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 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This article reviews the history of hormonal therapy for prostate cancer, beginning with the studies of Huggins and Hodges completed in the 1940s. Although early clinical reports suggested that major improvements and even cure could be obtained, later randomized investigations showed that hormonal treatments were palliative rather than curative. Later investigators demonstrated that prostate cancer is under the trophic influence of male hormones and that ablation of androgens could cause cancer regression. More recently, neoadjuvant and adjuvant hormonal therapy has been shown to improve outcomes for higher-risk patients who receive radiation as definitive local therapy. Numerous studies have attempted to devise hormonal therapy regimens that decrease the adverse physiologic consequences of the currently existing agents and to define the patient population and stage of prostate cancer that most benefit from the use of hormonal therapy, either alone or in association with additional agents. New hormonal agents currently in clinical trials may increase the options available for patients who have metastatic cancer or are at increased risk of recurrence after surgery or radiation.
Mol Urol 1999
PMID:Hormonal Therapy in the Management of Prostate Cancer: An Historical Overview. 1085 21

Physicians have, for over a century, attempted to harness the potential therapeutic power of the immune system to treat patients with cancer. The discovery that cancer regression can be achieved by immune rejection of tumour antigens theoretically allows the eradication of neoplastic cells without toxicity to normal tissues. An understanding of the mode of presentation of tumour antigens, including those complexed to heat shock proteins by major histocompatibility complex (MHC) class I and class II molecules, and their recognition by CD8(+) and CD4(+) T cells, respectively, has further delineated the potential cancer rejection pathways involved. This also enables the sustained induction and expansion of specific anti-tumour T cells with cytolytic activity.
Trends Mol Med 2004 Apr
PMID:Kaposi's sarcoma as a model for cancer immunotherapy. 1505 10

Incidental observations of cancer regression following spontaneous bacterial infection have led to the preclinical development of bacteria as potential therapeutics in the treatment of cancer. A variety of natural and gene-modified bacterial species have now been explored as potential cancer treatments. The selectivity of bacterial species towards cancer will be discussed, direct bacterial oncolytic activity will be summarized and the use of bacteria as gene and/or protein delivery vehicles will be described. Preclinical and early clinical results presented indicate a high safety profile and demonstrate clear anticancer activity, thereby justifying further investigation of bacteria as a therapeutic approach in the treatment of cancer.
Curr Opin Mol Ther 2004 Dec
PMID:Bacteria in the treatment of cancer. 1566 28

Cancer immunotherapy faces many obstacles that include eliciting immune reactions to self antigens as well as overcoming tumor-derived immunosuppressive networks and evasion tactics. Within the vaccine arsenal for inhibiting cancer proliferation, plasmid DNA represents a novel immunization strategy that is capable of eliciting both humoral and cellular arms of the immune response in addition to being safely administered and easily engineered and manufactured. Unfortunately, while DNA vaccines have performed well in preventing and treating malignancies in animal models, their overall application in human clinical trials has not impacted cancer regression to date. Since the establishment of these early trials, progress has been made in terms of increasing DNA vaccine immunogenicity and subverting the suppressive properties of tumor cells. Therefore, the success of future plasmid DNA use in cancer patients will depend on combinatorial strategies that enhance and direct the DNA vaccine immune response while also targeting tumor evasion mechanisms.
Cell Mol Life Sci 2007 Sep
PMID:Towards progress on DNA vaccines for cancer. 1756 44

We have documented previously that a multiple chaperone protein vaccine termed chaperone-rich cell lysate (CRCL) promotes tumor-specific T-cell responses leading to cancer regression in several mouse tumor models. We report here that CRCL vaccine generated from a mouse breast cancer (TUBO, HER2/neu positive) is also capable of eliciting humoral immunity. Administration of TUBO CRCL triggered anti-HER2/neu antibody production and delayed the progression of established tumors. This antitumor activity can be transferred through the serum isolated from TUBO CRCL-immunized animals and involved both B cells and CD4(+) T lymphocytes. Further evaluation of the mechanisms underlying TUBO CRCL-mediated humoral immunity highlighted the role of antibody-dependent cell-mediated cytotoxicity. These results suggest that tumor-derived CRCL vaccine has a wider applicability as a cancer vaccine because it can target both T-cell- and B-cell-specific responses and may represent a promising approach for the immunotherapy of cancer.
Mol Cancer Ther 2008 Mar
PMID:A chaperone protein-enriched tumor cell lysate vaccine generates protective humoral immunity in a mouse breast cancer model. 1834 57

High-grade invasive transitional cell carcinoma (InvTCC) kills >14,000 people yearly in the United States, and better therapy is needed. Cyclooxygenase-2 (Cox-2) is overexpressed in bladder cancer. Cox inhibitors have caused remission of InvTCC in animal studies, and cancer regression was associated with doubling of the apoptotic index in the tumor. The purpose of this study was to determine the apoptosis-inducing effects of celecoxib (a Cox-2 inhibitor) in InvTCC in humans. Patients (minimum of 10 with paired tumor samples) with InvTCC who had elected to undergo cystectomy were enrolled. The main study end point was induction of apoptosis in tumor tissues. Patients received celecoxib (400 mg twice daily p.o. for a minimum of 14 days) between the time of diagnosis [transurethral resection of bladder tumor (TURBT)] and the time of cystectomy (standard frontline treatment for InvTCC). Terminal deoxyribonucleotidyl transferase-mediated dUTP nick end labeling assay and immunohistochemistry were done on TURBT and cystectomy samples. Of 13 cases treated with celecoxib, no residual invasive cancer was identified in 3 patients at the time of cystectomy (post celecoxib). Of the 10 patients with residual cancer, 7 had induction of apoptosis in their tumor. Induction of apoptosis was less frequent (3 of 13 cases; P < 0.04) in control patients not receiving a Cox inhibitor. Expression of vascular endothelial growth factor in the tumor cells decreased more frequently (P < 0.026) in the treated patients as compared with nontreated control cases. The biological effects of celecoxib treatment (increased apoptosis) justify further study of the antitumor effects of Cox-2 inhibitors in InvTCC.
Mol Cancer Ther 2010 May
PMID:Effects of short-term celecoxib treatment in patients with invasive transitional cell carcinoma of the urinary bladder. 2042 98

Special AT-rich sequence binding protein 1 (SATB1) regulates the expression of more than 1,000 genes in tumor cells. SATB1 expression has been implicated in metastasis, and its silencing results in reduced cancer progression and the reversion of metastatic cells to normal appearance. Therefore, any compound causing down-regulation of SATB1 expression or activity may be exploited for its therapeutic potential in terms of cancer regression. Earlier studies showed that the 3-hydroxy-3-methylglutaryl coenzymeA (HMG-CoA) reductase inhibitors (statin drugs), which are widely used to treat hypercholesterolemia, possess other pleotropic activities. These are now increasingly gaining attention for their cancer prevention abilities. However, the downstream interplay of the molecular mechanisms of such anti-cancer activities is unclear. Here, we show that SATB1 is down-regulated by statins in a time- and dose-dependent manner in COLO205 cells. This effect was statin-specific as the down-regulation of SATB1 was brought about by hydrophobic statins, such as simvastatin and fluvastatin, but not by hydrophilic pravastatin. Notably, treatment with mevalonate, an intermediate in the cholesterol and isoprenoid biosynthetic pathways, led to the inhibition of SATB1 down-regulation and cytotoxicity mediated by statins. Treatment with the proteasome inhibitors lactacystine and MG-132 inhibited the statin-mediated down-regulation of SATB1, suggesting that regulation occurs at the post-translational level. Thus, our results demonstrate a novel molecular mechanism for the anti-cancer activity of statin drugs in colon cancer cells, without invoking significant cytotoxicity.
Mol Med Rep
PMID:Down-regulation of the global regulator SATB1 by statins in COLO205 colon cancer cells. 2147 26

A novel strategy for efficient "nanodelivery" of DNA-cleaving molecules for breast cancer regression is presented here. The synthetic methodology can be tweaked for controlled delivery and better bioavailability of effective doses of these DNA-cleaving agents through a defined self-assembled polymeric nanoarchitecture. In vitro studies in ER+ and ER- breast cancer human cell lines confirmed an efficient "nano"-delivery of DNA-cleaving molecules and indicated their capability to mediate oxidative damage to nucleobases and/or to the 2-deoxyribose moiety. Prepared E-poly-DNA-cleaver and C-poly-DNA-cleaver were found to be interacting with plasmid DNA pBR322 (pDNA) and active to cause oxidative cleavage of pDNA in the presence of ascorbic acid and H2O2. They were found to be significantly active as DNA cleaving agents in vitro and showed highly improved cancer regression in MCF-7 and MD-MB231 cancer cells compared to small molecule DNA cleaver. Surface conjugated nanoparticles were found to be more effective than noncovalent encapsulation and the small molecule agent, whereas in all the cases RCM was significantly inactive toward DNA cleavage. Blood contact complement activation properties were evaluated to gauge their likelihood to promote acute toxicity following systemic administration. The complement activation analyses together with the blood smear study confirm the feasibility of using these poly-DNA-cleavers without risk of induced immune response.
Mol Pharm 2014 Nov 03
PMID:Nanoscopic poly-DNA-cleaver for breast cancer regression with induced oxidative damage. 2514 Mar 89

Advancements in human genomics over the last two decades have shown that cancer is mediated by somatic aberration in the host genome. This discovery has incited enthusiasm among cancer researchers; many now use therapeutic approaches in genetic manipulation to improve cancer regression and find a potential cure for the disease. Such gene therapy includes transferring genetic material into a host cell through viral (or bacterial) and non-viral vectors, immunomodulation of tumor cells or the host immune system, and manipulation of the tumor microenvironment, to reduce tumor vasculature or to increase tumor antigenicity for better recognition by the host immune system. Overall, modest success has been achieved with relatively minimal side effects. Previous approaches to cancer treatment, such as retrovirus integration into the host genome with the risk of mutagenesis and second malignancies, immunogenicity against the virus and/or tumor, and resistance to treatment with disease relapse, have markedly decreased with the new generation of viral and non-viral vectors. Several tumor-specific antibodies and genetically modified immune cells and vaccines have been developed, yet few are presently commercially available, while many others are still ongoing in clinical trials. It is anticipated that gene therapy will play an important role in future cancer therapy as part of a multimodality treatment, in combination with, or following other forms of cancer therapy, such as surgery, radiation and chemotherapy. The type and mode of gene therapy will be determined based on an individual's genomic constituents, as well as his or her tumor specifics, genetics, and host immune status, to design a multimodality treatment that is unique to each individual's specific needs.
Mol Cell Ther 2014
PMID:Gene therapy for cancer: present status and future perspective. 2605 94

Hypoxic regions within the tumor form due to imbalances between cell proliferation and angiogenesis; specifically, temporary closure or a reduced flow due to abnormal vasculature. They create environments where cancer cells acquire resistance to therapies. Therefore, the development of therapeutic approaches targeting the hypoxic cells is one of the most crucial challenges for cancer regression. Screening potential candidates for effective diagnostic modalities even under a hypoxic environment would be an important first step. In this study, we describe the development of a real-time imaging system to monitor hypoxic cell apoptosis for such screening. The imaging system is composed of a cyclic luciferase (luc) gene under the control of an improved hypoxic-responsive promoter. The cyclic luc gene product works as a caspase-3 (cas-3) monitor as it gains luc activity in response to cas-3 activation. The promoter composed of six hypoxic responsible elements and the CMV IE1 core promoter drives the effective expression of the cyclic luc gene in hypoxic conditions, enhancing hypoxic cell apoptosis visualization. We also confirmed real-time imaging of hypoxic cell apoptosis in the spheroid, which shares properties with the tumor. Thus, this constructed system could be a powerful tool for the development of effective anticancer diagnostic modalities.
Mol Ther Methods Clin Dev 2016
PMID:Development of a real-time imaging system for hypoxic cell apoptosis. 2696


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