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Träfflista för sökning "WFRF:(Sun Xiao Feng) srt2:(2005-2009);mspu:(doctoralthesis)"

Sökning: WFRF:(Sun Xiao Feng) > (2005-2009) > Doktorsavhandling

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1.
  • Gao, Jingfang, 1966- (författare)
  • Molecular and Biological Characteristics of Stroma and Tumor Cells in Colorectal Cancer
  • 2008
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • Carcinogenesis is a progressive process involving multiple genetic alterations in tumor cells and complex interactions in the tumor-host microenvironment. To better understand the contribution of molecular alterations in tumor cells and stromal variables to the development of colorectal cancer (CRC) and identify prognostic factors, in this study we examined the clinicopathological and biological significance of stromal variables, including particularly interesting new cysteine-histidine rich protein (PINCH), inflammatory infiltration, angiogenesis and lymphangiogenesis, as well as hRAD50/hMRE11/hNBS1 proteins and hRAD50 mutation in tumor cell in CRC.PINCH protein expression in the stroma was increased from normal mucosa to primary tumors and further to lymph node metastases. In particular, PINCH expression was most intense at the tumor invasive margin, which was related to low inflammatory infiltration and independently related to an unfavorable prognosis. Low inflammatory infiltration at the tumor invasive margin was related to advanced tumor stage, worse differentiation and microsatellite instability (MSI). Further, it was independently related to an unfavorable prognosis. Increased blood and lymphatic vessel density was observed in the primary tumors compared with the corresponding normal mucosa. However, neither angiogenesis nor lymphangiogenesis was associated with tumor stage and patients’ survival. Moreover, PINCH was present in a proportion of endothelial cells of the tumor vasculature, and PINCH expression in tumor-associated stroma was positively related to blood vessel density.In primary tumor cells of CRC, strong expression of hRAD50, hMRE11 or hNBS1 was related to microsatellite stability (MSS). A high percentage of hMRE11 expression was associated with less local recurrence and high apoptotic activity. Further, we observed that the expression of hRAD50, hMRE11 or hNBS1 among normal mucosa, primary tumors and metastases in MSS CRC differed from that in MSI CRC. In MSS CRC, the expression intensity of hRAD50, hMRE11 and hNBS1 was consistently increased with respect to normal mucosa, but there was no difference between the primary tumors and metastases. In the primary MSS tumors, the expression of individual or combination of hRAD50/hMRE11/hNBS1 was associated with a favorable prognosis in the same series of the CRCs. Moreover, strong/high hRAD50 in MSS primary tumors was related to earlier tumor stage, better differentiation and high inflammatory infiltration, whereas strong hNBS1 expression tended to be independently related to a favorable prognosis in MSS CRC with earlier tumor stage. However, in MSI CRC, there were neither differences in the expression of hRAD50/hMRE11/hNBS1 among normal mucosa, primary tumors and metastases, nor any association of the protein expressions with clinicopathological variables. On the other hand, frameshift mutations of (A)9 at coding region of hRAD50 were only found in MSI CRC.Our study indicates that 1) PINCH is likely a regulator of angiogenesis, and PINCH expression at the tumor invasive margin is an independent prognostic indicator in CRC. 2) Inflammatory infiltration at the tumor invasive margin is also an independent prognostic indicator in CRC. The lack of association between high inflammatory infiltration and MSI may help to explain the non-association of MSI with survival in CRC patients. 3) Angiogenesis and lymphangiogenesis occur in the early stage of CRC development, but do not associate with CRC progression and patients’ prognosis. 4) hRAD50/hMRE11/hNBS1 may act dependently and independently, playing different roles in MSS and MSI CRC development. In MSS CRC, the strong expression of the three proteins, associated with a favorable prognosis, may present the cellular response against tumor progression. Expression of hNBS1 may be a prognostic indicator for MSS CRC patients in the earlier tumor stage. In MSI CRC, the frameshift mutations at the coding region of hRAD50 may contribute to tumor development.
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2.
  • Pfeifer, Daniella (författare)
  • p73 in colorectal cancer
  • 2009
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • Colorectal cancer (CRC) is the third most common cancer in the world, with about 5000 new cases in Sweden every year. CRC is caused by mutation (inherited or acquired) in genes, by gene variants and changed expression of proteins. The primary way to achieve a curative result for CRC is to remove the tumor by surgery. To reduce risk of recurrence chemo- or radiotherapy are given as a complement to surgery. p73 is a structural and functional homologue of tumor suppressor p53. However, p73 is rarely mutated in tumors, but rather overexpressed as compared to normal tissue. There are two main isoforms of p73, the transactivation capable TAp73 and the truncated ΔNp73, which are involved in an autoregulatory loop with TAp73 and p53.The aim of this study was to investigate the role of p73 and related proteins in the development and treatment of CRC. A G4C14-to-A4T14 polymorphism of p73 was studied in CRC patients and healthy controls (Paper I), and rectal cancer patients who were randomized to treatment with either surgery alone or preoperative radiotherapy and surgery (Paper II). The AT/AT genotype of the p73 polymorphism may increase risk of CRC development and CRC patients with the AT allele had a better prognosis. When dividing the cases into colon and rectal cancer it was seen that in colon cancer the AT allele tended to be more favorable for overall survival, while in rectal cancer the GC allele seemed to be more favorable. Rectal cancer patients, with a combination of GC/GC genotype, wild type p53 and weak survivin expression survived longer after preoperative radiotherapy. This was not observed in the patients only receiving surgery. The protein expression of p73 was further studied in the rectal cancer patients randomized to treatment with either surgery alone or preoperative radiotherapy and surgery (Paper III). p73 was expressed higher in tumor tissue than in normal mucosa. Patients with p73 negative tumors had a lower risk of local recurrence after radiotherapy, as opposed to patients that had p73 positive tumors or patients with p73 negative tumors that did not receive radiotherapy. Effects of γ-radiation was further studied in colon cancer cell lines KM12C, KM12SM and KM12L4a regarding cell cycle, survival fraction (clonogenicity), apoptosis and protein expression patterns of mutated p53, TAp73, ΔNp73, survivin and PRL-3 (Paper IV). KM12C displayed low survival fraction, low apoptosis, no cell cycle arrest and an upregulation of the antiapoptotic ΔNp73 after irradiation. KM12L4a showed a high survival fraction, but high apoptosis, arresting of the cell cycle and upregulation of the radio-resistance factor survivin. The effects of overexpression and knockdown of survivin on TAp73, ΔNp73 and p53 expression in colon cancer cell lines HCT-116p53+/+ and HCT-116p53-/- with and without γ-radiation were studied (Paper V). Overexpression of survivin decreased wild type p53, whilst downregulation of survivin lead to a simultaneous downregulation of TAp73 and ΔNp73, mRNA and protein, both with and without γ- radiation. Knockdown of survivin also demonstrated an increase in apoptosis.In conclusion, we showed that the G4C14-to-A4T14 polymorphism of p73 and p73 protein expression may be involved in CRC development, radiotherapy response and survival. We further showed that TAp73, ΔNp73 and p53 were regulated by survivin in colon cancer cells.
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3.
  • Wallin, Åsa, 1976- (författare)
  • Molecular Studies of Irradiation and SN-38 on Colorectal Cancer
  • 2008
  • Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
    • Colorectal cancer (CRC) is one of most common cancer diseases worldwide. In Swedenapproximately 5,000 new cases of CRC are generated each year, which makes it the thirdmost common cancer disease among both men and women. The past decades ofimproved treatment strategies have considerably increased the five-year survival for CRCpatients. However more could be achieved in this area, in particular for metastatic CRC,which is the cause of most CRC-related deaths. Therefore it is important to study thebiological response to certain treatments induced in CRC to find valuable predictiveand/or prognostic factors to select patients for better suited treatments.The aim of this thesis was to gain insight into the molecular changes that occurfollowing irradiation or treatment with SN-38 in rectal cancer patients or colon cancercell lines by studying the RNA expression, protein expression, DNA cell cycledistribution and apoptotic response. The expression of phosphatase of regenerating liver(PRL) proteins was investigated in rectal cancers from 125 patients included in arandomized clinical trial of preoperative radiotherapy (RT). Increased expression of PRLswas seen at the invasive margin of primary and metastatic cancers compared with theinner area of the tumors. Moreover, strong PRL staining at the invasive margin correlatedto distant recurrence and worse survival of patients in the RT group but not in non-RTgroup (Paper I). Radiosensitivity was studied by treating KM12C, KM12SM andKM12L4a colon cancer cell lines with radiation. KM12C is of low metastatic naturecompared with the highly metastatic KM12SM and KM12L4a. Upregulation of ΔNp73and PRL-3 might contribute to the radioresistant phenotype in KM12C. In contrast,KM12L4a shows a high frequency of apoptosis and lack of upregulation of ΔNp73, PRL-3 and survivin, which might explain its radiosensitive phenotype (Paper II). KM12C,KM12SM and KM12L4a were treated with SN-38 which inhibits topoisomerase 1 (topo-1). The results show that SN-38 induces G2/S arrest and possess the capacity to triggerapoptosis in the three cell lines (Paper III). To further elucidate SN-38 effect on these celllines, the gene expression profile following SN-38 treatment was studied. Oligonucleotidearrays consisting of ~27,000 spots were hybridized with sample and reference cDNA.Both unsupervised and supervised hierarchical clustering analysis, and functional analysiswere performed. Supervised hierarchical clustering gives a strong signal of 1453discriminated genes, the vast majority being upregulated. Both upregulated anddownregulated genes point toward a favorable impact of SN-38 regarding the apoptoticpathways. For example RhoB and Bax are upregulated together with downregulation ofKras and survivin, which promotes apoptosis (Paper IV).In conclusion, PRLs may be valuable biomarkers for RT resistance, predicting apoor prognosis in rectal cancer patients. Targeting radio-resistance factors, such asΔNp73 and survivin may contribute to an increased sensitivity to RT. SN-38 affects cellproliferation and apoptosis.
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