Grace Maloney scite author profile

We produced human monoclonal antibody that demonstrated specific reactivity to the K1 capsule of Escherichia coli and the group B polysaccharide of Neisseria meningitidis. The antibody was nonreactive with several strains of K1- E. coli and other gram-negative bacteria. All E. coli K1 clinical isolates tested were reactive with the antibody. When assayed for in vitro opsonophagocytic ability, the antibody caused bacterial removal only in the presence of human complement and neutrophils, an observation suggesting a non-bacteriolytic, neutrophil-dependent killing mechanism. Finally, and perhaps most importantly, the antibody was highly protective for infectious disease when used prophylactically in three animal models. The data suggest a potential use for human monoclonal antibodies in preventing and/or treating infections of the blood.

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Comparison of Functional Activities between IgG1 and IgM Class-Switched Human Monoclonal Antibodies Reactive with Group B Streptococci or Escherichia coli K1

Raff

Bradley

Brady

et al. 1991

Journal of Infectious Diseases

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The influence of valence and heavy chain on antibody activity was investigated using transfectoma-derived, class-switched IgG1 and IgM human monoclonal antibodies (MAbs) reactive with the bacterial pathogens Escherichia coli K1 and group B Streptococcus species. IgG-IgM pairs were compared in vitro for antigen binding and opsonic activities and in vivo for protective efficacy in neonatal rats. For the anti-E. coli pair, the IgM MAb was 1000-fold more potent in all assay formats. Importantly, the 50% protection dose (PD50) of the IgM MAb was 10-20 ng/rat, while 100 micrograms of the IgG MAb was only minimally protective. For the group B streptococcal MAbs, the IgM was 100- and 4500-fold more potent in binding and opsonization assays, respectively. However, while 20 micrograms of IgM protected neonatal rats, 100 micrograms of IgG MAb was partly protective. These experiments demonstrate the utility of recombinant DNA technology for creating a panel of antibodies that may aid in selecting potential immunotherapeutic candidates.

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Peptides related to the carboxyl terminus of human platelet factor IV with antibacterial activity.

Darveau¹,

Blake²,

Seachord³

et al. 1992

J. Clin. Invest.

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A peptide (C13) corresponding to the last 13 amino acids of the carboxyl terminus of human platelet factor IV was found to be antibacterial. Amino acid substitutions predicted to disrupt either the amphipathic or a-helical nature of C13 rendered the peptide inactive. Antibacterial activity was demonstrated in normal human serum on bacteria which had been previously exposed to low levels of cefepime, a f-lactam antibiotic. Peptide analogues were examined for more potent antibacterial activity in an antibacterial assay that employed normal human serum and low levels of cefepime. A peptide analogue (C18G) with 80-fold more antibacterial activity than C13 was identified. Studies in C8-deficient sera confirmed an essential role of human serum complement for optimal antibacterial activity. Additional studies showed low levels of cefepime, although not essential, enhanced the antibacterial activity of C18G. Animal protection experiments demonstrated that either peptide C18G or an analogue with all D amino acids (C18X) significantly increased the survival of neutropenic mice when coadministered with a low level of cefepime. This work has resulted in the identification of a new group of antibacterial peptides. (J. Clin. Invest. 1992. 90:447455.)

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Human monoclonal antibodies to group B streptococcus. Reactivity and in vivo protection against multiple serotypes.

Raff

Siscoe

Wolff

et al. 1988

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Group B streptococcal (GBS) infections cause significant mortality and morbidity among infants. Passive antibody immunotherapy has been proposed as treatment for infected infants. To this end, two human mAb-secreting cell lines were produced by EBV immortalization of human B cells. The mAbs were specific for the group B polysaccharide and bound to strains of all five serotypes as demonstrated by ELISA and crossed immunoelectrophoresis. The mAbs reacted and opsonized 100% (132/132) of the clinical isolates tested which represented all four capsule types. Both prophylactic and therapeutic protection with these mAbs were demonstrated in neonatal rats given lethal infections of types Ia and III human clinical isolates. These data indicate that a single human mAb directed against the group B carbohydrate can protect against GBS infections caused by the different serotypes. This antibody may be useful in the passive immunotherapy of infants infected with GBS.

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Survival of Bacterial Enteric Pathogens in Farm Pond Water

Andie¹,

Weiser²,

Maloney³

1967

Journal AWWA

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The longevity of representative species of bacterial enteric pathogens exposed to water from Ohio farm ponds was studied. Salmonella species survived about 16 days, while Shigella species survived about 12 days, indicating survival of enteric pathogens in pond water for a significant time interval. These observations emphasize the importance of preventive measures to block entrance of such organisms into pond waters, including such precautions as location of the pond in a spot that will avoid polluting drainage and exclusion of farm animals from the pond watershed. The results also emphasize the importance of an effective water treatment system that is properly maintained.

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Grace Maloney

Human Monoclonal Antibody with Protective Activity for Escherichia coli K1 and Neisseria meningitidis Group B Infections

Comparison of Functional Activities between IgG1 and IgM Class-Switched Human Monoclonal Antibodies Reactive with Group B Streptococci or Escherichia coli K1

Peptides related to the carboxyl terminus of human platelet factor IV with antibacterial activity.

Human monoclonal antibodies to group B streptococcus. Reactivity and in vivo protection against multiple serotypes.

Survival of Bacterial Enteric Pathogens in Farm Pond Water

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