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Year : 2015  |  Volume : 141  |  Issue : 4  |  Page : 389-397

Survivin: A molecular biomarker in cancer

1 Department of Urology, Sanjay Gandhi Post Graduate Institute of Medical Sciences, Lucknow; Department of Urology, King George's Medical University, Lucknow, India
2 Department of Urology, King George's Medical University, Lucknow, India
3 Department of Urology, Sanjay Gandhi Post Graduate Institute of Medical Sciences, Lucknow, India

Date of Submission16-Aug-2013
Date of Web Publication24-Jun-2015

Correspondence Address:
R D Mittal
Department of Urology, Sanjay Gandhi Post Graduate Institute of Medical Sciences, Raebareli Road, Lucknow 226 014, Uttar Pradesh
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/0971-5916.159250

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Survivin, a member of the inhibitor of apoptosis (IAP) protein family that inhibits caspases and blocks cell death, is highly expressed in most cancers and is associated with a poor clinical outcome. Survivin has consistently been identified by molecular profiling analysis to be associated with high tumour grade cancers, different disease survival and recurrence. Polymorphisms in the survivin gene are emerging as powerful tools to study the biology of the disease and have the potential to be used in disease prognosis and diagnosis. The survivin gene polymorphisms have also been reported to influence tumour aggressiveness as well as survival of cancer patients. The differential expression of survivin in cancer cells compared to normal tissues and its role as a nodal protein in a number of cellular pathways make it a high target for different therapeutics. This review discusses the complex circuitry of survivin in human cancers and gene variants of survivin, and highlights novel therapy that targets this important protein.

Keywords: Cancer - cancer therapy - gene polymorphism - surviving

How to cite this article:
Jaiswal PK, Goel A, Mittal R D. Survivin: A molecular biomarker in cancer. Indian J Med Res 2015;141:389-97

How to cite this URL:
Jaiswal PK, Goel A, Mittal R D. Survivin: A molecular biomarker in cancer. Indian J Med Res [serial online] 2015 [cited 2021 Aug 4];141:389-97. Available from:

   Introduction Top

Cancer remains the second leading cause of death after cardiovascular diseases globally. Increasing evidence indicates that the unique member of the inhibitor of apoptosis (IAP) protein family, survivin, is not only an essential protein molecule for the regulation of mitosis and apoptotic inhibition but it also plays a role in certain physiological processes as well as in pathological conditions such as carcinogenesis in many human organs/cells. Eight members of the family of inhibitors of apoptosis proteins (IAPs) are reported, including X-linked inhibitor of apoptosis (XIAP), cIAP1, cIAP2, NAIP (NLR family, apoptosis inhibitory protein), livin, ILP2 (IAP-like protein 2), BRUCE and survivin [1],[2],[3] .

Survivin is an inhibitor of apoptosis protein and is expressed in a large number of malignancies [4] . Its expression levels correlate with more aggressive disease and poor clinical outcome. Survivin expression is minimal in normal tissues, therefore, it has become a lead target for both as a tumour diagnostic, prognostic and as well as for anti-cancer therapies. Overexpression of survivin in cancer may overcome cell cycle checkpoints to facilitate aberrant progression of transformed cells through mitosis [5] .

Survivin is expressed highly at G2/M phase and declines rapidly in G1 phase of cell cycle. This is largely transcriptionally controlled and involves cell cycle-dependent elements (CDEs) and cell cycle homology regions (CHRs) located in survivin gene promoter [6] . several single nucleotide polymorphisms (SNPs) have been identified in survivin gene, such as -31G/C, -1547A/G, -625G/C and -644C/T. Polymorphism at -31G/C in survivin is a common mutation in cancer cell lines leading to overexpression of survivin due to functional disruption of binding at the CDE/CHR repressor motifs [7] .

This review provides a brief description of the structure of survivin gene/protein, survivin expression and function in apoptosis, and gene variants of survivin.

   Overview of survivin structure and functions Top

The gene encoding human survivin was cloned by Ambrosini et al[8] in 1997. Survivin spans 14.7 kb at the telomeric end of chromosome 17 and encodes the 16.5 kD wild-type survivin protein of 142 amino acids in length [9] .

As the smallest member of the IAP family, all survivin isoforms characterized so far contain only one of the characteristic N-terminal BIR (Baculovirus IAP Repeats) domains; and an alpha-helix replaces the IAP characteristic RING finger domain involved in zinc ion-binding with the BIR domain [ ] [Figure 1] [8] . The BIR domain is supposed to be important for anti-apoptotic function, whereas the coiled domain probably interacts with tubulin structures [9]. The survivin gene locus encodes multiple genetic splice variants with unique properties and functions. These isoforms include survivin, survivin-2B, survivin-ΔEx-3, survivin-3B, and survivin-2-alpha. Transcription and translation of these isoforms have been demonstrated by several groups of investigators [10],[11],[12] . In malignant cells, all these isoforms are expressed at a very high rate as compared with normal tissues. Survivin has a dual function, playing both a role in cell death regulation and mitotic progression.
Figure 1. Structure and function of survivin protein.

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Survivin can be co-immunoprecipitated with caspases-3, -7, and -9 and it suppresses apoptosis induced by overexpression of these caspases, implying that survivin also is a caspase inhibitor [13] . It also inhibits cell death by interfering with caspase-9 processing, the main inhibitor in intrinsic pathway of apoptosis [14] . Activation of cell death pathways can be initiated through different mechanisms, including through ligand binding (FasL, TNF) to a death receptor on the cell surface (extrinsic pathway) or via direct mitochondrial signaling (intrinsic pathway). The mitochondrial pathway is initiated by activation of the Bax/Bcl-2 pathway leading to the release of apoptotic factors such as cytochrome c (cyt c) and apoptosis-inducing factor (AIF) from the mitochondrial intermembrane space into the cytoplasm. The release of cytochrome c from mitochondria results in caspase-3 activation through formation of the cytochrome c/Apaf-1/caspase-9 apoptosome complex. Caspase-3 cleaves a number of substrates including cytoskeletal proteins and DNA. Caspase-activated DNase (CAD) and inhibitor of CAD (ICAD) initiate cleavage and fragmentation of DNA. The IAPs inhibit cell death by physically interacting with caspases. Survivin has been shown to inhibit apoptosis through caspase-dependent and independent pathways [Figure 2].
Figure 2. Survivin (SVN) pathways to apoptosis . Activation of cell death pathways can be initiated through different mechanisms, including through ligand binding (FasL,TNF) to a death receptor on the cell surface (extrinsic pathway) or via direct mitochondrial signaling (intrinsic pathway). The mitochondrial pathway is initiated by activation of the Bax/Bcl-2 pathway leading to the release of apoptotic factors such as cytochrome c (cyt c) and apoptosis-inducing factor (AIF) from the mitochondrial intermembrane space into the cytoplasm. The release of cytochrome c from mitochondria results in caspase-3 activation through formation of the cytochrome c/Apaf-1(apoptotic peptidase activating factor-1)/caspase-9 apoptosome complex. Caspase-3 cleaves a number of substrates including cytoskeletal proteins and DNA. Caspase-activated DNase (CAD) and inhibitor of CAD(ICAD) initiate cleavage and fragmentation of DNA. The inhibitors of apoptosis (IAPs) inhibit cell death by physically interacting with caspases. Survivin has been shown to inhibit apoptosis through caspase-dependent and independent pathways.

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Consistent with the lack of a structural caspase activation and recruitment domain (CARD) motif, survivin does not directly bind to and inhibit caspases [15] . Instead, it interacts with several adaptor or cofactor molecules, one example being X-linked IAP (XIAP). By interacting with XIAP, survivin enhances XIAP stability. It can further act by sequestering SMAC/DIABLO (second mitochondria-derived activator of caspases/direct IAP binding protein with low pI), preventing XIAP's inhibition [16] . In each case, survivin enhances XIAP's inhibitor activity of caspase-9 dependent cell death [17] and of death receptor mediated apoptosis [18] .

[TAG:2]Regulation of survivin and p [53][/TAG:2]

The p [53] protein is a transcription factor, which can induce apoptosis by regulating the apoptotic genes. Survivin is a target of p [53] for its action and downregulation, and p [53] may induce apoptosis by antagonizing the anti-apoptotic activity of survivin. Survivin may also influence p[53] activity through regulation of mouse double minute 2 homolog (mdm2) and proteosome [19] . However, the negative regulation of survivin by p [53] is poorly understood. Survivin promoter has a p [53] binding element. It may be possible that p [53] directly binds survivin promoter alone or in combination with other protein(s) to repress survivin. E2F (a transcriptional activator) may also bind survivin promoter [20] . Since p [53] has affinity with E2F, it is possible that both form a (p [53] -E2F) complex that represses survivin gene expression [21],[22],[23] . It also interacts with transcriptional repressor (sin3) and histone deacetylases (HDAC) that together can form a p53-sin3-HDAC complex and binds survivin promoter to repress it [21],[24] . p[53] represses survivin through a cascade, which involves protein p [21] complex p21/cip1, which is a p53-induced gene that inhibits cyclin-dependent kinase 2 (cdk2) to prevent phosphorylation of retinoblastoma (RB) proteins [25] . This results in the accumulation of hypophosphorylated pRB. This protein binds E2F family transcription factor and forms a pRB-E2F complex, which may repress survivin gene expression [20],[21],[26],[27] .

   Survivin expression and its role in different cancer Top

Regulatory mechanisms of survivin expression are yet not fully understood. At the transcriptional level, survivin expression has been demonstrated to involve cell-cycle-dependent element/cell cycle gene homology region (CDE/CHR) G1 repressor elements in the BIRC5 (baculoviral iaprepeat containing 5) promoter [4] .

Survivin is expressed in embryonic and foetal tissues, but is undetectable in normal adult tissues [8] . However, overexpression of survivin has been reported in almost all human malignancies including bladder cancer, lung cancer, breast cancer, stomach, oesophagus, liver, ovarian cancers and haematological cancers [8],[28] . Based on detection of protein by immunohistochemistry and mRNA by polymerase chain reaction techniques, overexpression of survivin has been reported in various human malignancies [Table 1].
Table 1: Expression of survivin protein in different cancer

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Almost all cancers have alternative survivin expression profile compared to normal tissues. Survivin is one of the important genes involved in tumour aggressiveness and therapy resistance. Salz et al[45] showed that survivin expression induced transcriptional changes in the tissue microenvironment further promoting tumourigenesis in the bladder tissue. Khan et al[46] reported higher expression of survivin as a critical factor for radioresistance in head and neck squamous cell carcinoma (HNSCC) cell lines. Dysregulation of oncoapoptotic genes, growth factors, receptors and their downstream signaling pathway components represent a central driving force in tumour development in different cancer [47] .

DNA polymorphisms with more than one variant (allele) having a frequency greater than 1 per cent in a human population have been estimated to occur on the average at one in every 1000 base pairs throughout the human genome [48] . The incidences of polymorphism in genomic DNA, their susceptibility to genetic al­terations, and the risk of tumour progression in patients with cancer can vary substantially between different racial groups [49],[50],[51] . Although most polymorphisms are functionally neutral, some affect regulation of gene expression or the function of the coded protein [52] .

The survivin gene codifies a multifunctional protein involved in the regulation of the cell cycle and inhibition of the apoptotic pathway, and a polymorphism located in its promoter region is associated with gene regulation. Most of the polymorphic studies are confined in promoter region among which the single nucleotide polymorphism (SNP) at -31G/C is most studied in all cancers in comparison to other polymorphic sites [53],[54],[55],[56] . The following are some examples of the survivin gene polymorphisms that were found to be associated with cancer:

Breast cancer

Breast cancer is the most common malignancy among women, accounting for nearly one in three cancers diagnosed among women in the United States, and it is the second leading cause of cancer death among women [57] . A hospital-based case control study by Ulybina et al[58] showed no risk for breast cancer with survivin gene variants at +9194A/G. However, Boidot et al[59] showed that survivin expression might induce breast tumour proliferation by promoting genetic instability.

Bladder cancer

A case control study conducted in Japan showed two survivin polymorphisms associate with higher risk of bladder cancer [60] . A hospital-based study from north India [53] showed that individuals with CC genotype of survivin -31G/C
had 2.6 folds higher risk for bladder cancer. A study in Taiwanese population showed increased bladder cancer risk with G/C genotype [61] .

Colorectal cancer

Colorectal cancer is a major cause of morbidity and mortality worldwide. Alterations in pathways regulating important biological processes including cell survival, cell proliferation, epithelial to mesenchymal transition and stroma production have been shown to contribute to colorectal carcinogenesis and tumour progression. A real time PCR study showed association between survivin 31G/C and development of colorectal cancer [62] . Another study showed that the frequencies of the survivin -31C allele and CC genotype were significantly higher in colorectal cancer patients than in healthy subjects [63] . Variant CC genotype of -31G/C of survivin, expressed 1.6 fold higher mRNA levels compared to cases with the -31G/G and -31G/C genotypes [63] .

Endometrial cancer

There is only one study on endometrial cancer and survivin gene polymorphism till date. Survivin is upregulated in endometrial cancer (EC). The presence of allele C of -31G/C was found to be significantly increased in EC tissues compared to the healthy tissues in case of Iranian population [54] .

Oesophageal cancer

A case control study from north India showed that SNP -31G/C was found to be significantly associated with oesophageal cancer susceptibility at variant CC genotype [64] . A study in Chinese population suggested that survivin promoter polymorphisms -625G/C might influence the susceptibility to oesophageal cancer by influencing survivin expression [65] .

Gastric cancer

A study in Chinese population has demonstrated that survivin -31G/C polymorphism may be involved in distal gastric carcinogenesis and tumour differentiation [65] . Another study on Brazilian population suggests that presence of C allele of -31G/C gene polymorphism may be a risk factor for gastric cancer [66] .

Head and neck cancer

In a study conducted in Serbian population, -31G/C gene polymorphism in the promoter region of the survivin gene showed no association with risk for head and neck cancer [67] . Radiotherapy is the main therapy for head and neck squamous cell carcinoma (HNSCC). Survivin showed the most promising biomarker of radioresponse in case of head and neck cancer cell lines [68] .

Hepatocellular carcinoma

Early detection of hepatocellular carcinoma (HCC) is seldom available because of the lack of reliable markers. A study from Taiwanese population suggested that survivin T9809C SNP might contribute to the prediction of susceptibility and pathological development to HCC while other polymorphisms of survivin at -31G/C and -241C/T did not show any association with HCC [69] . Survivin -31G/C promoter polymorphism has not shown any major role in genetic susceptibility to hepatocellular carcinogenesis in Turkish population [70] . SNPs of survivin at -31G/C and -625G/C did not show any significant association with HCC in Chinese Han population [55] . Survivin+9194A/G polymorphism also did not show any significant association with hepatocellular carcinoma in Korean population [71] .

Lung cancer

A study conducted in Korean population showed that only the -31G/C genotype distribution was significantly different between the cases and controls. Individuals with at least one -31G allele were at a significantly decreased risk of lung cancer compared to those individuals with the -31CC genotype [72] . Polymorphism in survivin may be a genetic modifier for non-small cell lung cancer prognosis in Chinese population [73] . The BIRC5 promoter polymorphism at nucleotide -31 did not influence the expression of survivin mRNA and protein in non-small cell lung cancer cells and tumours in a study reported in Czech population [74] .

Oral cancer

A study conducted in Taiwanese population reported significantly higher risk for oral cancer with -31GG, +9194GG, and +9809 TT homozygotes of survivin gene variants in comparison to wild type genotype [75] . An expression study by Khan et al[46] showed 72 per cent of survivin expression in tissue samples of oral cancer. Lauxen et al[44] showed >75 per cent expression of survivin protein in oral squamous cell carcinoma (OSCC) tissue samples.

Pancreatic cancer

Only one study has been reported on pancreatic cancer and survivin gene polymorphism which showed significant association of survivin -31G/C with advanced tumour stage as well as the presence of lymph node metastasis [56] .

Renal cell carcinoma

There is only one study reported in renal cell carcinoma (RCC) and survivin gene polymorphism showing a significantly increased occurrence of RCC associated with the CC genotype [76] . The polymorphism was associated with risk of developing advanced stage and moderately differentiated RCC. Patients carrying the CC genotype had a significantly greater prevalence of high clinical stage disease [76] .

   Role of survivin in cancer therapy Top

Evidences indicate that the expression of survivin is altered in cancer, and that certain changes may be directly implicated in the carcinogenic process. Due to its role as a cancer gene intersecting multiple cellular networks, survivin has been vigorously used as a cancer drug target. While comparing with other apoptosis-based cancer therapies [77] , survivin provides several advantages. Firstly, the disabling survivin is expected to compromise multiple signaling networks required for tumorous maintenance [78] . Second, survivin may be a unique target for molecular antagonists, cancer vaccine and gene therapy. Thirdly, expression of survivin is regulated by Wnt signaling pathway that has main role in stem cells and it is possible that survivin antagonists may affect cancer stem cells [79] . Fourth, survivin is important in tumour formation/progression, especially angiogenesis [80] , and survivin inhibitors have been shown to act on both the transformed population and endothelial cells in tumour. Fifth, although survivin expression has been shown in cytokine stimulated haematopoietic progenitors and in activated T cells, targeting this pathway does not affect the normal cells or tissues suggesting a favourable toxicity profile of survivin based therapeutics. Survivin-directed immunotherapy has been on the move and several phase I trials with administration of survivin peptides or survivin directed autologous cytotoxic T lymphocytes (CTL) generated ex vivo have been completed [81],[82] . Survivin-based vaccination was found to be safe, with no side effects and associated with antigen-specific immunologic responses [81],[83] . Different strategies have been targeted for inhibition of survivin in vivo such as identification of a specifically interacting peptide. This peptide can recognize survivin intracellularly and cause the degradation of the ligand survivin complex [84] . Further, survivin inhibition can be achieved by targeting with nano-based drug delivery devices coupled with biocompatible natural product derived therapeutics [85] . Other strategies under investigation to target survivin include antisense oligonucleotides, siRNA [86] , ribozymes, immunotherapy and small molecular weight molecules. These include use of the antisense oligonucleotide LY2181308, the low molecular weight molecule inhibitor YM155 and survivin-directed autologous CTL. The optimum use of survivin in the treatment of cancer is likely to be in combination with conventional cancer therapies for different cancer [44],[86],[87],[89],[90] .

   Conclusion Top

Since its discovery in 1997, survivin has provided unique opportunities for basic and translational studies. There are multiple strategies targeting the survivin network which have quickly passed proof of principle, and many have entered in the clinical trials in humans [14] . However, the results of these trials are still awaited. Further research in identifying the novel targets of survivin and understanding their biological functions will enhance our knowledge about the role of these novel regulators in tumour genesis and will facilitate the potential diagnosis and treatment of cancer.

   Acknowledgment Top

The first author (PKJ) acknowledges the University Grants Commission (UGC), New Delhi, India, for providing Junior Research Fellowship (JRF).

   References Top

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65 d-a-Tocopheryl Polyethylene Glycol 1000 Succinate and a small-molecule Survivin suppressant synergistically induce apoptosis in SKBR3 breast cancer cells
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66 LINK-A lncRNA participates in the pathogenesis of glioma by interacting with survivin
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71 Trace of survivin in cancer
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73 From epidemiology and neurometabolism to treatment: Vitamin D in pathogenesis of glioblastoma Multiforme (GBM) and a proposal for Vitamin D?+?all-trans retinoic acid + Temozolomide combination in treatment of GBM
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74 Extract of Cycas revoluta Thunb. enhances the inhibitory effect of 5-?uorouracil on gastric cancer cells through the AKT-mTOR pathway
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75 An engineered mouse embryonic stem cell model with survivin as a molecular marker and EGFP as the reporter for high throughput screening of embryotoxic chemicals in vitro
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76 Potential Involvement of BIRC5 in Maintaining Pluripotency and Cell Differentiation of Human Stem Cells
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77 Niclosamide alleviates pulmonary fibrosis in vitro and in vivo by attenuation of epithelial-to-mesenchymal transition, matrix proteins & Wnt/ß-catenin signaling: A drug repurposing study
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78 Vernolactone Promotes Apoptosis and Autophagy in Human Teratocarcinomal (NTERA-2) Cancer Stem-Like Cells
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79 Advances on the Study of Survivin Gene
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80 Brusatol, a Nrf2 Inhibitor Targets STAT3 Signaling Cascade in Head and Neck Squamous Cell Carcinoma
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81 Therapy with multi-epitope virus-like particles of B19 parvovirus reduce tumor growth and lung metastasis in an aggressive breast cancer mouse model
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82 Kalantuboside B induced apoptosis and cytoprotective autophagy in human melanoma A2058?cells: An in vitro and in vivo study
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83 Prognostic Implication of Survivin Expression in Oral Squamous Cell Carcinoma—An Immunohistochemical Study
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84 The effect of polymorphisms in the promoter of the BIRC5 gene on the risk of oesophageal squamous cell carcinoma and patient’s outcomes
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85 Survivin facilitates T-helper 2–biased inflammation in the airway
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86 Epigenetic Changes at the Birc5 Promoter Induced by YM155 in Synovial Sarcoma
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87 The therapeutic potential of metformin in gastric cancer
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88 Immunohistochemical assessment of cyclin D1 and p53 is associated with survival in childhood malignant peripheral nerve sheath tumor
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89 Use of Selected Carbon Nanoparticles as Melittin Carriers for MCF-7 and MDA-MB-231 Human Breast Cancer Cells
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90 Survival of activated myofibroblasts in canine myxomatous mitral valve disease and the role of apoptosis
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91 Function of Nr4a Orphan Nuclear Receptors in Proliferation, Apoptosis and Fuel Utilization Across Tissues
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92 Integrative Histologic and Bioinformatics Analysis of BIRC5/Survivin Expression in Oral Squamous Cell Carcinoma
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93 Shifting perspectives from “oncogenic” to oncofetal proteins; how these factors drive placental development
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94 New chalcone derivative exhibits antiproliferative potential by inducing G2/M cell cycle arrest, mitochondrial-mediated apoptosis and modulation of MAPK signalling pathway
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95 Luteolin induces caspase-dependent apoptosis via inhibiting the AKT/osteopontin pathway in human hepatocellular carcinoma SK-Hep-1 cells
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96 Negative regulators of cell death pathways in cancer: perspective on biomarkers and targeted therapies
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97 Evaluation of a New Survivin ELISA and UBC® Rapid for the Detection of Bladder Cancer in Urine
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98 Evaluation of immunohistochemical expression of survivin and its correlation with -31G/C gene polymorphism in colorectal cancer
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99 A preclinical model to investigate the role of surgically-induced inflammation in tumor responses to intraoperative photodynamic therapy
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100 Tumor suppressive ZBTB4 inhibits cell growth by regulating cell cycle progression and apoptosis in Ewing sarcoma
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101 Current Insights into Oral Cancer Epigenetics
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102 Multifaceted Mechanisms of Cisplatin Resistance in Long-Term Treated Urothelial Carcinoma Cell Lines
Margaretha A. Skowron,Margarita Melnikova,Joep G.H. van Roermund,Andrea Romano,Peter Albers,Juergen Thomale,Wolfgang A. Schulz,Günter Niegisch,Michčle J Hoffmann
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103 Cancer Molecular Markers: A guide to cancer detection and Management.
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104 Kaempferol, a natural dietary flavonoid, suppresses 17ß-estradiol-induced survivin expression and causes apoptotic cell death in endometrial cancer
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105 Effect of survivin downregulation by simvastatin on the growth and invasion of salivary adenoid cystic carcinoma
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106 Antiapoptotic Molecule Survivin in Transplantation: Helpful or Harmful?
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108 Survivin expression in head and neck squamous cell carcinomas is frequent and correlates with clinical parameters and treatment outcomes
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109 Inverse expression of survivin and reprimo correlates with poor patient prognosis in gastric cancer
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110 Targeting phosphorylation of STAT3 delays tumor growth in HPV-negative anal squamous cell carcinoma mouse model
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111 Nitric oxide-releasing derivatives of brefeldin A as potent and highly selective anticancer agents
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112 Inhibition of survivin expression after using oxaliplatin and vinflunine to induce cytogenetic damage in vitro in lymphocytes from colon cancer patients and healthy individuals
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114 Knockdown of COBRA1 decreases the proliferation and migration of hepatocellular carcinoma cells
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115 Co-delivery Strategies to Overcome Multidrug Resistance in Ovarian Cancer
Ikram Ullah Khan,Rizwan Ullah Khan,Hira Asif,Hira Alamgeer,Syed Haroon Khalid,Sajid Asghar,Mohammad Saleem,Kifayat Ullah Shah,Shefat Ullah Shah,Syed A.A. Rizvi,Yasser Shahzad
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116 Construction of a novel vector expressing Survivin-shRNA and fusion suicide gene yCDglyTK and its application in inhibiting proliferation and migration of colon cancer cells
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119 Polyphenols as Promising Drugs against Main Breast Cancer Signatures
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120 Dihydroartemisinin induced caspase-dependent apoptosis through inhibiting the specificity protein 1 pathway in hepatocellular carcinoma SK-Hep-1 cells
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121 An anti-prostate cancer benzofuran-conjugated iridium(III) complex as a dual inhibitor of STAT3 and NF-?B
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122 LOC285629 regulates cell proliferation and motility in colorectal cancer cells
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124 Loss of interactions between p53 and survivin gene in mesenchymal stem cells after spontaneous transformation in vitro
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125 RELM-ß promotes human pulmonary artery smooth muscle cell proliferation via FAK-stimulated surviving
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129 Significance of survivin as a prognostic factor and a therapeutic target in endometrial cancer
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130 Sequence Characterization of Baculoviral Inhibitor of Apoptosis Repeat Containing 5 (BIRC 5) Gene from a Case of Canine Mammary Tumour
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