Yvonne Konkol

Prostatic inflammation and obstructive voiding in the adult noble rat: Impact of the testosterone to estradiol ratio in serum

The age‐related decline of the testosterone to estradiol (T‐to‐E2) ratio in serum is associated with the increased prevalence of prostatic inflammation and lower urinary tract symptoms suggesting obstructive voiding. The impact of the T‐to‐E2 ratio on the development and reversal of non‐bacterial prostatic inflammation and obstructive voiding was tested in adult Noble rats.

Radium-223 Inhibits Osseous Prostate Cancer Growth by Dual Targeting of Cancer Cells and Bone Microenvironment in Mouse Models

Purpose: Radium-223 dichloride (radium-223, Xofigo), a targeted alpha therapy, is currently used for the treatment of patients with castration-resistant prostate cancer (CRPC) with bone metastases. This study examines the mode-of-action and antitumor efficacy of radium-223 in two prostate cancer xenograft models. Experimental Design: Mice bearing intratibial LNCaP or LuCaP 58 tumors were randomized into groups (n = 12–17) based on lesion grade and/or serum PSA level and administered radium-223 (300 kBq/kg) or vehicle, twice at 4-week intervals. X-rays and serum samples were obtained biweekly. Soft tissue tumors were observed macroscopically at sacrifice. Tibiae were analyzed by gamma counter, micro-CT, autoradiography and histology. Results: Radium-223 inhibited tumor-induced osteoblastic bone growth and protected normal bone architecture, leading to reduced bone volume in LNCaP and abiraterone-resistant LuCaP 58 models. Furthermore, radium-223 resulted in lower PSA values and reduced total tissue and tumor areas, indicating that treatment constrains prostate cancer growth in bone. In addition, radium-223 suppressed abnormal bone metabolic activity as evidenced by decreased number of osteoblasts and osteoclasts and reduced level of the bone formation marker PINP. Mode-of-action studies revealed that radium-223 was deposited in the intratumoral bone matrix. DNA double-strand breaks were induced in cancer cells within 24 hours after radium-223 treatment, and PSA levels were significantly lower 72 hours after treatment, providing further evidence of the antitumor effects. Conclusions: Taken together, radium-223 therapy exhibits a dual targeting mode-of-action that induces tumor cell death and suppresses tumor-induced pathologic bone formation in tumor microenvironment of osseous CRPC growth in mice. Clin Cancer Res; 23(15); 4335–46. ©2017 AACR.

Intravesical treatment with cis-urocanic acid improves bladder function in rat model of acute bladder inflammation

The aim was to study the effect of intravesically instilled cis‐urocanic acid (cis‐UCA) on bladder function in an experimental rat model of acute bladder inflammation. Hyaluronic acid (HA) was used as a comparator compound.

Galactoglucomannan-rich hemicellulose extract from Norway spruce (Picea abies) exerts beneficial effects on chronic prostatic inflammation and lower urinary tract symptoms in vivo

Galactoglucomannan (GGM) is the main hemicellulose class in wood of coniferous trees and could be potentially utilized as a possible health-promoting substance for food and pharmaceutical industry. Our aim was to evaluate effects of orally administered GGM-rich extract from Norway spruce in a rat model of chronic prostatitis associated with lower urinary tract symptoms (LUTS). Prostatic inflammation and LUTS was induced in male rats using testosterone and 17β-estradiol exposure for 18 weeks. Rats were treated with 2% GGM dissolved in drinking water during weeks 13-18. Pelvic pain response, LUT function and histopathological evaluation of the prostate were assessed. The results show that hormonal exposure induced LUTS seen as decreased urine flow rate, increased bladder pressure, voiding times, bladder capacity and residual urine volumes. GGM had positive effects on urodynamical parameters by decreasing the basal bladder pressure, increasing the urine flow rate and volume, reducing the residual volume and increasing micturition intervals. GGM reduced the extent of the hormone exposure-induced prostatic inflammation. Increase of pelvic pain induced by hormone exposure was only slightly affected by GGM treatment. The results suggest that orally administered GGM may have potential usage for improving lower urinary tract function associated with chronic prostatic inflammation.

Chronic nonbacterial prostate inflammation in a rat model is associated with changes of gut microbiota that can be modified with a galactoglucomannan-rich hemicellulose extract in diet

To investigate dietary effects on the gut microbiota composition in a rat model of nonbacterial chronic prostate inflammation (CPI).

Abstract 591: A novel high energy alpha-pharmaceutical: In vitro and in vivo potency of a mesothelin-targeted thorium-227 conjugate (TTC) in a model of bone disease

Mesothelin (MSLN) is a 40 kDa membrane-anchored glycoprotein, involved in mediating cell-cell adhesion, metastatic spread, promotion of cell proliferation and resistance to apoptosis. Overexpression of MSLN is most prominent in mesothelioma, ovarian, lung, triple-negative breast (TNBC) and pancreatic cancers, while in healthy tissue, MSLN is confined mainly to the mesothelial cells of the peritoneum and pericardium. Several MSLN-targeting approaches are currently being investigated, including antibody drug conjugates. We describe herein a high energy, alpha-particle emitting MSLN Targeted Thorium Conjugate (MSLN-TTC). Thorium-227 (227Th) has a half-life of 18.7 days and decays via emission of an alpha particle to radium-223 (half-life 11.4 days), a calcium-mimetic used in the treatment of CRPC [1]. The MSLN-TTC comprises an anti-mesothelin monoclonal antibody covalently linked via an amide bond to a chelator moiety possessing high affinity for thorium-227. We present data from in vitro cytotoxicity assays demonstrating selective cell killing on MSLN positive cell-lines as well as in vivo efficacy in a mouse orthotopic bone xenograft model using NCI-H226 luciferase labeled cells. Experimental procedures: MSLN-TTC was prepared in high radiochemical yields and purity. In vitro cytotoxicity experiments were performed on the mesothelin-positive cell lines Ovcar-3 (ovarian), NCI-H226 (lung mesothelioma) and mesothelin-transfected HT29 (HT29MSLN/colorectal) cells. An in vivo model was established by orthotopic intratibial inoculation of luciferase-transfected NCI-H226 cells in athymic mice. Development of bone disease was monitored by luciferase activity and the extent of bone lesions determined by x-ray imaging and microCT. Results: MSLN-TTC induced specific in vitro cytotoxicity via induction of DNA double strand breaks as determined by phosphorylated histone protein H2AX. MSLN-TTC demonstrated statistical significant in vivo potency administered as a single dose of either 250 or 500 kBq/ kg in the orthotopic bone xenograft model. Animals treated with MSLN-TTC showed a) significantly reduced disease in the bone metastatic lesions b) decreased metastatic disease in the lungs and c) significant reduction in osteolytic/ osteoblastic bone lesions as evidenced by X-Ray and microCT compared to the vehicle control group. Furthermore, no significant loss in body weight was observed during the course of the study demonstrating that the MSLN-TTC was well tolerated. The data presented support the further investigation of the MSLN-TTC in bone metastatic disease. References: 1. Henriksen, G., et al., Targeting of osseous sites with alpha-emitting 223Ra: comparison with the beta-emitter 89Sr in mice. J Nucl Med, 2003. 44(2): p. 252-9. Citation Format: Urs B. Hagemann, Else-Marie Hagelin, Katrine Wickstroem, Kristine Sponheim, Roger Smeets, Jenny Karlsson, Roger M. Bjerke, Mari I. Suominen, Yvonne Konkol, Jenni Bernoulli, Jukka Rissanen, Jussi Halleen, Liv-Ingrid Oedegaardstuen, Alan Cuthbertson. A novel high energy alpha-pharmaceutical: In vitro and in vivo potency of a mesothelin-targeted thorium-227 conjugate (TTC) in a model of bone disease. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 591.

Abstract 640: New models of breast and lung cancer bone metastases for preclinical efficacy testing

Introduction Clinically, bone is a very common site of metastatic spread in many cancers. In breast, and in particular cases of advanced estrogen receptor positive (ER+) cancers, the propensity of bone involvement is 85%. Similarly in lung cancer, 30-40% of patients with advanced disease develop bone metastases, and as recent advances in lung cancer therapies improve survival, the number of patients living with bone metastases is expected to increase. At the same time there is a paucity of especially ER+ and osteoblastic animal models available for the nonclinical evaluation of new treatment strategies. We present herein the development of four mouse models of breast and lung cancer suitable for screening of new therapies. Experimental procedures Human breast cancer cell lines BT-474 and MFM-223 and non-small cell lung cancer (NSCLC) cell lines NCI-H226luc and NCI-H322 were used. BT-474 is ER+, i.e. luminal B subtype and MFM-223 is basal subtype with androgen receptor (AR) expression. H226 originates from squamous cell carcinoma and H322 from adenocarcinoma of the lung. The different cell lines were inoculated in the tibia of female nude or NOD.scid mice. Half of the BT-474 inoculated mice had a s.c. slow release 17-beta estradiol pellet implanted. The formation of bone lesions was monitored by X-ray imaging. For H226 transfected with luciferase, tumor growth was also followed by bioluminescence imaging (BLI). Finally, tumor growth and type of bone lesion, i.e. ostelytic or oestoblastic, was confirmed by histology. Results Development of bone lesions was successful in 100% and 90% of animals, with or without hormonal supplementation respectively, four weeks after inoculation of BT-474 cells. Bone lesions were detected earlier in mice with estradiol pellet and were of lytic type. In contrast, bone lesions in mice without hormonal supplementation were strongly osteoblastic. For MFM-223, bone lesions were observed 4-6 weeks after inoculation and the success rate was 60% in nude mice and 70% in NOD.scid mice. For both lung cancer cell lines, 100% of the mice developed bone lesions and were detectable already two weeks after inoculation. H226luc cells developed osteoblastic-mixed lesions and H322 cells induced lytic lesions. Very interestingly, H226luc cells also formed lung metastases in all animals, as evidenced by BLI. Some lung metastases were also found in H322 inoculated mice. Conclusions Two new osteoblastic models are added to the current scarce selection and altogether four new bone lesion models representing different subtypes of breast and lung cancer were successfully established. The different types of bone reaction in these models offer a platform for studying the underlying pathways resulting in response to treatment in osteoblastic vs. osteolytic tumor microenvironment. Citation Format: Mari I. Suominen, Urs B. Hagemann, Yvonne Konkol, Jenni Bernoulli, Katja M. Fagerlund, Roger M. Bjerke, Jenny Karlsson, Jussi M. Halleen, Alan Cuthbertson. New models of breast and lung cancer bone metastases for preclinical efficacy testing. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 640.

Abstract 637: Establishment of a realistic patient-derived xenograft (PDX) model for prostate cancer bone metastasis

Bone metastases are frequent and fatal outcome of advanced prostate cancer. Many of the currently used preclinical models lack typical characteristics of the heterogenic human disease. We improved existing methodology by using fresh patient-derived material in a xenograft model of bone metastasis. Clinical prostate tumor specimens were collected from robotic-assisted laparoscopic radical prostatectomy operations in Turku University Hospital (Turku, Finland). Patient-derived tumor tissue of Gleason grade 8-10 tumors (n = 5) were cut into small pieces, digested overnight, and then cell suspension was intratibially inoculated into the bone marrow cavity of nude mice (n = 8-10/patient). X-ray pictures were taken and blood samples were collected once a month. Mice were sacrificed 6 months after tumor cell inoculation, and hind limbs and lungs were collected for histological and immunohistochemical analysis. PSA was measured from serum using commercial kit. X-rays demonstrated osteosclerotic bone lesions. Immunohistochemical analysis showed that 80% of tumors in bone expressed similar characteristics compared with original tumor (androgen receptor AR, prostate specific antigen PSA, proliferation marker Ki67). However, no changes were seen in serum PSA. Lung metastases were detected in 50% of tumor-bearing mice. Interestingly, the most of lung metastases were negative for AR and PSA, which indicates that the cell population that forms metastases may be undifferentiated clone of heterogenic tumor and therefore the most aggressive. Our platform provides new tools for prostate cancer research. Citation Format: Yvonne Konkol, Maija Valta, Jenni Bernoulli, Pekka Taimen, Peter Bostrom, Pirkko Harkonen, Jussi Halleen, Johanna M. Tuomela. Establishment of a realistic patient-derived xenograft (PDX) model for prostate cancer bone metastasis. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 637.