surface endopeptidase-24.11 was inhibited with phosphoramidon and in vitro experiments in which rat kidney homogenates were incubated with radiolabeled IL 1 alpha suggest that the cytokine was endocytosed and then hydrolysed by lysosomal proteinases.