Role of High Mobility Group A2 (HMGA2) in Prostate Cancer

Hawsawi, Ohuod

20 May 2019

High mobility group A2 (HMGA2) is a non-histone protein highly expressed during the development but is low or absent in most adult tissues. Epithelial-mesenchymal transition (EMT) plays a critical role in prostate cancer progression and metastasis. HMGA2 has been shown to promote EMT in separate studies. Interestingly, wild-type HMGA2 and truncated (lacking the 3’UTR) HMGA2 isoforms are overexpressed in many cancers. However, there are no studies on the role of each isoform in prostate cancer progression. We hypothesized that wild-type and truncated HMGA2 promotes prostate cancer progression by different mechanisms. We analyzed the expression of HMGA2 in the prostate panel by western blot analysis and the localization in prostate tissue microarray by immunohistochemistry. We stably overexpressed wild-type and truncated HMGA2 cDNA in LNCaP cells and measured the expression and the localization of HMGA2 as well as EMT markers. We also performed the migration and cell viability assays. We analyzed phospho-ERK in cells overexpressing HMGA2 as well as inhibition with U0126 (MAPK inhibitor). To explore the role of truncated HMGA2, we measured the reactive oxygen species (ROS) concentration by DCFDA dye, as well as analyzing Jun-D as a putative downstream effector of HMGA2. Additionally, we knocked down Jun-D and performed the migration and cell viability assays. We treated ARCaP-M mesenchymal cells with camalexin, a 3-thizol-2-yl-indole (a natural product, as a candidate to target HMGA2) in vitro and in vivo in nude mice. Our results showed an increase in nuclear HMGA2 expression with prostate cancer progression as compared to normal tissue. LNCaP cells overexpressing wild-type but not truncated HMGA2 displayed nuclear localization and induced EMT via the ERK1/2 pathway, and this effect could be reversed by treating the cells with U0126. Conversely, truncated HMGA2 displayed cytoplasmic expression and increased prostate cancer migration via increasing Jun-D expression and ROS; this could be antagonized by Jun-D knockdown. Finally, treating ARCaP-M aggressive prostate cancer cells with camalexin reduce its expression in vitro and in vivo. In conclusion, both wild-type and truncated HMGA2 induce prostate cancer progression by different mechanisms which may be targeted by camalexin.

HMGA2

Prostate cancer

EMT

Metastases

ROS

Camalexin

Biology

Cell Biology

Therapeutic vaccination for the treatment of metastatic breast cancer

Gross, Brett Patrick

01 May 2018

Metastatic breast cancer is a leading cause of cancer-related mortality worldwide. While existing interventions are effective at treating localized tumors, disseminated malignancies remain incurable. Vaccine-induced anti-tumor immunity is a promising approach for treating disseminated tumors, as immune responses are systemic, have antigen-restricted cytotoxicity, and generate protective immune “memory” populations. Our group has developed a novel heterologous prime/boost vaccine protocol that treats established 4T1 murine mammary tumors. Briefly, this approach entails a vaccine prime consisting of tumor lysate antigens encapsulated within poly(lactic-co-glycolic) acid (PLGA) microparticles (MPs). The vaccine prime was followed by a vaccine boost consisting of tumor lysates plus adjuvants. Spontaneous 4T1 lung metastasis was evaluated at a pre-determined endpoint in vaccinated versus untreated mice. Vaccinated mice demonstrated significant, but incomplete, reductions in metastatic tumor burdens relative to untreated control mice. Encouraged by these results, we evaluated additional vaccine variations with the goal of improving therapeutic responses. The addition of immunomodulatory chemotherapy or checkpoint blockade immunotherapy failed to significantly improve the initial vaccine’s efficacy. Conjugation of streptavidin/biotin complexes to the PLGA MP significantly improved vaccine efficacy, with vaccinated mice demonstrating 88% less metastatic tumor burdens than their untreated counterparts. These findings illustrate that vaccines based upon PLGA MP-mediated delivery of tumor lysates can form the basis of an effective treatment for metastatic breast cancer and suggest that similar approaches may be both efficacious and well-tolerated in the clinic.

Breast Cancer

Immunotherapy

Metastases

PLGA

Tumor Lysate

Vaccine

In vitro functional analysis of TP53 transfected human cancer cells

Richard Lai

Unknown Date

Among the genetic mutations involved in carcinogenesis, TP53 mutation is a frequent event in many types of cancer. P53 is a transcription factor that regulates activities such as cell cycle arrest, apoptosis, DNA repair and angiogenesis. The majority of TP53 mutations are missense mutations that accumulate in cancer and are often retained in distant metastases. The effects of the mutant p53 proteins include loss of function, dominant-negative effects over wild-type (WT) p53 and possible acquisition of new properties (gain-of-function). However, some of these properties may differ from one mutant p53 protein to another. These differences could have implications for the in vivo behaviour of tumours carrying particular mutations and hence patient prognosis. The aim of this project was to investigate the phenotypic variation between cells transformed with different p53 mutants. This was achieved by constructing a range of TP53 mutants (R175H, G245S, R248W, R248Q, R273H, R282W) using PCR-based mega-primer site directed mutagenesis. These mutants were cloned into a mammalian bi-cistronic expression vector (designed for the co-expression of WT and mutant TP53 from a single plasmid) to allow transient expression in NCI-H358 cells (p53 null). Regard to the method for PCR site directed mutagenesis, the main technical difficulty with conventional methods was the insufficiency of the mutant TP53 product yield (75%). This thesis has modified these methods by carrying over the start template to a second round of PCR and increasing the MgCl2 concentration. This modified PCR-based site directed mutagenesis method has demonstrated an increased mutant TP53 product yield (100%). The tetracycline expression system is the most widely used for conditional inducible systems in mammalian cells, although high background expression has been a main problem. The ecdysone inducible system potentially allows for the study of the conditional expression of the exogenous reporter gene even though it may be cell lethal or alter the phenotype during the selection of transfectants. This system relies on two independent transfections of two plasmids namely pVgRXR and pIND. However, disruption of the regulatory element within the plasmid during stable integration can result in silence or high background expression of the exogenous reporter gene. A previous study reported a transient luciferase reporter assay to screen the cell line stably transfected with pVgRXR plasmid. However, there is no suitable method to screen the subsequent pIND transfection. This thesis has demonstrated a real time RT-PCR strategy to screen for the background expression problem associated with the ecdysone expression system. However, due to the project’s time limitations, a transient expression system rather than a stable expression system was used. The metastasis related cellular activity of WT/mutant TP53 transfected NCI-H358 cells was examined using a range of in vitro functional assays including a proliferation assay, a p21 promoter binding activity assay, a colony formation assay, and a migration assay. To extend the study, this thesis also employed real-time RT-PCR to examine the mRNA expression level of three metastatic related genes, VEGF, HER-2, and E-cadherin, in the WT/mutant TP53 transfected NCI-H358 cells. The results showed that different WT/mutant TP53 transfected cell linse could contribute to markedly different cellular activity. Among these mutants, R175H produced the highest cellular proliferation activity, the strongest dominant-negative activity over the WT on the p21 promoter binding activity and apoptosis activity, and the greatest effect on cellular migration. Furthermore, the real-time PCR results showed that the WT p53 inhibited transcription of key metastasis-related genes such as VEGF and HER-2. Considered with recent literature, this led me to postulate a feedback amplification cycle involving defective p53 and HER-2 mRNA expression. In conclusion, cancer cells with the R175H mutant could contribute to aggressive tumours. This conclusion, based on the in vitro data, is consistent with some clinical observations and animal model experiments. In the past few years it has become apparent that epigenetic changes also play a vitally important role in the cancer developmental process. Recent studies have reported the p53 protein can contribute in methylation which is one of the processes involved in epigenetic modification. This thesis employed a very new PCR-based AMP technique to examine the change of the global genome methylation pattern as a result of knocked-out p53 protein. The results showed defective p53 protein expression may associate with the global genome methylation pattern changes. However, it is important to note that antibiotic reagents, which were used for stable transfectant selection, could also contribute to the global genome methylation changes. In conclusion, this thesis has successfully developed two new methods. One allows the generation of a genetic mutant construct using PCR-based site directed mutagenesis while the other screens the tightly regulated ecdysone reporter system. In terms of effect of p53 in in vitro cell activity, this thesis has postulated that the R175H mutation is associated with much more aggressive metastatic cellular activity. Finally, this thesis also reported that loss of p53 expression could also result in changes in the global genome methylation pattern.

P53

Metastases

PCR site directed mutagenesis

Ecdysone system

Methylation

The use of PET/CT scans in the assessment of resectability of colorectal liver metastases

Patel, Seema

06 1900

Background: Surgical treatment of colorectal liver metastases (CLRM) depends on resectability that is currently based on the CT scan. With the PET/CT scan, a more accurate pre-operative assessment of resectability may be possible. Methods: A Cochrane-based diagnostic test systematic review and a systematic review of cost-effectiveness studies on PET scans were conducted. Lastly, a diagnostic decision analysis model was created to assess the cost-effectiveness of the technology. Results: PET/CT scans was equally sensitive for hepatic metastases and more sensitive for extra-hepatic metastases compared to CT scans. A cost-savings of PET scans for CRLM is identified; with decision modelling demonstrating a cost-savings with the addition of PET/CT scans to the current clinical algorithm. Conclusion: There is cautious support for the addition of PET/CT scans to the pre-operative assessment in CRLM. Unnecessary surgery may be prevented, thus decreasing wait times. Future endeavours include finding, evaluating and validating methodology for appropriate effectiveness measures. / Health Technology Assessement

PET/CT

colorectal cancer

liver metastases

surgial resectability

Sentinel Node in Clinical Practice : Implications for Breast Cancer Treatment and Prognosis

Andersson, Yvette

January 2012

The introduction of sentinel lymph node biopsy (SLNB) has conveyed several new issues, such as the risk of false negativity, long-term consequences, the prognostic significance of micrometastases and whether ALND can be omitted in sentinel lymph node- (SLN) positive patients. Archived SLN specimens from 50 false negative patients and 107 true negative controls were serially sectioned and stained with immunohistochemistry. The detection rate of previously unknown metastases did not differ between the false and the true negative patients. The risk of false negativity was higher in patients with multifocal or hormone receptor-negative tumours, or if only one SLN was found. In a Swedish multicentre cohort, 2216 SLN-negative patients in whom ALND was omitted were followed up for a median of 65 months. The isolated axillary recurrence rate was only 1.0%, and the overall survival was high (93%). The survival of 3369 breast cancer patients (2383 node-negative (pN0), 107 isolated tumour cells (pN0(i+), 123 micrometastases (pN1mi) and 756 macrometastases (pN1)) was analysed. The 5-year cause-specific and event-free survival was worse for pN1mi and pN1 patients than for pN0 patients. There was no difference in survival between pN0(i+) and pN0 patients. Tumour and SLN characteristics in 869 SLN-positive patients were compared between those with and without non-SLN metastases, and the Tenon score was calculated. The risk of non-SLN metastases was higher in case of SLN macrometastases (compared with micrometastases), a high positive/total SLN ratio and Elston grade 3 tumours, and increased with increasing tumour size. The area under the curve (AUC) for the Tenon score was 0.65, and the test thus performed inadequately in this population. In conclusion, despite the risk of false negativity, SLNB with omission of ALND in SLN-negative patients appears to be safe even in the long term. The presence of micrometastases is of prognostic importance and should entail adjuvant treatment. The need for ALND in patients with SLN micro- and even macrometastases has been questioned, but the occurrence of non-SLN metastases is hard to predict, and strong evidence for the safe omission of ALND is lacking.

breast cancer

sentinel node

micrometastases

survival

non-sentinel node metastases

Hypofractionated conformal stereotactic radiotherapy in the treatment of AVMs and cerebral metastases

Lindvall, Peter

January 2006

Hypofractionated conformal stereotactic radiotherapy (HCSRT) has been used for the treatment of AVMs at the Umeå University Hospital since 1986. From this year and onwards an increasing number of patients with single or oligo brain metastases have also been treated using this technique. In paper I we have retrospectively evaluated our treatment results of AVMs in terms of obliteration and complications. The rates of obliteration and complications seem to be comparable with SRS even if the AVM volumes in our series were larger than in most series with SRS. In paper II we have retrospectively evaluated the results in terms of local control, survival and complications in two groups of patients with single or oligo brain metastases. One group was treated with HCSRT alone and the other group was treated with whole brain radiotherapy in combination with a stereotactic boost. Controversy still exists concerning the benefit of additional use of WBRT in combination with stereotactic irradiation. The survival times were equal in the two groups and no significant difference in local control was observed. The omission of WBRT seems to carry a higher risk for development new brain metastases distant from the irradiated area. In paper III we report the treatment results in a subgroup of AVMs treated with a combination of embolisation and HCSRT. We also focus on the reduction of vascular density within the nidus of an AVM and propose a method to digitally compare images and more objectively assess a reduction in vascular density following embolisation. Obliteration rates seem comparable with other series using a combination of SRS and embolisation even if our rate of complications was higher than what is usually reported. Using luminescence as measure of vascular density all AVMs seemed to be less dense after embolisation. Treatment accuracy in terms of reproducibility of the isocenter in consecutive treatment sessions is crucial in fractionated radiotherapy. In paper IV we have radiologically evaluated the reproducibility of the isocenter in successive treatment sessions using the non invasive relocatable Fixster frame. There was a high degree of reproducibility and only small errors that most likely is of no clinical importance. A reliable dose plan is equally important as a tool to predict the dose delivered inside and outside the target volume. In paper V we have evaluated the reliability of treatment plans in HCSRT for targets of different geometry and size. A liquid ion chamber and gel dosimeter was used for assessment of dose distribution and absorbed dose. The doseplanning system proved to be accurate in predicting the absorbed dose and dose distribution for the different targets.

arteriovenous malformations

brain metastases

hypofractionation

stereotactic radiotherapy

LINAC

embolisation

Surgical Stress Promotes the Development of Cancer Metastases by a Coagulation-Dependent Mechanism in a Murine Model

Seth, Rashmi

07 September 2011

Surgery precipitates a hypercoagulable state and has been shown to increase the development of cancer metastases in animal models, however mechanism(s) responsible for this are largely unknown. We hypothesize that the prometastatic effect of surgery may be secondary to postoperative hypercoagulable state. Surgical stress was induced in mice by partial hepatectomy or nephrectomy, preceded by intravenous injection of CT26-LacZ or B16F10-LacZ cells to establish pulmonary metastases with or without perioperative anticoagulation and their lung tumor cell emboli (TCE) were quantified. Fibrinogen and platelets were fluorescently labeled prior to surgical stress to evaluate TCE-associated fibrin and platelet clots. Surgery significantly increased metastases while anticoagulation with five different agents attenuated this effect. Fibrin and platelet clots were associated with TCE significantly more frequently in surgically stressed mice. Surgery promotes the formation of fibrin and platelet clots around TCE and this appears to be the mechanism for the increase in metastases seen following surgery.

Surgical stress

Cancer metastases

Coagulation

Natural-Killer cells

Murine model

Surgical Stress Promotes the Development of Cancer Metastases by a Coagulation-Dependent Mechanism in a Murine Model

Seth, Rashmi

07 September 2011

Surgery precipitates a hypercoagulable state and has been shown to increase the development of cancer metastases in animal models, however mechanism(s) responsible for this are largely unknown. We hypothesize that the prometastatic effect of surgery may be secondary to postoperative hypercoagulable state. Surgical stress was induced in mice by partial hepatectomy or nephrectomy, preceded by intravenous injection of CT26-LacZ or B16F10-LacZ cells to establish pulmonary metastases with or without perioperative anticoagulation and their lung tumor cell emboli (TCE) were quantified. Fibrinogen and platelets were fluorescently labeled prior to surgical stress to evaluate TCE-associated fibrin and platelet clots. Surgery significantly increased metastases while anticoagulation with five different agents attenuated this effect. Fibrin and platelet clots were associated with TCE significantly more frequently in surgically stressed mice. Surgery promotes the formation of fibrin and platelet clots around TCE and this appears to be the mechanism for the increase in metastases seen following surgery.

Surgical stress

Cancer metastases

Coagulation

Natural-Killer cells

Murine model

External Beam Radiotherapy for Painful Bone Metastases from Hepatocellular Carcinoma: Multiple Fractions Compared with an 8-Gy Single Fraction

HOSHI, HIROAKI, TANAKA, HIDEKAZU, HAYASHI, SHINYA

02 1900

No description available.

Dose–response relationship

Radiotherapy

Palliative therapy

Bone metastases

Hepatocellular carcinoma

The use of PET/CT scans in the assessment of resectability of colorectal liver metastases

Patel, Seema

Unknown Date

No description available.

PET/CT

colorectal cancer

liver metastases

surgial resectability