J. R. F. Corvalan scite author profile

The deposition of the ␤ amyloid peptide in neuritic plaques and cerebral blood vessels is a hallmark of Alzheimer's disease (AD) pathology. The major component of the amyloid deposit is a 4.2-kDa polypeptide termed amyloid ␤-protein of 39 -43 residues, which is derived from processing of a larger amyloid precursor protein (APP). It is hypothesized that a chymotrypsin-like enzyme is involved in the processing of APP.We have discovered a new serine protease from the AD brain by polymerase chain reaction amplification of DNA sequences representing active site homologous regions of chymotrypsin-like enzymes. A cDNA clone was identified as one out of one million that encodes Zyme, a serine protease. Messenger RNA encoding Zyme can be detected in some mammalian species but not in mice, rats, or hamster. Zyme is expressed predominantly in brain, kidney, and salivary gland. Zyme mRNA cannot be detected in fetal brain but is seen in adult brain. The Zyme gene maps to chromosome 19q13.3, a region which shows genetic linkage with late onset familial Alzheimer's disease.When Zyme cDNA is co-expressed with the APP cDNA in 293 (human embryonic kidney) cells, amyloidogenic fragments are detected using C-terminal antibody to APP. These co-transfected cells release an abundance of truncated amyloid ␤-protein peptide and shows a reduction of residues 17-42 of A␤ (P3) peptide. Zyme is immunolocalized to perivascular cells in monkey cortex and the AD brain. In addition, Zyme is localized to microglial cells in our AD brain sample. The amyloidogenic potential and localization in brain may indicate a role for this protease in amyloid precursor processing and AD.The generation of the ␤ amyloid peptide is thought to be the result of processing of the amyloid precursor protein (APP) 1 by one or more proteases. After the deduced amino acid sequence of APP was revealed, a number of laboratories initiated studies to purify and characterize the N-terminal cleaving enzyme of amyloid ␤-protein (A␤), termed ␤-secretase (1). The cleavage of the Met 596 -Asp 597 bond of the full-length APP generates the N-terminal amino acid of A␤, which was first shown by Glenner and Wong (2) to be aspartic acid. ␤-Secretase is yet an unidentified protease.Several themes and strategies influenced the direction of investigation of ␤-secretase. The first strategy was to follow a traditional biochemical purification. Assays were utilized in which short peptide substrates were substituted for the large transmembrane precursor protein (1). Any enzyme capable of making a methionine (M)/aspartic acid (D) cleavage could be designated a potential ␤-secretase. The second theme, since the amino acid that surrounded the N terminus of A␤ was found to be a methionine, was some laboratories have rationalized that a search for an enzyme with chymotrypsin-like specificity (a specificity for cleavage of subtrates containing a neutral hydrophobic residue at the S1 subsite) was necessary (3-7).To facilitate the second approach, we have developed a method to identify chymotrypsin-l...

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Fully human anti-interleukin-8 monoclonal antibodies: potential therapeutics for the treatment of inflammatory disease states

Yang¹,

Corvalan²,

Wang³

et al. 1999

158

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Interleukin-8 (IL-8) is a potent chemotactic cytokine implicated in the pathogenesis of a number of inflammatory disease states. Agents that block the binding of IL-8 to its receptor have been shown to block inflammation in animal models of disease. This suggests that drugs specifically targeting IL-8 may prove efficacious in treating multiple human diseases. To this end, we developed a panel of fully human anti-IL-8 monoclonal antibodies (mAbs). These human antibodies were generated from XenoMouse strains, mice created by introducing megabase-size unrearranged human immunoglobulin heavy and kappa light chain loci into a mouse genome in which the corresponding endogenous loci have been inactivated. From the panel of more than 50 mAbs, two antibodies, K4.3 and K2.2, were further characterized and evaluated for their specificity, productivity, affinity, and biological activity. Both K4.3 and K2.2 bind human IL-8 with high affinity (Kd of K4.3 = 2.1x10(10) M; Kd of K2.2 = 2.5x10(-10) M). In vitro, in addition to blocking IL-8 binding to human neutrophils, K4.3 and K2.2 blocked a number of IL-8-dependent cellular functions including neutrophil activation, up-regulation of the cell adhesion receptor CD11b/CD18, and neutrophil chemotaxis, suggesting that the fully human anti-IL-8 mAbs derived from XenoMouse strains are potent anti-inflammatory agents. This was further supported by in vivo studies in which K4.3 and K2.2 significantly inhibited IL-8-induced skin inflammation in rabbits. A pharmacokinetic study in Cynomolgus monkeys demonstrated that the alpha phase half-life is 9.4 h and the beta phase 10.9 days, typical of human mAbs in monkeys. These data support advancing a fully human anti-IL-8 mAb into clinical trials to treat inflammatory diseases.

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New antitumor monoclonal antibody-vinca conjugates LY203725 and related compounds: design, preparation, and representative in vivo activity

Laguzza¹,

Nichols²,

Briggs³

et al. 1989

J. Med. Chem.

116

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A method has been developed to allow the direct coupling of the cytotoxic vinca alkaloid 4-desacetylvinblastine-3-carbohydrazide (DAVLB hydrazide) to a variety of murine monoclonal antibodies directed against human solid tumors. Periodate oxidation of carbohydrate residues on the antibodies, followed by reaction with DAVLB hydrazide in aqueous acid affords, in most cases, conjugates with conjugation ratios of 4-6 vincas per antibody in high yield without significantly impairing antigen binding or solubility. The outcome of the conjugation reaction is highly dependent on the concentration of, and time of exposure of the protein to, the oxidant. These conjugates exhibit potent antitumor activity in vivo against a number of human solid tumor-nude mouse xenografts, with efficacy and safety increased over unconjugated DAVLB hydrazide. This antitumor activity is also superior to that of similarly prepared but nontarget tumor binding antibody-DAVLB hydrazide conjugates. MoAb-DAVLB hydrazide conjugates release DAVLB hydrazide in solution in a temperature- and pH-dependent manner. Hydrolytic release of unmodified DAVLB hydrazide from tumor-localized MoAb-DAVLB hydrazide conjugates in vivo may be an important factor in their antitumor activity.

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Antitumor properties of vindesine-monoclonal antibody conjugates

Rowland

Axton

Baldwin

et al. 1985

Cancer Immunol Immunother

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The anticancer alkaloid vindesine (VDS) was conjugated to four mouse monoclonal antibodies recognizing human tumor-associated antigens. The antibodies were 96.5 (antimelanoma, IgG2a); 791T/36 (antiosteogenic sarcoma, IgG2b); 11.285.14, and 14.95.55 (anticarcinoembryonic antigen, IgG1 and IgG2a respectively). Conjugates VDS-96.5 and VDS-791T/36 were tested in vitro and shown to be specifically cytotoxic for target cells expressing the appropriate antigen. The in vivo effects of the antibodies and conjugates were tested against human tumor xenografts in athymic or immunodeprived mice using multiple treatments. Conjugate VDS-96.5 retarded the initial growth of a melanoma xenograft, whereas free antibody was without effect. Similarly, VDS-791T/36 but not free antibody retarded the growth of osteogenic sarcoma 791T. The most marked antitumor effects observed were those obtained with VDS conjugates of the anti-CEA antibodies against a colorectal tumor xenograft. Antibody 14.95.55 suppressed tumor growth both alone and as a VDS conjugate, whereas 11.285.14 produced only a slight effect alone but an almost complete and lasting suppression of tumor growth as a VDS conjugate. Free VDS had little effect at nontoxic levels. Acute studies showed that VDS-11.285.14 conjugate was considerably less toxic than free VDS in Balb/c mice.

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J. R. F. Corvalan

Development of ABX-EGF, a fully human anti-EGF receptor monoclonal antibody, for cancer therapy

Zyme, a Novel and Potentially Amyloidogenic Enzyme cDNA Isolated from Alzheimer's Disease Brain

Fully human anti-interleukin-8 monoclonal antibodies: potential therapeutics for the treatment of inflammatory disease states

New antitumor monoclonal antibody-vinca conjugates LY203725 and related compounds: design, preparation, and representative in vivo activity

Antitumor properties of vindesine-monoclonal antibody conjugates

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