Kenichi Akamatsu

Anti-interleukin-6 receptor antibody prevents muscle atrophy in colon-26 adenocarcinoma-bearing mice with modulation of lysosomal and ATP-ubiquitin-dependent proteolytic pathways

Progression of skeletal muscle atrophy is one of the characteristic features in cancer patients. Interleukin‐6 (IL‐6) has been reported to be responsible for the loss of lean body mass during cancer cachexia in colon‐26 adenocarcinoma (C‐26)‐bearing mice. This study was carried out to elucidate the intracellular proteolytic pathways operating in skeletal muscle in C‐26‐bearing mice, and to examine the effect of anti IL‐6 receptor antibody on muscle atrophy. On day 17 after tumor inoculation, the gastrocnemius muscle weight of C‐26‐bearing mice had significantly decreased to 69% of that of the pair‐fed control mice. This weight loss occurred in association with increases in the mRNA levels of cathepsins B and L, poly‐ubiquitin (Ub) and the subunits of proteasomes in the muscles. Furthermore, enzymatic activity of cathepsin B+L in the muscles also increased to 119% of the control. The administration of antimurine IL‐6 receptor antibody to C‐26‐bearing mice reduced the weight loss of the gastrocnemius muscles to 84% of that of the control mice, whose enzymatic activity of cathepsin B+L and mRNA levels of cathepsin L and poly‐Ub were significantly suppressed compared with those of the C‐26‐bearing mice. Our data indicate that both the lysosomal cathepsin pathway and the ATP‐dependent proteolytic pathway might be involved in the muscle atrophy of C‐26‐bearing mice. The results also suggest that anti IL‐6 receptor antibody could be a potential therapeutic agent against muscle atrophy in cancer cachexia by inhibiting these proteolytic systems.

Effect of recombinant human erythropoietin on anticancer drug-induced anaemia.

Summary. Anaemia was induced in rats with fluorouracil (5‐FU) or cisplatin (CDDP) and the mechanisms of anaemia induction were analysed. Furthermore, the therapeutic effects of recombinant human erythropoietin (rHu Epo) on these anticancer drug‐induced anaemias were investigated.

Humanization of mouse ONS-M21 antibody with the aid of hybrid variable regions.

Mouse monoclonal antibody, ONS-M21, directed against human medulloblastoma cells, has been humanized by complementarity determining region (CDR) grafting. A humanized ONS-M21 VH region, comparable to the original mouse ONS-M21 VH region, was easily constructed based on framework regions (FRs) 1, 2 and 3 from human EU antibody and on FR4 from human ND antibody. Five alterations in the FRs were made at amino acids 27, 28, 29, 30 and 94 which are all part of the canonical structure for CDR1 (H1). The humanized ONS-M21 VL regions were constructed based on the FRs from human REI antibody. We first identified five amino acid residues in the FRs at positions 20, 21, 71, 73 and 87 as having a possible adverse influences on antigen binding. None of the versions with a variety of combinations at these five positions showed any bindings to antigen. In order to identify the mouse residues that must be retained in the human FRs, hybrid VL regions were constructed by joining the mouse ONS-M21 VL region and the first humanized version within CDR2. The hybrid VL regions revealed that residues in FR1 and/or FR2 were critical in creating a functional antigen binding site. Redesigning several versions with alterations in FR1 and FR2 revealed that the Pro-46 residue was the only critical residue for creating an antigen binding site. This approach should be helpful in identifying key residues in difficult cases of antibody humanization.

Humanization of an anti-human IL-6 mouse monoclonal antibody glycosylated in its heavy chain variable region

Interleukin-6 (IL-6) inhibitors are good potential therapeutic agents in human patients, and anti-IL-6 antibodies are among the best candidates. Here, we have successfully humanized mouse monoclonal antibody SK2, which specifically binds to IL-6 and strongly inhibits IL-6 functions. Since this antibody possesses N-linked carbohydrates on Asn-30 of VH region, which seems to be very close to an antigen-binding site, influence of these carbohydrates on antigen-binding was investigated. A biosensor study showed that the mouse SK2 Fab and its deglycosylated fragments had almost equal Kd (Kon/Koff), 26.8 nM (1.05 x 10(6)/2.81 x 10(-2)) and 24.7 nM (1.28 x 10(6)/3.15 x 10(-2)), respectively. Furthermore, a mutant chimeric SK2 antibody, in which the N-glycosylation site was removed from the VH region, showed a Kd of 11 nM, almost similar to that of the original chimeric SK2 antibody, determined by Scatchard analysis with 125I-IL-6. These data indicate the carbohydrates of mouse SK2 VH region do not significantly influence antigen-binding activity. In the next step, two versions of each humanized SK2 VL and VH regions were carefully designed based on the amino acid sequences of human REI and DAW, respectively. Only one alteration, Tyr to Phe, was made at position 71 in the two light chains, according to the canonical residue for LI. A N-glycosylation site was introduced on the two heavy chains, by changing Ser to Asn at position 30. All four combinations of humanized light and heavy chains could bind to IL-6 as well as the chimeric SK2 antibody. The light chain first version, however, could not efficiently inhibit IL-6 binding to its receptor, indicating the importance of the LI loop conformation for the inhibitory activity of SK2 antibody. In contrast, both versions of the heavy chains were comparable, in yielding good humanized SK2 antibodies, suggesting that the glycosylation of the SK2 VH region has no influence in recreating a functional antigen-binding site in this humanization.

Comparison of the antitumour effects and nephrotoxicity-inducing activities of two new platinum complexes, (-)-(R)-2-aminomethylpyrrolidine(1,1-cyclobutanedicarboxylato+ ++)-platinum (II) monohydrate, and its enantiomeric isomer.

New platinum complexes, (-)-(R)-2-aminomethylpyrrolidine(1,1- cyclobutanedicarboxylato)platinum(II) monohydrate (DWA2114R) and its enantiomeric isomer, (+)-(S)-2-aminomethylpyrrolidine(1,1- cyclobutanedicarboxylato)platinum(II) monohydrate (DWA2114S), were compared in their antitumour effects and nephrotoxicity-inducing activities. Both compounds were effective against the murine tumours L1210 and Colon 26 by i.p. injection of 20-100 mg kg-1. While DWA2114S showed marked increases in blood urea nitrogen (BUN) and urinary protein and sugar in BDF1 mice treated i.p. at the maximum tolerated dose, DWA2114R showed no increases in these parameters. To clarify the difference of nephrotoxicity between the isomers, tissue distribution was examined. Renal Pt concentration in DWA2114S-treated mice was more than 5-fold higher compared with that in DWA2114R-treated mice 2h after i.p. injection of 80 mg kg-1. However, there were no such marked differences in the lung, liver, heart, spleen and plasma. The low content of Pt in the kidneys of DWA2114R-treated mice could explain its lower nephrotoxicity. The in vitro experiments for uptake of the drugs into the cultured normal rat kidney cells and fresh splenocytes revealed that the Pt amount in the cells treated with DWA2114S, especially in the kidney cells, was much higher than DWA2114R.

Polyglutamation of antifolates is not required for induction of extracellular release of adenosine or expression of their anti-inflammatory effects.

Methotrexate (MTX) exerts an anti-inflammatory effect, reportedly by enhancing the release of adenosine, through an accumulation of 5-amino-4-imidazolecarboxamide ribonucleotide (AICAR). To examine the role of polyglutamation in promoting anti-inflammatory effects by antifolates, we tested whether a new antifolate designed to be resistant to intracellular polyglutamation (MX-68) exhibited anti-inflammatory effects and stimulated adenosine release. Both MX-68 and MTX (at concentrations greater than 0.1 microM) increased the release of adenosine from Daudi cells in vitro. Inhibition of AICAR synthesis suppressed adenosine release by MX-68 and MTX. The anti-inflammatory effects of antifolates were estimated using the murine air pouch model, in which a BALB/c mouse was intraperitoneally injected with MX-68 or MTX once a week for 3 weeks. MX-68 (0.5 mg kg(-1) week(-1)), as well as MTX, inhibited infiltration of leukocytes into the air pouch. This inhibitory effect was suppressed in the presence of an adenosine A(2) receptor antagonist, 3,7-dimethyl-1-propargylxanthine (DMPX). These results suggest that MX-68, like MTX, exerts anti-inflammatory effects through the accumulation of AICAR and release of adenosine. These results suggest that polyglutamation of antifolate is not required for expression of anti-inflammatory effects.

Toxicological and Tumoricidal Evaluations of a New Platinum Complex, (–)‐(R)‐2‐Aminomethy lpyrrolidine (1,1‐cyclobutanedicarboxylato) platinum (II) Monohydrate, in Rats

The toxicities and antitumor activity of a new anticancer platinum compound, (‐)‐(R)‐2‐amino‐methylpyrrolidine(l,l‐cyclobutanedicarboxylato)platinum(II) monohydrate (DWA2114R), were examined in rats by single intravenous injection in comparison with those of cis‐diammine(1,1‐cyclobutanedicarboxylato)platinum(II) (CBDCA) and cis diamminedichloroplatinum(II) (CDDP). The lethal dose (LD) of DWA2114R (100 mg/kg) or CBDCA (80 mg/kg) caused a slight decrease in body weight <10%) and no significant change in the levels of blood urea nitrogen and urinary sugar and protein. In contrast, a sub‐LD level of CDDP (8 mg/kg) seriously decreased body weight (20%) and markedly elevated the levels of these nephrotoxicity parameters. Monitoring the numbers of peripheral blood cells for 3 weeks after the drug injection revealed that all three drugs showed severe thrombocytopenia, moderate leukopenia and slight anemia. However, CBDCA induced the most severe thrombocytopenia among these drugs. The number of platelets was reduced by 60% in rats injected with a half LD of CBDCA. A moderate reduction in platelet count (35–43%) was caused by an equitoxic dose of DWA2114R or CDDP, but abated about 3 days faster than that caused by CBDCA. Interestingly, only CDDP caused an irreversible anemia. Each drug showed a potent antitumor activity at weakly toxic doses against Walker 256 carcinosarcoma transplanted intramuscularly into rats. These results indicate that DWA2114R could be a promising new platinum anticancer agent with an improved toxicity profile.

Potent antitumour activity of (-)-(R)-2-aminomethylpyrrolidine (1,1-cyclobutanedicarboxylato)platinum(II) monohydrate (DWA2114R) against advanced L1210 leukaemia in mice

The time dependency of the antitumour activity of (-)-(R)-2-aminomethylpyrrolidine(1,1-cyclobutanedicarboxylato++ +)platinum(II) monohydrate (DWA2114R) was examined in mice inoculated i.p. with 10(5) mouse L1210 leukaemia cells. The increase in life span was greater in mice treated with 72 mg kg-1 DWA2114R on the 6th day following tumour inoculation than in mice treated at earlier times. Such superior effects against advanced L1210 were also seen with cis-diammine (1,1-cyclobutanedicarboxylato)platinum(II) (CBDCA) but not seen with the parent compound, cis-diamminedichloroplatinum(II) (CDDP) or other antitumour agents devoid of platinum. After the injection of DWA2114R on day 6, most of the ascites tumour cells accumulated in the S and G2/M phases of the cell cycle and the total cell number markedly decreased from 10(8) to less than 10(6). On the other hand, only a temporary G1 arrest and a less than 50% reduction of the cell number were induced after a similar treatment on day 3. Interestingly, the superiority of DWA2114R for advanced L1210 was lost in athymic nude mice and mice depleted of T cells by anti-thymocyte antisera. In addition, mice cured of advanced L1210 specifically rejected re-inoculated L1210 cells. These results indicate that the superior antitumour activity against advanced L1210 is unique to DWA2114R among the agents tested (except for CBDCA) and is caused by both an increased drug susceptibility of tumour cells and a drug-induced antitumour effect mediated by T cells of the host mice.

Polyglutamation of a novel antifolate, MX-68, is not necessary for its anti-arthritic effect

N-[[4-[(2,4-diaminopteridin-6-yl)methyl]-3,4-dihydro-2H-1,4-benzothiazin-7-yl]-carbonyl]-L-homoglutamic acid (MX-68), a derivative of methotrexate, was chemically designed to resist polyglutamation and to have a high affinity for dihydrofolate reductase, in an attempt to reduce the side effects of methotrexate. We confirmed that MX-68 did not undergo polyglutamation and investigated the pharmacological activities of MX-68 compared with methotrexate. (1) In vitro: MX-68 inhibited the activity of dihydrofolate reductase to the same degree as methotrexate-tetraglutamate. MX-68 treatment produced a similar anti-proliferative effect to that of methotrexate. However, the intracellular concentration of MX-68 was much lower than the sum of the levels of methotrexate and its polyglutamate, and the effects of MX-68 disappeared when it was removed from the culture medium. (2) In vivo: Oral administration of MX-68 suppressed the development of collagen-induced arthritis in mice and adjuvant-induced arthritis in rats, in a similar fashion to that of methotrexate. These results indicate that polyglutamation is not essential for the anti-arthritic effect of antifolates.

Antitumor Activity and Cellular Accumulation of a New Platinum Complex, (-)-(R)-2-Aminomethylpyrrolidine(1,l-cyclobutanedicarboxylato)platinum(II) Monohydrate, in Cisplatin-sensitive and -resistant Murine P388 Leukemia Cells

We have examined the cytotoxicity and accumulation of (—)‐(U)‐2‐aminomethylpyrrolidine(1,l‐cyclobutanedicarboxylato)platinum(II) monohydrate (DWA2114R) in parent and cisplatin‐resistant mouse P388 leukemia cells (P388 and P388/DDP), in comparison with those of cisplatin (CDDP) and carboplatin (CBDCA). The degrees of resistance to CDDP and CBDCA, expressed as the ratio of IC50for P388/DDP celts to IC50 for P388 cells, were 75–33 and 100‐27, respectively, under the conditions of 2–24 h exposure to each drug at a density of 106 cells/ml. The corresponding values (25–7) for DWA2114R were relatively low. Accumulations of CDDP and CBDCA were reduced in P388/DDP cells; however, no reduction in accumulation of DWA2114R was observed at various exposure periods and concentrations of the drugs. The accumulations of CDDP in P388 and P388/DDP cells at drug concentrations corresponding to the IC50 values for drug exposure periods of 2–24 h were 0.41–0.97 and 13.1–33.7 ng Pt/107 cells, respectively, suggesting that an intracellular mechanism of resistance against CDDP could be activated in P388/DDP cells. P388/DDP cells also showed relatively low resistance to DWA2114R via this mechanism in comparison with CDDP and CBDCA. From the relationship between structure and activity of several Pt‐complexes, these different properties of DWA2114R compared with CDDP and CBDCA could be due not only to the differences in carrier ligand structure but also to the properties of the whole molecule associated with the carrier ligand and leaving group.