Limor Chen - Academia.edu (original) (raw)

Papers by Limor Chen

splenic microenvironment is a source of proangiogenesis/inflammatory

An approach to enhance the immunogenicity of peptide-based vaccines for malaria and the immunoreg... more An approach to enhance the immunogenicity of peptide-based vaccines for malaria and the immunoregulatory activity of recombinant human interleukin-lot (IL-1) is described. The approach involves the encapsulation of these molecules in, and their controlled release from, biodegradable polyester microspberes of lactic and glycolic acids (PLGA). The microspheres are prepared by the modified solvent evaporation method based on a double emulsion. Two types of microspheres composed of PLGA (75: 25 lactic/glycolic acid) and of different MW were constructed for each molecule. The release characteristics of these molecules from these microspheres were evaluated using spectroscopy and bioactivity assays. In vivo studies established the feasibility of PLGA carriers as an immunization vehicle for malaria peptide-based vaccines; the induced immune responses in mice were stronger than those obtained with peptide in complete Freund's adjuvant. In addition, these studies provide preliminary evidence that PLGA microspheres with encapsulated IL-1 can be used as a new strategy for the efficient delivery of this cytokine to tumor sites in immunotberapy.

Reactive Polymers, 1995

Nature Medicine, 2002

The molecular diversity of receptors in human blood vessels remains largely unexplored. We develo... more The molecular diversity of receptors in human blood vessels remains largely unexplored. We developed a selection method in which peptides that home to specific vascular beds are identified after administration of a peptide library. Here we report the first in vivo screening of a peptide library in a patient. We surveyed 47,160 motifs that localized to different organs. This large-scale screening indicates that the tissue distribution of circulating peptides is nonrandom. High-throughput analysis of the motifs revealed similarities to ligands for differentially expressed cell-surface proteins, and a candidate ligand-receptor pair was validated. These data represent a step toward the construction of a molecular map of human vasculature and may have broad implications for the development of targeted therapies.

The Journal of Urology, 2003

With the goal of targeting the human bladder using phage display technology we designed and teste... more With the goal of targeting the human bladder using phage display technology we designed and tested a tissue binding assay on intact urothelium ex vivo. This approach may form the molecular basis for clinical development of peptide or peptidomimetic guided intravesical compounds. We screened 2 phage display random peptide libraries on human urothelium. Select peptides were tested for their binding ability to human urothelium, 2 human transitional cell carcinoma cell lines and a nontransitional cell carcinoma cell line. Next we standardized an ex vivo binding assay, validated binding of selected phage to whole urothelium, and evaluated whether receptor mediated internalization into urothelium derived cells occurred. Finally we tested if the presence of the glycosaminoglycan layer had any effect on the binding of the urothelium targeted phage. Phage selected and recovered in the screening were isolated and sequenced. Displayed peptide sequences were searched against online protein databases. Five classes of peptide motifs were characterized based on their ability to bind to normal urothelium but not to control cell lines. Remarkable consistency and reproducibility were observed in the ex vivo binding assays. Two classes of peptide motifs sharing the sequence Ile/Leu-Ser-Gly-Leu bound to normal urothelium and to 2 transitional cell carcinoma cells but not to nontransitional cell carcinoma cells in a glycosaminoglycan independent manner and mediated internalization into cells of urothelial origin. We introduce a strategy for screening combinatorial peptide libraries on bladder mucosa, a standard model for ex vivo intact urothelium binding assays and a panel of urothelium binding peptides that may be suitable for translation into targeted intravesical therapy applications.

Journal of Drug Targeting, 1999

Trinitrophenyl (TNP) modification of streptavidin (St) resulted in high and prolonged accumulatio... more Trinitrophenyl (TNP) modification of streptavidin (St) resulted in high and prolonged accumulation in mouse liver following intravenous administration of radioiodinated TNP streptavidin (TNP-St). Uptake, which is correlated with increased TNP substitution, was first observed at 2-3 h, increased to 40-50% of injected dose/gram tissue (%/g) at 24 h and slowly declined later on. A low degree of accumulation (10%/g) was observed in the spleen. TNP substitution of other proteins such as bovine serum albumin (BSA) or ovalbumin (Ova) led to a transient short-term liver uptake. The enzyme-resistance property of streptavidin and its biotin binding sites render TNP-modified streptavidin a potential targeting vehicle to the liver. 5-Fluorouridine (FUR) was attached to high molecular weight carrier carboxymethyldextran (CMdex, derived from 40 kDa dextran) and the dextran FUR conjugate was charged with 2-4 biotinyl groups (in the form of biotinyl-diaminopropionyl-tyrosine, BDT) for complexing to TNP-St. Biodistribution monitoring of the BDT-CMdex-FUR ligand, radiolabeled at the tyrosyl residue of BDT and targeted via non-radiolabeled TNP-St, showed that ligand accumulation in the liver was similar to TNP-St itself. Liver targeting of FUR was demonstrated by trace-labeling FUR with its structural analog 5,6-[3H]uridine prior to conjugation to dextran hydrazide. Specific liver accumulation of [3H] radioactivity occurred following administration of the conjugate only when complexed to TNP-St. Hepatic levels of [3H] radioactivity were in the range of 25%/g or 35% per whole liver during a period of at least 8 h, as compared to the rapid elimination of free FUR+[3H]uridine (4%/g at 20 min). [3H]-drug radioactivity disappeared at a faster rate as compared to 125I-dextran radioactivity, suggesting that metabolic processes required to generate the 5,6-[3H]uracil-containing active metabolites took place.

Journal of Drug Targeting, 1996

Hepatic metastases of malignant tumors is a major problem in the treatment of cancers for which t... more Hepatic metastases of malignant tumors is a major problem in the treatment of cancers for which the liver is the most common site for recurrences. In the present study we describe a selective delivery system to the liver which may facilitate specific hepatic targeting of anti-cancer agents. Avidin and streptavidin are two biotin-binding proteins with extreme resistance to proteolytic activity. Trinitrophenyl (TNP) modification of these two proteins resulted in specific accumulation in mouse liver with levels of 40-50 percent per gram tissue (%/g) during a period of several days. The two modified proteins could target to the liver high doses of covalently bound radionuclide iodine-125, a biotinylated ligand such as biotinyl-tyrosine (BT) or large biotinylated carriers such as carboxymethyl dextran (CMdex, 40kDa). Appropriately derivatized dextrans serve as carriers for various chemotherapeutic drugs, as demonstrated here for cis-dichlorodiammineplatinum (CDDP). Specific liver targeting of CDDP complexed to CMdex-TNP-streptavidin could be monitored by flame atomic absorption spectrometry of the Pt metal: High levels of the Pt drug were concentrated in the liver for at least 15hr following its targeted delivery as compared to essentially undetectable levels after administration of the free drug.

Journal of Controlled Release, 1997

This paper describes the preparation and characterization of poly (lactic-co-glycolic acid) micro... more This paper describes the preparation and characterization of poly (lactic-co-glycolic acid) microspheres for the continuous delivery of a recombinant human interleukin-1α (IL-1α), a cytokine that is investigated for the immunotherapy of tumors. The polymers forming the ...

Drug Development Research, 2000

ABSTRACT Selective delivery of biologically active substances is designed to overcome nonspecific... more ABSTRACT Selective delivery of biologically active substances is designed to overcome nonspecific biodistribution of drugs and increase their local concentration at the target tissue. Certain strategies are based on carrier-mediated delivery to selective tissues and organs through ligands recognized by receptors or other address molecules on target cells. Avidins offer an attractive approach to organ- or tissue-selective targeting. Avidin and streptavidin, two biotin-binding proteins, can be targeted to specific tissues when modified with appropriate tissue markers. Their resistance to proteolytic enzymes supports long-term accumulation at the target tissue or organ, and their biotin binding sites permit the delivery of biotinylated molecules or carriers loaded with cytotoxic drugs or other bioactive substances. Modification of the two proteins with tissue-specific markers (lactose for parenchymal and trinitrophenyl for nonparenchymal liver cells) resulted in high and prolonged accumulation in the target tissue. The modified proteins could target high doses of chemotherapeutic drugs (CDDP and 5-fluorouridine) to the liver through biotinyl dextran–derived carriers. Drug Dev. Res. 50:258–271, 2000. © 2000 Wiley-Liss, Inc.

Chemistry & Biology, 2004

Here we developed a bacteriophage display particle designed to serve as a bifunctional entity tha... more Here we developed a bacteriophage display particle designed to serve as a bifunctional entity that can target tumors while delivering an agent. We engineered a chimera phage vector containing a pIII-displayed alphav integrins-targeting moiety and a pVIII-displayed streptavidin binding adaptor moiety. By using the chimeric phage particle, targeting of alphav integrins on cells in culture and tumor-related blood vessels was shown through different applications, including luminescent quantum dots localization, surface plasmon resonance-based binding detection, and an in vivo tumor model. The strategy validated here will accelerate the discovery and characterization of receptor-ligand binding events in high throughput, and cell-specific delivery of diagnostics or therapeutics to organs of choice without the need for chemical conjugation.

Cancer Research, 2006

Because antiangiogenic therapies inhibit the growth of new tumor-associated blood vessels, as wel... more Because antiangiogenic therapies inhibit the growth of new tumor-associated blood vessels, as well as prune newly formed vasculature, they would be expected to reduce the supply of oxygen and thus increase tumor hypoxia. However, it is not clear if antiangiogenic treatments lead only to consistent and sustained increases in hypoxia, or transient decreases in tumor hypoxia along with periods of increased hypoxia. We undertook a detailed analysis of an orthotopically transplanted human breast carcinoma (MDA-MB-231) over a 3-week treatment period using DC101, an anti-vascular endothelial growth factor receptor 2 antibody. We observed consistent reductions in microvascular density, blood flow (measured by high-frequency micro-ultrasound), and perfusion. These effects resulted in an increase in the hypoxic tumor fraction, measured with an exogenous marker, pimonidazole, concurrent with an elevation in hypoxia-inducible factor-1A expression, an endogenous marker. The increase in tumor hypoxia was evident within 5 days and remained so throughout the entire course of treatment. Vascular perfusion and flow were impaired at days 2, 5, 7, 8, 14, and 21 after the first injection, but not at 4 hours. A modest increase in the vessel maturation index was detected after the 3-week treatment period, but this was not accompanied by an improvement in vascular function. These results suggest that sustained hypoxia and impairment of vascular function can be two consistent consequences of antiangiogenic drug treatment. The implications of the results are discussed, particularly with respect to how they relate to different theories for the counterintuitive chemosensitizing effects of antiangiogenic drugs, even when hypoxia is increased.

Cancer Research, 2005

Metronomic chemotherapy refers to the close, regular administration of comparatively low doses of... more Metronomic chemotherapy refers to the close, regular administration of comparatively low doses of cytotoxic drugs, with minimal or no drug-free breaks, over prolonged periods. It is thought to have an antiangiogenic basis. However, whereas surprisingly durable and potent tumor responses have been observed in a number of preclinical tumor models, relapses usually eventually occur using this type of treatment strategy. We therefore decided to test modified metronomic chemotherapy regimens that might significantly delay such relapses, but still maintain modest and acceptable toxicity profiles. Here, we show that repeated administration of bolus doses (BDs) of cyclophosphamide every 3 or 6 weeks, combined with a daily oral low-dose metronomic (LDM) regimen (20 mg/kg/d cyclophosphamide), improves efficacy and significantly delays progression of transplanted PC-3 human prostate cancer xenografts, syngeneic transplanted EMT-6 breast tumors, and ''spontaneous'' murine erythroleukemia. Efficacy was superior whereas toxicity was mild and comparable to the LDM regimen, the latter assessed by body weight, neutrophil, lymphocyte, and total white blood counts. Antiangiogenic activity, measured by reduction in circulating endothelial precursor cells, revealed that the greatest degree of suppression occurred using the combination treatment. Overall, our results indicate that the administration of intermittent BD combined with chronic oral LDM cyclophosphamide is a potent treatment regimen for controlling tumor growth, which has a low toxicity profile, over prolonged periods of time.

Cancer, 2010

BACKGROUND: Intravesical immunotherapy with Mycobacterium bovis (M. bovis) bacillus Calmette-Guer... more BACKGROUND: Intravesical immunotherapy with Mycobacterium bovis (M. bovis) bacillus Calmette-Guerin (BCG) is the current standard of care against superficial, high-grade transitional cell carcinoma (TCC) of the urinary bladder (carcinoma in situ and pathologic T1, grade 3 disease). However, individual patient outcome is barely predictable because of the lack of serum markers. Consequently, progression to muscle-invasive bladder cancer and critical delay of treatments (such as neoadjuvant combination chemotherapy and/or radical cystectomy) often occur. The objectives of this study were to identify a marker for measuring the BCG-induced immune response and to predict the outcomes and potential improvements of BCG immunotherapy. METHODS: Because host immunoresponse mediates BCG activity, the authors screened a combinatorial random peptide library on the circulating pool of immunoglobulins (Igs) purified from an index patient after successful BCG immunotherapy to identify the corresponding target antigen(s). RESULTS: An immunogenic peptide motif was selected, isolated, and validated from M. bovis BCG heatshock protein 65 (HSP-65) as a dominant epitope of the humoral response to treatment. Increasing IgA and IgG anti-HSP-65 titers specifically predicted a positive patient outcome in a cohort of patients with bladder cancer relative to several cohorts of control patients. CONCLUSIONS: The current results indicated that antibody production against M. bovis BCG HSP-65 can serve as a serologic marker for the predictive outcome of BCG immunotherapy. Subsequent studies will determine the value of this candidate marker to modify BCG-based treatment for individual patients with bladder cancer.

Blood, 2005

The stromal compartments of hematopoietic organs (eg, spleen) are known to influence the viabilit... more The stromal compartments of hematopoietic organs (eg, spleen) are known to influence the viability and growth of diseased hematopoietic progenitors. Here we have used Friend murine leukemia virus (F-MuLV)-induced erythroleukemia to investigate factors of the splenic microenvironment that may make it fertile for the expansion and survival of malignant erythroblasts. We found that splenectomized, erythroleukemic mice exhibited extended survival compared with age-matched sham controls. In vitro, the proliferation of primary erythroleukemic cells cocultured with leukemic-derived splenic adherent cells or their conditioned media was found to be significantly higher than that observed in cocultures with healthy-derived adherent splenic cells. Cytokine protein arrays revealed that F-MuLV-infected splenocytes secreted elevated levels of interleukin-6 (IL-6), vascular endothelial growth factor-A (VEGF-A), macrophage chemoattractant protein-5 (MCP-5), soluble tumor necrosis factor receptor-1 ...

The development of vaccines has been one of the most important contributions of immunology to pub... more The development of vaccines has been one of the most important contributions of immunology to public health to date. Although several infectious diseases have all but vanished thanks to effective vaccines, the most common infectious disease, influenza, still represents a major threat to public health. This is more concerning than ever before in light of potentially virulent avian pandemic strains which have emerged in the last decade and infected human hosts, causing high morbidity and mortality. Despite considerable efforts to improve production of influenza vaccines and vaccinate large portions of the population annually, the currently available influenza vaccines are strain-specific and not effective enough. Considering the vulnerability of infants and elderly to seasonal influenza-related complications and the ever present public health threat of a deadly influenza pandemic, there is urgent need for a new kind of influenza vaccine. Ideally, such a vaccine should provide enhanced long term, multi-strain protection without compromising safety and in this way, dramatically improve global protection against seasonal and pandemic influenza viruses. This review highlights one approach to developing a universal influenza vaccine, which is based on highly conserved viral sequences, 'epitopes', that specifically activate humoral and/or cellular immune responses. This approach to vaccinology was pioneered by Prof Arnon, who initiated development of an epitope-based universal vaccine called Multimeric-001 (M-001), which has already been validated in clinical trials to induce broad immunity against A and B-Type, seasonal and pandemic strains.