Combined therapy of colon carcinomas with an oncolytic adenovirus and valproic acid (original) (raw)
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Therapeutic strategies in colonic cancer
Chirurgia (Bucharest, Romania : 1990)
Colonic cancer is the most common malignancy of the digestive tract, representing 13% of all malignancies. The aim of the study is to evaluate the current therapeutic strategy in patients with CC. Mortality from the disease is declining in many Western countries; this may be the result of screening for CC, resection of adenomas, early detection of tumoral lesions and the use of individualized therapeutic strategies. The multimodal treatment of the disease includes different sequences such as: surgery, chemotherapy, radiotherapy,immunotherapy. Current advances in the research of mechanisms of carcinogenesis in CC make it possible to use genetic information in order to establish the prognostic and predictive factors for selecting the patients for individualized therapy. The current methods of CC evaluation allow the planning of individualized therapeutic strategies, which would lead to optimal results.
2023
Purpose: A33 antigen is a membrane-bound protein expressed in intestinal epithelium that is overexpressed in 95% of primary and metastatic colorectal carcinomas but is absent in most epithelial tissues and tumor types. We hypothesized that A33 promoter might be useful in the design of a conditionally replicative adenovirus for the treatment of colorectal cancer (CRC). Experimental Design: We cloned an A33 promoter fragment (A33Pr) that extends from-105 to +307 bp. Using luciferase activity as a reporter gene, we showed that A33Pr was active in CRC cell lines. We next constructed a conditionally replicative adenovirus named AV22EL where E1A was placed under the control of A33Pr. The tumor-specific oncolytic effect of AV22EL was investigated both in vitro and in vivo. Results: AV22EL induced specific in vitro lysis of human CRC cell lines that expressed A33 and have negligible lytic capacity on cells that lacked or had minimal A33 expression, including normal human colonic cells. In vivo, a marked reduction of tumor growth and increased long-term survival rates were observed in nude mice xenografted with s.c. CRC tumors. Combination with 5-fluorouracil induced an additive effect in vitro with no toxic effects in vivo. Remarkably, AV22EL completely eliminated established hepatic metastases in >90% of mice and restored hepatic function according to biochemical parameters. Its systemic administration induced E1A expression only in the hepatic metastasis but not in normal organs. Conclusions: These data show that AV22EL is a stringently regulated and potent oncolytic agent for the treatment of CRC.
Colon cancer – new strategies of treatment
Annales Academiae Medicae Silesiensis, 2019
Colon cancer is one of the most frequent causes of death in the world. Despite the easily accessible diagnostic tools, the disease is still diagnosed at its advanced stage, when radical treatment is no longer possible and only palliative therapy can be provided. Cancer recurrence, which worsens the patient's prognosis, is a separate problem. Currently, scientists are seeking modern, multidirectional treatment methods, which would enable the inhibition of neoplasia, elongation of patients' lives and improvement in their quality. Immunotherapy and photodynamic therapy seem to be promising as they provide good results, also at advanced stages of cancer. Due to its cytotoxic and immunomodulating effect, photodynamic therapy exhibits an antineoplastic effect. Using monoclonal antibodies in the targeted therapy of colon cancer is a new, promising concept, which requires further studies.
Clinical Cancer Research, 2009
A33 antigen is a membrane-bound protein expressed in intestinal epithelium that is overexpressed in 95% of primary and metastatic colorectal carcinomas but is absent in most epithelial tissues and tumor types. We hypothesized that A33 promoter might be useful in the design of a conditionally replicative adenovirus for the treatment of colorectal cancer (CRC). Experimental Design: We cloned an A33 promoter fragment (A33Pr) that extends from-105 to +307 bp. Using luciferase activity as a reporter gene, we showed that A33 Pr was active in CRC cell lines. We next constructed a conditionally replicative adenovirus named AV22EL where E1A was placed under the control of A33Pr. The tumor-specific oncolytic effect of AV22EL was investigated both in vitro and in vivo. Results: AV22EL induced specific in vitro lysis of human CRC cell lines that expressed A33 and have negligible lytic capacity on cells that lacked or had minimal A33 expression, including normal human colonic cells. In vivo, a marked reduction of tumor growth and increased long-term survival rates were observed in nude mice xenografted with s.c. CRC tumors. Combination with 5-fluorouracil induced an additive effect in vitro with no toxic effects in vivo. Remarkably, AV22EL completely eliminated established hepatic metastases in >90% of mice and restored hepatic function according to biochemical parameters. Its systemic administration induced E1A expression only in the hepatic metastasis but not in normal organs. Conclusions: These data show that AV22EL is a stringently regulated and potent oncolytic agent for the treatment of CRC. Colorectal cancer (CRC) is the second most common cause of cancer mortality in Western countries and claimed >50,000 lives a year only in the United States.4 Close to 70% of patients that are affected by colorectal carcinoma undergo surgical resection and 30% to 40% of them develop a recurrent disease (1). The liver is the most common site of metastatic CRC and complete resection of hepatic metastases is the only curative option; however, surgery can be done only in 20% of patients
A Novel Chromogranin-A Promoter-Driven Oncolytic Adenovirus for Midgut Carcinoid Therapy
Clinical Cancer Research, 2007
Purpose: The use of replication-selective oncolytic adenoviruses is an emerging therapeutic approach for cancer, which thus far has not been employed for carcinoids.We therefore constructed Ad[CgA-E1A], a novel replication-selective oncolytic adenovirus, where the chromogranin A (CgA) promoter controls expression of the adenoviral E1A gene. Experimental Design: The Ad[CgA-E1A] virus was evaluated for E1A protein expression, replication ability, and cytolytic activity in various cell lines. It was also evaluated for treatment of xenografted human carcinoid tumors in nude mice. To use Ad[CgA-E1A] for the treatment of carcinoid liver metastases, it is important that normal hepatocytes do not support virus replication to minimize hepatotoxicity. We therefore evaluated CgA protein expression in normal hepatocytes. We also evaluated CgA gene expression in normal hepatocytes and microdissected tumor cells from carcinoid metastases. Results: We found that Ad[CgA-E1A] replicates similarly to wild-type virus in tumor cells with neuroendocrine features, including the BON carcinoid cell line and the SH-SY-5Y neuroblastoma cell lines, whereas it is attenuated in other cell types.Thus, cells where the CgA promoter is active are selectively killed. We also found that Ad[CgA-E1A] is able to suppress fast-growing human BON carcinoid tumors in nude mice. Furthermore, CgA is highly expressed in microdissected cells from carcinoid metastases, whereas it is not expressed in normal hepatocytes. Conclusion: Ad[CgA-E1A] is an interesting agent for the treatment of carcinoid liver metastases in conjunction with standard therapy for these malignancies.
Gene therapy strategies for colon cancer
Molecular Medicine Today, 2000
IN Western countries, colorectal cancer (CRC) is second only to lung cancer as a cause of cancer-related mortality. In the USA and Europe, the combined incidence rate of CRC is 300 000 per year and the combined mortality rate is 200 000 per year. The mainstay of treatment is surgical resection of the primary tumour, but this is often unsatisfactory because of advanced disease at presentation or because of the development of metastases after attempted curative resections. In a subgroup of colon and rectal cancer patients with a high risk of relapse (lymph-node positive), adjuvant chemotherapy or chemo-radiation has shown a small but significant survival advantage 1 . However, despite advances in therapy, the five-year survival from colon cancer has remained fairly static over the past decade and new measures are urgently needed. Gene therapy represents a rational new approach to cancer therapy, which could provide an adjunct to conventional treatment.
New directions in the treatment of colorectal cancer
European Journal of Cancer, 2000
Today, adjuvant 5-¯uorouracil based therapy is known to signi®cantly reduce the relapse rates and the risks of dying from resected colon cancer; chemotherapy approximately doubles overall survival of advanced colorectal cancer and second line treatment prolongs the survival of patients compared with best supportive care. At the molecular level a number of key genes are often mutated in cancer of the colon and some of these key regulators of apoptosis are discussed (p53 and bcl-2 family of proteins). Dihydropyrimidine dehydrogenase (DPD) activity may be a potential factor controlling¯uorouracil (FU) responsiveness at the tumoral level and its importance is stressed. The rationale of combining FU with DPD inhibitors is fairly strong. Ethynyluracil, UFT and S1 pursue this strategy while capecitabine has another the rationale. Drug resistance should be at least partially overcome by combination chemotherapy (FU plus mitomycin, oxaliplatin, irinotecan) and combined modality (FU+RT) regimens. Improved surgical techniques and radiotherapy have substantially decreased local failure rates for rectal cancers. Finally, innovative treatment modalities such as anti-angiogenetic and antimetastatic agents, farnesyl transferase inhibitors, vaccine and gene therapy are in early clinical trials. #
PLoS ONE, 2011
Replication-competent adenovirus type 5 (Ad5) vectors promise to be more efficient gene delivery vehicles than their replication-deficient counterparts, and chimeric Ad5 vectors that are capable of targeting CD46 are more effective than Ad5 vectors with native fibers. Although several strategies have been used to improve gene transduction and oncolysis, either by modifying their tropism or enhancing their replication capacity, some tumor cells are still relatively refractory to infection by chimeric Ad5. The oncolytic effects of the vectors are apparent in certain tumors but not in others. Here, we report the biological and oncolytic profiles of a replication-competent adenovirus 11p vector (RCAd11pGFP) in colon carcinoma cells. CD46 was abundantly expressed in all cells studied; however, the transduction efficiency of RCAd11pGFP varied. RCAd11pGFP efficiently transduced HT-29, HCT-8, and LS174T cells, but it transduced T84 cells, derived from a colon cancer metastasis in the lung, less efficiently. Interestingly, RCAd11p replicated more rapidly in the T84 cells than in HCT-8 and LS174T cells and as rapidly as in HT-29 cells. Cell toxicity and proliferation assays indicated that RCAd11pGFP had the highest cell-killing activities in HT29 and T84 cells, the latter of which also expressed the highest levels of glycoproteins of the carcinoma embryonic antigen (CEA) family. In vivo experiments showed significant growth inhibition of T84 and HT-29 tumors in xenograft mice treated with either RCAd11pGFP or Ad11pwt compared to untreated controls. Thus, RCAd11pGFP has a potent cytotoxic effect on colon carcinoma cells.