Tandra R. Chaudhuri

FcγRs Modulate Cytotoxicity of Anti-Fas Antibodies: Implications for Agonistic Antibody-Based Therapeutics

Development of anti-Fas Abs to treat diseases with insufficient Fas-mediated apoptosis has been limited by concern about hepatotoxicity. We report here that hepatotoxicity elicited by anti-Fas Ab Jo2 is dependent on FcγRIIB. Thus, following Jo2 treatment, all FcγRIIB−/− mice survived while 80% of wild-type and all FcR-γ−/− mice died from acute liver failure. Microscopic examination suggests that FcγRIIB deficiency protects the hepatic sinusoidal endothelium, a cell type that normally coexpresses Fas and FcγRIIB. In vitro studies showed that FcγRIIB, but not FcγRI and FcγRIII, on neighboring macrophages substantially enhanced Jo2 mediated apoptosis of Fas expressing target cells. However, FcγRI and FcγRIII appeared essential for apoptosis-inducing activity of a non-hepatotoxic anti-Fas mAb HFE7A. These findings imply that by interacting with the Fc region of agonistic Abs, FcγRs can modulate both the desired and undesired consequences of Ab-based therapy. Recognizing this fact should facilitate development of safer and more efficacious agonistic Abs.

The type 2 human somatostatin receptor as a platform for reporter gene imaging.

Abstract. The human somatostatin receptor subtype 2A (hSSTr2) is under evaluation as a reporter gene for molecular imaging applications. Two approved somatostatin analogues are already available for imaging expression of the reporter gene following delivery with adenoviral (Ad) vectors or other genetic targeting strategies. In animal models, Ad-mediated expression of hSSTr2 in subcutaneous and intraperitoneal tumors was detected by non-invasive gamma camera imaging. This review discusses the rationale and strategy for using the hSSTr2 reporter gene as a platform for imaging applications.

Use of fluorescent labeled anti–epidermal growth factor receptor antibody to image head and neck squamous cell carcinoma xenografts

Physicians and surgeons rely on subtle tissue changes to detect the extent of tumors and the presence of residual disease in the clinical setting. The development of a cancer-specific fluorescent contrast agent has the potential to provide real-time tumor imaging in the clinic or operating room. Because epidermal growth factor receptor (EGFR) is highly overexpressed on the surface of head and neck squamous cell carcinoma (HNSCC), we sought to determine if fluorescently labeled anti-EGFR antibody could be used to image HNSCC xenografts in vivo. Cetuximab or control isotype-matched IgG1 was conjugated with the Cy5.5 fluorochrome and systemically injected into mice bearing human split thickness skin grafts, tumor cell line xenografts, transplanted human tumor xenografts, or mouse mesothelioma tumors. Xenografts were imaged by time-domain fluorescence imaging or fluorescence stereomicroscopy. Both imaging modalities detected specific uptake of cetuximab-Cy5.5 in HNSCC xenografts with significantly higher fluorescence levels relative to control IgG1-Cy5.5. Tumor xenograft fluorescence was higher compared with background (before injection), human split thickness skin grafts, or mouse mesothelioma tumors at 24, 48, and 72 h. Fluorescence was detected in multiple HNSCC tumor cell lines with variable EGFR expression levels. Mock resections of flank tumors using fluorescence stereomicroscopy showed that small (2 mm) specimens could be detected in the surgical wound bed. These results show the feasibility of using fluorescently labeled anti-EGFR antibody to detect human tumors in the surgical setting. [Mol Cancer Ther 2007;6(4):1230–8]

Noninvasive dual modality in vivo monitoring of the persistence and potency of a tumor targeted conditionally replicating adenovirus

In clinical trials with cancer patients, the safety of conditionally replicating adenoviruses (CRAds) has been good. However, marginal data are available on the persistence or antitumor efficacy of these agents. The oncolytic potency of CRAds is determined by their capacity for entering target cells. Consequently, we constructed a retargeted CRAd featuring a secreted marker protein, soluble human carcinoembryogenic antigen (hCEA), which can be measured in growth medium or plasma. We found that virus replication closely correlated with hCEA secretion both in vitro and in vivo. Further, antitumor efficacy and the persistence of the virus could be deduced from plasma hCEA levels. Finally, using in vivo bioluminescence imaging, we were able to detect effective tumor cell killing by the virus, which led to enhanced therapeutic efficacy.

Specific targeting of activated endothelium in rat adjuvant arthritis with a 99mTc-radiolabeled E-selectin-binding peptide.

OBJECTIVE To determine the potential of an E-selectin-binding peptide (ESbp) to specifically bind activated endothelium in rheumatoid arthritis (RA) animal models. METHODS ESbp (KYDGDITWDQLWDLMK; 2,027 daltons) was labeled with biotin and 99mTc. The affinity of ESbp derivatives for E-selectin was measured by enzyme-linked immunosorbent assay. The binding of biotin-ESbp was compared with that of an anti-E-selectin antibody, by immunohistochemical analyses of human synovial sections and sections from the Mycoplasma pulmonis MRL-lpr/lpr mouse arthritis model. 99mTc-ESbp was sequentially imaged in vivo with a gamma camera in the rat adjuvant-induced arthritis model. RESULTS E-selectin expression was detected in human RA synovium and mouse arthritic synovium using biotin-ESbp. Both biotin-ESbp and 99mTc-labeled ESbp had high affinity for E-selectin (dissociation constant 2-5 nM). In vivo imaging showed specific binding of 99mTc-ESbp to the rat ankle joint prior to clinical manifestations of inflammation. CONCLUSION These results demonstrate that activated endothelium can be targeted with 99mTc-ESbp. The specificity of targeting can be used to evaluate up-regulation of E-selectin in RA models, and to follow changes in this up-regulation during treatment trials.

Bioluminescence imaging reveals a significant role for complement in liver transduction following intravenous delivery of adenovirus

The effect of complement on transgene expression was evaluated in vivo and in vitro using mice lacking complement components. Complement component 3 (C3) deficient mice (C3−/−) and appropriate wild-type controls were intravenously injected with a replication incompetent, luciferase-expressing normal Ad5 (Ad5Luc1), or fibritin-fiber Ad5 (Ad5FFLuc1). Repeated, noninvasive bioluminescence imaging was conducted over 35 days. Our data show for the first time that C3 facilitates both short- and long-term hepatic expression of luciferase following systemic delivery. C3−/− mice showed significantly less (P<0.05) luciferase expression in their liver than treatment-matched wild-type mice when 2.3 × 109 (Ad5Luc1) and 4.0 × 109 (Ad5Luc1 or Ad5FFLuc1) viral particles (v.p.) were infused. The maximal difference in luciferase activity between C3−/− and wild-type mice was 99-fold difference at 3 days for the 2.3 × 109 v.p. dose (Ad5Luc1), 35-fold at 13 days for the 4.0 × 109 v.p. dose (Ad5Luc1), and 22-fold at 13 days for the 4.0 × 109 v.p. dose (Ad5FFLuc1). Preincubation of Ad5Luc1 with wild-type, C1q−/−, or factor B (FB) deficient mouse sera for 5 min significantly (P<0.05) increased transduction of mouse liver cells, as compared to preincubation with C3−/− sera or PBS. These results suggest the classical or alternate complement pathway enhances Ad5-mediated liver transduction.

Detection and measurement of in vitro gene transfer by gamma camera imaging

The purpose of this work was to develop a high capacity method to image gene transfer to cancer cells growing as monolayers in cell culture plates. A sensitive and high capacity nuclear-imaging method for detection of gene transfer in vitro will allow rapid validation of vectors in different cell lines under various conditions. Human cancer cell lines (A-427 non-small cell lung, SKOV3.ip1 ovarian, MDA-MB-468 breast, and BxPC-3 pancreatic) were infected with a replication-incompetent adenoviral vector encoding the human type 2 somatostatin receptor (Ad-hSSTr2). Expression of the hSSTr2 reporter protein in cells was detected by imaging an internalized 99mTc-labeled, hSSTr2 binding peptide (P2045, Diatide, Inc.). Imaging provided an accurate measure of internally bound 99mTc as evidenced by equivalence of results for imaging region of interest (ROI) analyses and gamma counter measurements. Internally bound 99mTc-P2045 was linearly correlated (R2 = 0.98) with the percentage of hSSTr2-positive cells following gene transfer. Excess P2045 blocked binding and internalization of the 99mTc-P2045, indicating the specificity of the technique. Up to four 96-well plates could be imaged simultaneously, thereby demonstrating the high capacity of the system. This novel in vitro approach provides a new method to test enhanced gene transfer as new vectors are developed.

Non-invasive gamma camera imaging of gene transfer using an adenoviral vector encoding an epitope-tagged receptor as a reporter

A model epitope-tagged receptor was constructed by fusing the hemagglutinin (HA) sequence on the extracellular N-terminus of the human somatostatin receptor subtype 2 (hSSTr2) gene. This construct was placed in an adenoviral (Ad-HAhSSTr2) vector. This study evaluated Ad-HAhSSTr2 in vitro and in vivo using FACS, fluorescent microscopy, radioactive binding assays, and gamma camera imaging techniques. Infection of A-427 non-small cell lung cancer cells with Ad-HAhSSTr2 or Ad-hSSTr2 resulted in similar expression of hSSTr2 by FACS analysis and binding assays using a 99mTc-labeled somatostatin analogue (99mTc-P2045). HAhSSTr2 expression in A-427 cells was specific for infection with Ad-HAhSSTr2. FITC-labeled anti-HA antibody (FITC-HA) confirmed surface expression in live A-427 cells and the absence of internalization. Gamma camera imaging and gamma counter analysis of normal mice showed significantly greater (P<0.05) liver uptake of 99mTc-labeled anti-HA antibody (99mTc-anti-HA) in mice injected i.v. 48 h earlier with Ad-HAhSSTr2 (53.6±6.9% ID/g) as compared to mice similarly injected with Ad-hSSTr2 (9.0±1.3% ID/g). In a mouse tumor model, imaging detected increased tumor localization of 99mTc-anti-HA due to direct intratumor injection Ad-HAhSSTr2. Gamma counter analysis confirmed significantly greater (P<0.05) uptake of 99mTc-anti-HA in tumors injected with Ad-HAhSSTr2 (12.5±4.1% ID/g) as compared to Ad-hSSTr2-infected tumors (5.1±1.5% ID/g). These studies demonstrate the feasibility of using an epitope-tagged reporter receptor for non-invasively imaging gene transfer.

Intraperitoneal Pretarget Radioimmunotherapy with CC49 Fusion Protein

Purpose: This study examined a pretarget radioimmunotherapy strategy for treatment of an i.p. tumor model (LS174T). Experimental Design: The strategy used regional administration (i.p.) of a novel targeting molecule composed of four CC49 anti–tumor-associated glycoprotein 72 (TAG-72) single-chain antibodies linked to streptavidin as a fusion protein (CC49 fusion protein); 24 hours later, a synthetic clearing agent was administered i.v. to produce hepatic clearance of unbound CC49 fusion protein/synthetic clearing agent complexes. Four hours later, a low molecular weight radiolabeled reagent composed of biotin conjugated to the chelating agent 7,10-tetra-azacyclododecane-N,N′,N″,N‴-tetraacetic acid (DOTA) complexed with 111In-, 90Y-, or 177Lu-DOTA-biotin was injected. Results: Radiolocalization to tumor sites was superior with i.p. administration of radiolabeled DOTA-biotin as compared with i.v. administration. Imaging and biodistribution studies showed excellent tumor localization of radioactivity with 111In- or 177Lu-DOTA-biotin. Tumor localization of 111In-DOTA-biotin was 43% ID/g and 44% ID/g at 4 and 24 hours with the highest normal tissue localization in the kidney with 6% ID/g at 48 and 72 hours. Therapy studies with 90Y-DOTA-biotin at doses of 400 to 600 μCi or 177Lu-DOTA-biotin at doses of 600 to 800 μCi produced significant prolongation of survival compared with controls (P = 0.03 and P < 0.01). Conclusions: Pretarget radioimmunotherapy using regional administration of CC49 fusion protein and i.p. 90Y- or 177Lu-DOTA-biotin represents a successful therapeutic strategy in the LS174T i.p. tumor model and this strategy may be applicable to human trials in patients with i.p. ovarian cancer.

Imaging Tc-99m-labeled FGF-1 targeting in rats.

Recombinant human acidic fibroblast growth factor (FGF-1) was radiolabeled with (99m)Tc by the HYNIC method. The (99m)Tc-FGF-1 retained its representative molecular mass, heparin affinity, cellular binding to both low (Kd = 9.5 nM) and high (Kd = 125 pM) affinity sites, and mitogenic activity. Gamma camera imaging after intravenous dosing in rats confirmed high liver and kidney binding. Heparin significantly decreased (99m)Tc-FGF-1 liver uptake and increased urinary excretion. These studies illustrate a new method for imaging FGF-1 targeting under various conditions.