Sharon Samuel scite author profile

Purpose The use of receptor-targeted antibodies conjugated to fluorophores is actively being explored for real-time imaging of disease states, however, the toxicity of the bioconjugate has not been assessed in non-human primates. Procedures To this end, the in vivo toxicity and pharmacokinetics of IRDye800 conjugated to cetuximab (cetuximab-IRDye800; 21 mg/kg; equivalent to 250 mg/m2 human dose) was assessed in male cynomolgus monkeysover15 days following intravenous injection and compared with an unlabeled cetuximab-dosed control group. Results Cetuximab-IRDye800 was well tolerated. There were no infusion reactions, adverse clinical signs, mortality, weight loss, or clinical histopathology findings. The plasma half-life for the cetuximab-IRDye800 and cetuximab groups were equivalent (2.5 days). The total recovered cetuximab-IRDye800 in all tissues at study termination was estimated to be 12% of the total dose. Both cetuximab-IRDye800 and cetuximab groups showed increased QTc after dosing. The QTc for the cetuximab-dosed group returned to baseline by day 15, while the QTc of the cetuximab-IRDye800 remained elevated compared to baseline. Conclusion IRDye800 in low molar ratios does not significantly impact cetuximab half-life or result in organ toxicity. These studies support careful cardiac monitoring (ECG) for human studies using fluorescent dyes.

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A ferret model of COPD-related chronic bronchitis

Raju¹,

Kim²,

Byzek³

et al. 2016

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Chronic obstructive pulmonary disease (COPD) is the third leading cause of death in the US. The majority of COPD patients have symptoms of chronic bronchitis, which lacks specific therapies. A major impediment to therapeutic development has been the absence of animal models that recapitulate key clinical and pathologic features of human disease. Ferrets are well suited for the investigation of the significance of respiratory diseases, given prior data indicating similarities to human airway physiology and submucosal gland distribution. Here, we exposed ferrets to chronic cigarette smoke and found them to approximate complex clinical features of human COPD. Unlike mice, which develop solely emphysema, smoke-exposed ferrets exhibited markedly higher numbers of early-morning spontaneous coughs and sporadic infectious exacerbations as well as a higher level of airway obstruction accompanied by goblet cell metaplasia/hyperplasia and increased mucus expression in small airways, indicative of chronic bronchitis and bronchiolitis. Overall, we demonstrate the first COPD animal model exhibiting clinical and pathologic features of chronic bronchitis to our knowledge, providing a key advance that will greatly facilitate the preclinical development of novel treatments for this disease.

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Adoptively transferred ex vivo expanded γδ-T cells mediate in vivo antitumor activity in preclinical mouse models of breast cancer

Beck

Kim

et al. 2009

Breast Cancer Res Treat

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In contrast to antigen-specific αβ-T cells (adaptive immune system), γδ-T cells can recognize and lyse malignantly transformed cells almost immediately upon encounter in a manner that does not require the recognition of tumor-specific antigens (innate immune system). Given the welldocumented capacity of γδ-T cells to innately kill a variety of malignant cells, efforts are now actively underway to exploit the antitumor properties of γδ-T cells for clinical purposes. Here, we present for the first time preclinical in vivo mouse models of γδ-T cell-based immunotherapy directed against breast cancer. These studies were explicitly designed to approximate clinical situations in which adoptively-transferred γδ-T cells would be employed therapeutically against breast cancer. Using radioisotope-labeled γδ-T cells, we first show that adoptively-transferred γδ-T cells localize to breast tumors in a mouse model (4T1 mammary adenocarcinoma) of human breast cancer. Moreover, by using an antibody directed against the γδ-T cell receptor (TCR) we determined that localization of adoptively-transferred γδ-T cells to tumor is a TCR-dependant process. Additionally, biodistribution studies revealed that adoptively-transferred γδ-T cells traffic differently in tumor-bearing mice compared to healthy with fewer γδ-T cells localizing into the spleens of tumor-bearing mice. Finally, in both syngeneic (4T1) and xenogeneic (2Lmp) models of breast cancer, we demonstrate that adoptively-transferred γδ-T cells are both effective against breast cancer and are otherwise welltolerated by treated animals. These findings provide a strong preclinical rationale for using ex vivo expanded adoptively-transferred γδ-T cells as a form of cell-based immunotherapy for the treatment of breast cancer. Additionally, these studies establish that clinically-applicable methods for radiolabeling γδ-T cells allows for the tracking of adoptively-transferred γδ-T cells in tumor-bearing hosts.

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SPARC-Independent Delivery of Nab-Paclitaxel without Depleting Tumor Stroma in Patient-Derived Pancreatic Cancer Xenografts

Kim

Samuel

López-Casas

et al. 2016

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The study goal was to examine the relationship between nab-paclitaxel delivery and SPARC (secreted protein acidic and rich in cysteine) expression in pancreatic tumor xenografts and to determine the anti-stromal effect of nab-paclitaxel, which may affect tumor vascular perfusion. SPARC positive and negative mice bearing Panc02 tumor xenografts (n=5–6/group) were injected with IRDye 800CW (IR800)-labeled nab-paclitaxel. After 24 hours, tumors were collected and stained with DL650-labeled anti-SPARC antibody, and the correlation between nab-paclitaxel and SPARC distributions was examined. Eight groups of mice bearing either Panc039 or Panc198 patient-derived xenografts (PDXs) (4 groups/model, 5 animals/group) were untreated (served as control) or treated with gemcitabine (100 mg/kg BW, i.p., twice per week), nab-paclitaxel (30 mg/kg BW, i.v., for 5 consecutive days), and these agents in combination, respectively, for 3 weeks, and tumor volume and perfusion changes were assessed using T2-weighted magnetic resonance imaging (MRI) and dynamic contrast-enhanced (DCE) MRI, respectively. All tumors were collected and stained with Masson’s Trichrome Stain, followed by a blinded comparative analysis of tumor stroma density. IR800-nab-paclitaxel was mainly distributed in tumor stromal tissue, but nab-paclitaxel and SPARC distributions were minimally correlated in either SPARC positive or negative animals. Nab-paclitaxel treatment did not decrease tumor stroma nor increase tumor vascular perfusion in either PDX model when compared to control groups. These data suggest that the specific tumor delivery of nab-paclitaxel is not directly related to SPARC expression, and nab-paclitaxel does not deplete tumor stroma in general.

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Sharon Samuel

Mechanism of satisfaction of search: eye position recordings in the reading of chest radiographs.

IND-Directed Safety and Biodistribution Study of Intravenously Injected Cetuximab-IRDye800 in Cynomolgus Macaques

A ferret model of COPD-related chronic bronchitis

Adoptively transferred ex vivo expanded γδ-T cells mediate in vivo antitumor activity in preclinical mouse models of breast cancer

SPARC-Independent Delivery of Nab-Paclitaxel without Depleting Tumor Stroma in Patient-Derived Pancreatic Cancer Xenografts

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