Effect of Pseudomonas aeruginosa rhamnolipids on mucociliary transport and ciliary beating
Pseudomonas aeruginosa rhamnolipid causes ciliostasis and cell membrane damage to rabbit tissue, is a secretagogue in cats, and inhibits epithelial ion transport in sheep tissue. It could therefore perturb mucociliary clearance. We have investigated the effect of rhamnolipid on mucociliary transport in the anesthetized guinea pig and guinea pig and human respiratory epithelium in vitro. Application of rhamnolipid to the guinea pig tracheal mucosa reduced tracheal mucus velocity (TMV) in vivo in a dose-dependent manner: a 10-microgram bolus caused cessation of TMV without recovery; a 5-micrograms bolus reduced TMV over a period of 2 h by 22.6% (P = 0.037); a 2.5-microgram bolus caused no overall changes in TMV. The ultrastructure of guinea pig tracheal epithelium exposed to 10 micrograms of rhamnolipid in vivo was normal. Application of 1,000 micrograms/ml rhamnolipid had no effect on the ciliary beat frequency (CBF) of guinea pig tracheal rings in vitro after 30 min, but 250 micrograms/ml stopped ciliary beating after 3 h. Treatment with 100 micrograms/ml rhamnolipid caused immediate slowing of the CBF (P less than 0.01) of human nasal brushings (n = 7), which was maintained for 4 h. Mono- and dirhamnolipid had equivalent effects. The CBF of human nasal turbinate organ culture was also slowed by 100 micrograms/ml rhamnolipid, but only after 4 h (CBF test, 9.87 +/- 0.41 Hz; control, 11.48 +/- 0.27 Hz; P less than 0.05, n = 6), and there was subsequent recovery by 14 h.(ABSTRACT TRUNCATED AT 250 WORDS)
RAV12 is a chimeric antibody that recognizes an N-linked carbohydrate antigen (RAAG12) strongly expressed on multiple solid organ cancers. More than 90% of tumors of colorectal, gastric, and pancreatic origin express RAAG12, and a majority of these tumors exhibit uniform RAAG12 expression. RAV12 exhibits potent cytotoxic activity in vitro against COLO 205 colon tumor cells via an oncotic cell death mechanism. RAV12-treated COLO 205 cells undergo morphologic changes consistent with oncosis, including cytoskeletal rearrangement, rapid plasma membrane swelling, and cell lysis. RAV12 inhibited the growth of RAAG12-expressing gastrointestinal tumor xenografts in athymic mice. In the case of SNU-16 tumor cells, twice weekly treatment of established s.c. tumors with 10 mg/kg RAV12 caused a f70% suppression of tumor growth at the end of the study. This preclinical data has led to the initiation of a phase I/IIA clinical study of RAV12 in patients with metastatic or recurrent adenocarcinoma. [Mol Cancer Ther 2007;6(3):856 -65]
We have developed MGD007 (anti-glycoprotein A33 x anti-CD3), a DART protein designed to redirect T cells to target gpA33 expressing colon cancer. The gpA33 target was selected on the basis of an antibody-based screen to identify cancer antigens universally expressed in both primary and metastatic colorectal cancer specimens, including putative cancer stem cell populations. MGD007 displays the anticipated-bispecific binding properties and mediates potent lysis of gpA33-positive cancer cell lines, including models of colorectal cancer stem cells, through recruitment of T cells. Xenograft studies showed tumor growth inhibition at doses as low as 4 μg/kg. Both CD8 and CD4 T cells mediated lysis of gpA33-expressing tumor cells, with activity accompanied by increases in granzyme and perforin. Notably, suppressive T-cell populations could also be leveraged to mediate lysis of gpA33-expressing tumor cells. Concomitant with CTL activity, both T-cell activation and expansion are observed in a gpA33-dependent manner. No cytokine activation was observed with human PBMC alone, consistent with the absence of gpA33 expression on peripheral blood cell populations. Following prolonged exposure to MGD007 and gpA33 positive tumor cells, T cells express PD-1 and LAG-3 and acquire a memory phenotype but retain ability to support potent cell killing. In cynomolgus monkeys, 4 weekly doses of 100 μg/kg were well tolerated, with prolonged PK consistent with that of an Fc-containing molecule. Taken together, MGD007 displays potent activity against colorectal cancer cells consistent with a mechanism of action endowed in its design and support further investigation of MGD007 as a potential novel therapeutic treatment for colorectal cancer. .
Introduction: Lung cancer is the most common cause of cancer death worldwide: with greater than 160,000 deaths reported in the US in 2008 and a dismal 15% 5-year survival rate, there is a clear need for improved therapeutic approaches. Considering the increasing evidence for the role of cancer stem cells (CSC) in driving tumor initiation and metastases, development of model systems to isolate and characterize such populations in lung cancer would provide important tools to drive discovery of novel therapeutic modalities. We recently reported application of selective culture conditions to generate novel cell lines from colon cancer that exhibit CSC properties (1). Here we apply a similar approach to lung cancer. Methodology: Freshly resected NSLC tissue was obtained, processed and cultured using serum-free defined culture media previously developed for fetal lung stem cells (2). Expanded cell lines were characterized for their tumor initiating properties in NSG mice upon implantation under the sub-renal capsule. Cell populations generated from lung cancer under serum-containing conditions served as controls. Tumors were analyzed by H&E and immunostaining for specific markers. Gene expression profiles were determined by U133 Affymetrix arraying, and the cell surface protein profile examined by flow cytometry using a bank of approximately ∼200 cell surface reactive mAbs. Results: Lung cancer cell lines, were successfully cultured from independent lung tumor specimens and remained genetically stable upon prolonged passaging in vitro. One such line, LUCA22, was derived from an adenosquamous carcinoma specimen and harbors a KRAS mutation. This line formed tumors in mice within 10 weeks upon implantation of as few as 500 cells; these tumors recapitulated the morphology of the patient's original tumor, with mixed features that included differentiation into both adeno- and squamous-type carcinoma. Within 16 weeks, spontaneous metastases were observed to the lung, liver and pancreas. Gene array analyses of LUCA22 cells compared to control populations revealed up-regulation of genes associated with the Wnt and TGF-beta pathways, while flow cytometry identified over-expression of several CSC-associated cell surface proteins, including CD44. Conclusion: Novel NSCL cell lines have been derived from primary tumor specimens by employing culture conditions previously established for tissue stem cells. These lines display key features ascribed to CSC including the capacity to recapitulate the original tumor morphology from where they were derived and the ability to spontaneously metastasize. Gene array analysis and mAbs library panning of the cell lines are being applied to identify lead opportunities for targeting lung cancer stem cells. References: (1) Roberts et al., 2010, ISSCR Annual Meeting Abstract #840; (2) Roberts et al., 1990, Amer J Physiol: 3:415 Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr 502. doi:10.1158/1538-7445.AM2011-502
Introduction: Recent studies have implied that solid tumors including colon cancer, can arise from tissue-specific stem cells. Defined serum-free culture conditions, employed to select for fetal colon epithelial progenitor cells, were utilized to isolate and expand a sub-population of epithelial cells from human tumors resected from a repertoire of colon cancer patients (Roberts 2011, AACR #5211). These cancer stem-like cell (CSLC) lines are stable homogenous populations that, when cultured under conditions that promote colon crypt differentiation, differentiate into organoids containing the 3 principal cell types seen in the colon and in differentiated colorectal tumors. In vivo they form tumors that fully recapitulate the morphologic and phenotypic characteristics of the patients’ original tumors. While any consistent definition of cancer stem cell properties remains elusive, these CSLC providing unique tools to interrogate the biology of CSC or tumor initiating cells, and identify CSC-expressed surface antigens. Methods: Cell immunizations were performed with colon CSLC. mAbs were analyzed by IHC to determine their reactivity toward normal and cancer tissues as well as a panel of cancer lines including colon CSLC. Antitumor bioactivity screens were followed by antigen identification of promising candidates. Affymetrix U133 micro-array analysis was performed to profile gene expression and Taqman analyses performed to identify differentially expressed genes compared to non-CSLC control populations. Results: mAbs from CSLC immunizations included a subset that displayed uniform binding across the complete panel of CSLC lines while displaying high penetrance of expression on both primary and metastatic colon cancer tissues. Expression cloning identified the antigen as glycoprotein A33 (gpA33), which was confirmed by IP and SPR analyses. Transcriptional profiling confirmed elevated gpA33 expression across the panel of colon CSLC in addition to revealing enhanced LGR5, ASCL2 and SOX9 expression, consistent with the CSLC having a colon stem cell origin. The uniform expression of gpA33 on putative cancer stem cell populations is distinguished from other cell surface molecules generally regarded as “canonical” CSC markers, including CD133 and CD44, which are variably expressed. Conclusion: gpA33 is an antigen with excellent expression penetrance in colon cancer and colon cancer-derived CSLC. As shown here, immunizations with CSLC lines can yield antibodies specific for colon cancer antigens that may also represent CSC expressed markers. This provides an example how new therapeutic antibody candidates can be generated to recognize and target both differentiated cancer cells as well as their associated CSC population. Citation Format: Jonathan Li, Claudia B. Fieger, Penny Roberts, Doug Smith, Monica Licea, Jeff Hooley, Francine Chen, Kathy King, Jennie Mather, Ezio Bonvini, Deryk Loo, Paul A. Moore. Identification of gpA33 as a marker expressed on colon cancer stem cell lines. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 3763. doi:10.1158/1538-7445.AM2013-3763
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