Joseph M. Petroziello scite author profile

Metastatic renal cell carcinoma (RCC) is an aggressive disease refractory to most existing therapeutic modalities. Identifying new markers for disease progression and drug targets for RCC will benefit this unmet medical need. We report a subset of clear cell and papillary cell RCC aberrantly expressing the lymphocyte activation marker CD70, a member of the tumor necrosis factor superfamily. Importantly, CD70 expression was found to be maintained at the metastatic sites of RCC. Anti-CD70 antibody-drug conjugates (ADC) consisting of auristatin phenylalanine phenylenediamine (AFP) or monomethyl auristatin phenylalanine (MMAF), two novel derivatives of the anti-tubulin agent auristatin, mediated potent antigendependent cytotoxicity in CD70-expressing RCC cells. Cytotoxic activity of these anti-CD70 ADCs was associated with their internalization and subcellular trafficking through the endosomal-lysosomal pathway, disruption of cellular microtubule network, and G 2 -M phase cell cycle arrest. The efficiency of drug delivery using anti-CD70 as vehicle was illustrated by the much enhanced cytotoxicity of antibodyconjugated MMAF compared with free MMAF. Hence, ADCs targeted to CD70 can selectively recognize RCC, internalize, and reach the appropriate subcellular compartment(s) for drug release and tumor cell killing. In vitro cytotoxicity of these ADCs was confirmed in xenograft models using RCC cell lines. Our findings provide evidence that CD70 is an attractive target for antibody-based therapeutics against metastatic RCC and suggest that anti-CD70 ADCs can provide a new treatment approach for advanced RCC patients who currently have no

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Suppression subtractive hybridization and expression profiling identifies a unique set of genes overexpressed in non-small-cell lung cancer

Petroziello

Yamane

Westendorf

et al. 2004

Oncogene

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Molecular genotyping of methicillin-resistant Staphylococcus aureus via fluorophore-enhanced repetitive-sequence PCR

et al. 1995

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Methicillin resistance in Staphylococcus aureus is a frequent cause of nosocomial and community-acquired infections. Accurate, rapid epidemiologic typing is crucial to the identification of the source and spread of infectious disease and could provide detailed information on the generation of methicillin-resistant S. aureus (MRSA) strains. The high degree of genetic relatedness of MRSA strains has precluded the use of more conventional methods of genetic fingerprinting. A rapid DNA fingerprinting method that exploits PCR amplification from a DNA repeat sequence in MRSA is described. The random chromosomal distribution of this repeat sequence provides an ideal target for detecting DNA fragment patterns specific to individual MRSA strains. Two PCR fingerprinting methods which use an oligonucleotide primer based on a repetitive sequence found in Mycoplasma pneumoniae are presented. The repetitive element sequence-based PCR (rep-PCR) and fluorophore-enhanced rep-PCR (FERP) can identify epidemic strains among background MRSA. The combination of oligonucleotide primers labeled with different fluorescent dyes allowed simultaneous FERP fingerprinting and mecA gene detection. Eight different fingerprint patterns were observed in MRSA strains collected from different sources. These techniques provide a rapid discriminatory means of molecular epidemiologic typing of MRSA involved in nosocomial infections.

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A PCR assay for identification of Enterococcus faecium

et al. 1997

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Enterococcus faecium has recently emerged as a serious nosocomial pathogen. The prevalence and severity of enterococcal infections, the mortality rate from such infections, and the antibiotic resistance of enterococci are often species dependent. Since conventional biochemical methods fail to differentiate E. faecium from certain newly described enterococcal species, a PCR-based assay was developed for the rapid identification of E. faecium.

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Development of a diagnostic polymerase chain reaction assay for detection ofMycoplasma hominis

Gallia

Petroziello

Brogan

et al. 1995

Molecular and Cellular Probes

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The Anti-CD30 Monoclonal Antibody SGN-30 Inhibits Hodgkins Disease Growth and Sensitizes Cells to Established Chemotherapeutics.

Cerveny

Law

McCormick

et al. 2004

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SGN-30, a chimeric monoclonal antibody with apoptotic-signaling activity against CD30-positive malignancies, is currently in Phase II clinical evaluation against anaplastic large cell lymphoma and Hodgkin’s disease (HD). Mechanisms underlying SGN-30’s anti-tumor activity were evaluated using cDNA array analysis of SGN-30-treated L540 HD cells. Changes in expression of growth and apoptotic related genes including cyclin D2 and p21CIP1/WAF1 followed treatment of L540 and L540cy cells with SGN-30. Intra-cellular staining showed increases in both activated caspase-3 and p21CIP1/WAF1 in L540cy. These alterations coincided with increased Annexin V/PI staining. In addition to directly inducing apoptosis, SGN-30 mediated alterations in gene expression and could sensitize cells to standard chemotherapeutics. To evaluate this potential, L540cy cells were treated for 24 h with SGN-30 followed by exposure to a panel of chemotherapeutics commonly used in HD therapy and the combinations quantified by the Combination Effects method. Most of the chemotherapies examined were at least additive or better in combination with SGN-30, with bleomycin producing the strongest synergistic response. In vitro data were confirmed by the significantly increased efficacy of SGN-30 and bleomycin against established L540cy HD tumor xenografts in SCID mice. Results suggest that in addition to direct cell killing, SGN-30 binding to CD30 on HD tumor cells effects both growth arrest and drug sensitization by altering gene expression of cell cycle and apoptotic-related genes. Importantly, tumor cell sensitization to established chemotherapies, in particular DNA damaging agents used to treat HD, suggests that SGN-30 could improve the outcome of current drug-based therapies for treating HD.

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