Characterization of human chondrocytes exposed to simulated microgravity.

BACKGROUND: Tissue engineering is a strategy of cartilage regeneration, but scaffolds, required for 3D growth of chondrocytes, are still a problem. METHODS: Searching for possibilities to improve scaffold-free engineering of cartilage, we characterized human chondrocytes incubated on a random positioning machine (RPM) to simulate microgravity (microg). RESULTS: When cultured in simulated microg, human chondrocytes start forming 3D cell assemblies within 5 days. After 24h, we could not detect caspase-3, Fas, p53 or Bcl-2 proteins in these cells, Annexin V flow cytometry, however, revealed 18% of apoptotic chondrocytes in 1g cultures but only 10% on the RPM. Both rates of apoptosis were not changed, when vascular endothelial growth factor (VEGF) or basic fibroblast growth factor (bFGF) was added. 24 h, simulated microgravity also had significantly decreased collagen type I and X, but did not change collagen type IV and laminin, while collagen type II, chondroitin sulfate and aggrecan were elevated as compared with 1g controls. The production of collagen type II/X, chondroitin sulfate and aggrecan was modified, when external bFGF or VEGF had been applied. CONCLUSION: Chondrocytes exposed to simulated microg seem to change their extracellular matrix production behavior, while they rearrange their cytoskeletal proteins prior to forming 3D aggregates.

Changes of apoptosis, p53, and bcl-2 by irradiation in poorly differentiated thyroid carcinoma cell lines: a prognostic marker for the prospect of therapeutic success?

BACKGROUND: Poorly differentiated thyroid carcinoma (PDTC) has an unfavorable prognosis. Surgical management is the principal treatment approach. In addition, radioiodine treatment and external beam radiotherapy (EBRT) are given to reduce the risk of local relapse. Despite aggressive therapy, the response to treatment tends to become increasingly poorer over time. The objective of this study was to investigate the induction of apoptosis by EBRT as a function of p53 and bcl-2 protein levels in PDTC. The predictive value of these molecules with respect to treatment efficacy was evaluated. MATERIALS AND METHODS: Two different cell lines of PDTC (FTC-133 and ML-1) were irradiated with a dose of 30 Gy. Apoptotic cells were quantified using terminal deoxynucleotidyltransferase-dUTP nick-end labeling staining without irradiation, 48 and 96 hours after irradiation. The protein levels of p53 and bcl-2 were measured simultaneously using flow cytometry and western blotting. The cell cycle distribution was determined. RESULTS: Untreated FTC-133 cells showed a high rate of apoptosis, a high protein level of p53, and a low bcl-2 protein level. Forty-eight hours after irradiation, a slight reduction in apoptotic cells was observed in conjunction with an increase in bcl-2 and p53 protein levels. The slightly reduced fraction of apoptotic cells remained at the same level up to 96 hours after irradiation, whereas the p53 protein level was further downregulated. The cell cycle distribution showed a significant G2/M arrest after 48 hours and recovery 96 hours after irradiation. ML-1 cells did not show any detectable p53 levels and revealed a low rate of apoptosis which significantly increased 48 hours after irradiation. Ninety-six hours after irradiation, a decrease in apoptosis was detectable. The protein level of bcl-2 increased significantly within 48 hours and decreased 96 hours after irradiation. The cell cycle distribution showed a G2/M arrest after 48 hours without a recovery 96 hours after irradiation. CONCLUSIONS: The p53 and bcl-2 expression profiles and the observed apoptotic rates of FTC-133 and ML-1 under irradiation are consistent with a more aggressive FTC-133 phenotype. Alterations in p53- and bcl-2 protein levels yield predictive information for EBRT efficacy.

Blockade of neoangiogenesis, a new and promising technique to control the growth of malignant tumors and their metastases.

Neoangiogenesis, the development of new blood vessels from a pre-existing vasculature involves the migration behavior, proliferation and differentiation of endothelial cells. This process is an important aspect to both the growth and metastasis of solid tumors. In growing tumors, the development of a sufficient vascular supply is a highly complex event, which is controlled by many factors. An interaction between tumor cells, endothelial cells, macrophages, fibroblasts, and the extracellular matrix, all of which are capable of releasing factors influencing the angiogenic mechanisms is necessary for the building of new sufficient vascular structures. The increased understanding of the balance of angiogenesis and mechanisms of vascular control allowed the development of new therapeutic substances that influence that process in different ways. For example, work done over the last decade has elucidated the central role of vascular endothelial growth factor (VEGF) in the regulation of normal and pathological angiogenesis. Therefore, the blockade of VEGF signaling is currently a major part of strategies for the therapy of malignant tumors. Several studies tested neutralizing antibodies against mature VEGF protein or its isoforms, blockade of VEGF receptors by VEGF receptor antibodies, soluble VEGF receptor mutants or fusion-proteins and finally, intracellular interference with VEGF mRNA or signaling in the target cell. In this review, we present strategies and substances for the blockade of neoangiogenesis that are already in clinical use or in pre-clinical trials. Also the combination of these approaches with conventional chemotherapy or radiotherapy will be discussed.

Radiolabeled annexin V for imaging apoptosis in radiated human follicular thyroid carcinomas--is an individualized protocol necessary?

INTRODUCTION: Induction of apoptosis is a widely used strategy for cancer therapy, but evaluating the degree and success of this therapy still poses a problem. Radiolabeled annexin V has been proposed to be a promising candidate for detecting apoptotic cells in tumors following chemotherapy in vivo. In order to see whether radiolabeled annexin V could be a suitable substance for the noninvasive in vivo detection of apoptosis in thyroid tissue and to establish an optimized study protocol, we investigated two poorly differentiated thyroid carcinoma cell lines: ML-1 and FTC-133. METHODS: Apoptosis was evaluated before as well as 2 and 4 days after in vitro irradiation with 30 Gy X-rays. In this study, binding of FITC- and of (125)I-labeled annexin V was measured in comparison to other apoptosis markers such as Bax, caspase-3 and Fas, which were determined by flow cytometry and Western blot analysis with densitometric evaluation. RESULTS: ML-1 and FTC-133 cells showed a significant increase in annexin V binding 48 h after irradiation. Ninety-six hours after irradiation, the annexin V absorption capability of ML-1 cells was still maximal, while the living fraction of FTC-133 increased significantly. The amount of caspase-3 and Bax was clearly increased 48 h after irradiation and had normalized after 96 h in both cell lines. Fas protein concentrations remained unchanged in ML-1 cells but were significantly enhanced in FTC-133 cells. CONCLUSION: The binding of FITC- and (125)I-labeled annexin V showed a significant accordance. A reliable evaluation of apoptosis induced by radiotherapy in thyroid tumors was possible 48 h after irradiation, when binding of radiolabeled annexin V is most significantly enhanced. Using two poorly differentiated cell lines of thyroid carcinoma, one may expect to find a nearly similar response to external irradiation. In contrast, the cell lines showed a completely contrary response. However, an individualized study protocol for each type of tumor and probably within each type is necessary.

Innovative strategies in in vivo apoptosis imaging.

Apoptosis (programmed cell death) plays a key role in the pathogenesis of many disorders including cerebral and myocardial ischemia, autoimmune and neurodegenerative diseases, infections, organ and bone marrow transplant rejection, and tumor response to chemotherapy and/or radiotherapy. Apoptosis in itself represents a complex mechanism where numerous (pro-apoptotic and anti-apoptotic) molecules interact in an elaborate manner. Since the original description by Kerr et al. in 1972, clinical assessment of apoptosis has always required biopsies or aspirated material for in vitro investigations. Several well-established methods are available for in vitro tests using tissue specimens. However, a non-invasive detection of apoptosis would be of great benefit for many patients in various situations. Today, non-invasive techniques for direct in vivo detection of apoptotic cells are rare and urgently need improvement. The early in vivo detection of apoptotic cells can provide the physician with important information to develop further therapeutic strategies in chemotherapy or radiotherapy of tumors, in transplantation of organs, or in healing of infarct areas. In some preliminary publications, several authors reported on the in vivo use of caspase-inhibitors and annexin V, labeled with indium-111, technetium-99m, iodine-123, iodine-124 or fluoride-18. In the present paper, we review the current applicability of both techniques for in vivo apoptosis imaging, and discuss the methodical problems.

Clinical value of planar and tomographic dual-isotope scintigraphy using 99mTc-methylene diphosphonate and 131I in patients with thyroid cancer.

PURPOSE: (131)I whole-body scintigraphy is a highly sensitive method for the detection of differentiated thyroid tumours and metastases. However, a lack of anatomical landmarks and the physiological excretion of the tracer complicates the evaluation of the images. Therefore, we determined whether additional bone scintigraphy in combination with (131)I scintigraphy, simultaneously acquired via planar and tomographic techniques, positively contributes to the treatment plan in patients with non-conclusive (131)I images. METHODS: Twenty-one patients with differentiated thyroid cancer and known metastases or unclear findings in the (131)I whole-body scan underwent dual-isotope scintigraphy (DIS) within 2-7 days after application of 5000-8000 MBq (131)I. Dual-energy planar and tomographic data were acquired simultaneously and the results compared with other imaging modalities. RESULTS: In 48% of the cases (10 of 21), DIS supplied important additional information that either altered the treatment plan or staging of the patients. In 28% (six of 21), DIS provided new information that was not known before, but did not change the staging of the patients. In five cases (24%), DIS did not add any new data regarding the extent of the disease. CONCLUSIONS: The simultaneous acquisition of (131)I and (99m)Tc-methylene diphosphonate provides clear landmarks and facilitates the localization of functioning metastases from differentiated thyroid cancer as well as improves the fusion with morphological images. It can be performed easily and also transferred to other isotope combinations.

Evaluation of the clinical value of bone metabolic parameters for the screening of osseous metastases compared to bone scintigraphy.

BACKGROUND: Bone metastases are common in many types of cancer. As screening methods different imaging modalities are available. A new approach for the screening of osseous metastases represents the measurement of bone metabolic markers. Therefore aim of this study was to evaluate the usefulness of the determination of bone metabolic markers aminoterminal propeptide of type I procollagen (PINP, osteoblastic activity) and the carboxyterminal pyridinoline cross-linked telopeptide of type I collagen (ICTP, osteoclastic activity) for the detection of bone metastases associated with other malignancies. METHODS: 88 patients aged 21 - 82 years with malignant tumors were prospectively studied. The serum concentrations of PINP and ICTP were measured and compared to the results of bone scintigraphy, radiological bone series, CT, MRI and clinical follow-up. RESULTS: Osseous metastases were found in 21 patients. 19 of them were correctly identified by bone scintigraphy (sensitivity: 90%). For bone metabolic markers results were as follows: ICTP sensitivity: 71%, specificity: 42%; PINP sensitivity: 24%, specificity: 96%. CONCLUSIONS: As markers of bone metabolism PINP and ICTP showed low sensitivity and/or specificity for the detection of osseous metastases. The presented markers did not seem to be sufficient enough to identify patients with bone metastases or to replace established screening methods.

Effects of PTK787/ZK222584, a tyrosine kinase inhibitor, on the growth of a poorly differentiated thyroid carcinoma: an animal study.

The process of neoangiogenesis is induced by several mediators. Vascular endothelial growth factor (VEGF) plays a key role in tumor angiogenesis including thyroid carcinomas. The principal aim of this study was to test the hypothesis that inhibition of VEGF activity by PTK787/ZK222584 (PTK/ZK), a specific blocker of both VEGF-receptor tyrosine kinases, could inhibit the growth of a poorly differentiated thyroid cancer. Human follicular thyroid tumor xenografts were implanted sc into nude mice. Eight days following implantation, the animals were randomized into two groups (n = 10 each group). One group received PTK/ZK daily, and the other was treated with sodium chloride (control). Treatment was orally administered using a gastric tube. All animals were killed after 4 wk. Tumors, blood, and samples of other organs were taken for further examinations. Treatment with PTK/ZK induced a 41.4% reduction in tumor volumes. Necrosis of the tumors was detectable earlier in PTK/ZK-treated mice compared with controls. Immunohistochemistry revealed a significant decrease in neoangiogenesis in tumors of PTK/ZK-treated animals. Moreover, no compensatory overexpression of VEGF protein was detectable in the treated group. The compound was well tolerated by the animals without significant side effects on body weight or in general. These results showed that VEGF receptor blockade is a rational approach to the therapy of thyroid cancer. The combination of radioiodine or external radiation with VEGF receptor tyrosine kinase inhibitors might be a new option, especially for poorly differentiated thyroid cancers with limited or no response to conventional therapy.