Altered TUBB3 expression contributes to the epothilone response of mitotic cells.

BACKGROUND: Epothilones are a novel group of microtubule (mt) targeting cancer drugs that bind to the ß-subunit of the αß-tubulin dimer. Epothilones inhibit cell proliferation and induce cell death by interfering with the normal mt function. In this study, we examined the consequences of altered expression of human ß-tubulin isotypes in terms of the epothilone drug response in human lung and breast cancer cell lines. METHODS: The ß-tubulin isotypes TUBB2A-C, TUBB3 and TUBB were silenced or overexpressed in A549, A549EpoB40 and MCF7 cell lines in the presence or absence of epothilones. The drug effects on cell proliferation, mitosis and mt dynamics were determined using live cell microscopy and immunofluorescence assays. RESULTS: Loss of TUBB3 enhanced the action of epothilones. TUBB3 knockdown increased the severity of drug-induced mitotic defects and resulted in stabilisation of the mt dynamics in cells. Moreover, exogenous expression of TUBB3 in the epothilone resistant cell line conferred the response to drug treatments. In contrast, reduced levels of TUBB2A-C or TUBB had not apparent effect on the cells' response to epothilones. CONCLUSION: Our results show that the expression of TUBB3 contributes to the cellular response to epothilones, putatively by having an impact on the mt dynamics.

In vivo detection of vascular adhesion protein-1 in experimental inflammation.

Vascular adhesion protein-1 (VAP-1) is an inflammation-inducible endothelial glycoprotein which mediates leukocyte-endothelial cell interactions. To study the pathogenetic significance of VAP-1 in inflammatory disorders, an in vivo immunodetection method was used to detect the regulation of luminally expressed VAP-1 in experimental skin and joint inflammation in the pig and dog. Moreover, VAP-1 was studied as a potential target to localize inflammation by radioimmunoscintigraphy. Up-regulation of VAP-1 in experimental dermatitis and arthritis could be visualized by specifically targeted immunoscintigraphy. Moreover, the translocation of VAP-1 to the functional position on the endothelial surface was only seen in inflamed tissues. These results suggest that VAP-1 is both an optimal candidate for anti-adhesive therapy and a potential target molecule for imaging inflammation.

Vascular adhesion protein-1, intercellular adhesion molecule-1 and P-selectin mediate leukocyte binding to ischemic heart in humans.

OBJECTIVES: The expression of endothelial adhesion molecules and their functional significance in leukocyte adhesion to human myocardial blood vessels in acute myocardial infarction (AMI) were studied. BACKGROUND: Leukocyte extravasation, mediated by specific adhesion molecules, exacerbates tissue injury after restoration of blood supply to an ischemic tissue. Experimental myocardial reperfusion injury can be alleviated with antibodies that block the function of adhesion molecules involved in leukocyte emigration, but the relevant molecules remain poorly characterized in human AMI. METHODS: Semiquantitative immunohistochemistry and in vitro adhesion assays were used to study the expression and granulocyte binding abilities of different endothelial adhesion molecules in human AMI. Changes in the molecular nature of vascular adhesion protein-1 (VAP-1) were evaluated using immunoblotting. RESULTS: Certain endothelial adhesion molecules (intercellular adhesion molecule [ICAM-2], CD31 and CD73) were expressed in myocardial blood vessels homogeneously in normal and ischemic hearts, whereas others (E-selectin and peripheral lymph node addressin) were completely absent from all specimens. The synthesis of ICAM-1 was locally, and that of P-selectin regionally, upregulated in the infarcted hearts when compared with nonischemic controls. Vascular adhesion protein-1 showed ventricular preponderance in expression and alterations in posttranslational modifications during ischemia-reperfusion. Importantly, P-selectin, ICAM-1 and VAP-1 mediated granulocyte binding to blood vessels in the ischemic human heart. CONCLUSIONS: Human P-selectin, ICAM-1 and VAP-1 appear to be the most promising targets when antiadhesive interventions preventing leukocyte-mediated tissue destruction after myocardial ischemia are planned.

Pre-eclampsia does not change the adhesion molecule status in the placental bed.

During normal placentation trophoblast cells invade maternal tissues and remodel the uterine arteries into low-resistance channels. In pre-eclampsia, trophoblast invasion is impaired and this, along with endothelial dysfunction, has been suggested to play a role in the pathogenesis of pre-eclampsia. We studied the expression of adhesion molecules important for leukocyte extravasation in the placental bed with immunohistochemistry and compared the expression in pre-eclampsia to that in normal pregnancy. Our major finding was that only invasive trophoblasts expressed cutaneous lymphocyte antigen-1 (CLA-1) in the third trimester of pregnancy, whereas villous trophoblasts did not. In the first trimester both villous trophoblasts and invasive trophoblast cells in decidua remained negative for CLA-1. Pre-eclampsia did not change the expression of leukocyte-endothelium adhesion or lymphocyte homing-associated antigens, ICAM-1, ICAM-2, VCAM, P-selectin, E-selectin, L-selectin, CLA-1, CD73, VAP-1 and alphaEbeta7 in the placental bed. Furthermore, pre-eclampsia was not associated with an aberrant accumulation of lymphocytes carrying antigens of any particular known organ-specific homing systems. The results on the unchanged pattern of adhesion molecule expression in pre-eclampsia suggests that there is no major change in the adhesive properties of the endothelium of the placental bed in pre-eclampsia.

Human vascular adhesion protein-1 in smooth muscle cells.

Human vascular adhesion protein-1 (VAP-1) is a dual-function molecule with adhesive and enzymatic properties. In addition to synthesis in endothelial cells, where it mediates lymphocyte binding, VAP-1 is expressed in smooth muscle cells. Here we studied the expression, biochemical structure, and function of VAP-1 in muscle cells and compared it to those in endothelial cells. VAP-1 is expressed on the plasma membrane of all types of smooth muscle cells, but it is completely absent from cardiac and skeletal muscle cells. In tumors, VAP-1 is retained on all leiomyoma cells, whereas it is lost in half of leiomyosarcoma samples. In smooth muscle VAP-1 predominantly exists as a approximately 165-kd homodimeric glycoprotein, but a trimeric (approximately 250 kd) form of VAP-1 is also found. It contains N-linked oligosaccharide side chains and abundant sialic acid decorations. In comparison, in endothelial cells dimeric VAP-1 is larger, no trimeric forms are found, and VAP-1 does not have N-glycanase-sensitive oligosaccharides. Unlike endothelial VAP-1, VAP-1 localized on smooth muscle cells does not support binding of lymphocytes. Instead, it deaminates exogenous and endogenous primary amines. In conclusion, VAP-1 in smooth muscle cells is structurally and functionally distinct from VAP-1 present on endothelial cells.

Labelling lymphocytes with technetium99m-hexamethyl propyleneamine oxime for scintigraphy: an improved labelling procedure.

Leukocyte scintigraphy has been used as a standard diagnostic procedure for the detection of inflammation in vivo. In this study, we developed a method of labelling purified lymphocytes with technetium99m-hexamethyl propyleneamine oxime (Tc99m-HMPAO) without significantly impairing their function. This was confirmed by measurements of in vitro lymphocyte adhesion and migration and of both necrotic and apoptotic cell death. The results of the in vitro control studies indicate that the dysfunction of leukocytes caused by Tc99m-HMPAO labelling can be minimized by using a gentle labelling method and low Tc99m activity. Because lymphocytes have been thought to participate specifically in the pathogenesis of inflammatory bowel disease (IBD), we compared scintigraphies obtained with Tc99m-HMPAO-labelled purified lymphocytes and mixed leukocytes in colitis patients. We found that a lower number of Tc99m-HMPAO-labelled peripheral blood lymphocytes accumulated in the inflamed colon during the first 4 h than labelled mixed leukocytes. The results are likely to reflect the dissimilar kinetics of lymphocyte traffic compared with granulocytes in IBD. We do not recommend the use of Tc99m-HMPAO-labelled purified lymphocytes as a diagnostic tool in chronic colitis. However, the in vitro data indicate that Tc99m-HMPAO-labelled lymphocytes may be suitable for studying short term lymphocyte recirculation and lymphocyte kinetics in other types of inflammation.

Treatment with antioxidant and other nutrients in combination with chemotherapy and irradiation in patients with small-cell lung cancer.

Eighteen non-randomized patients with small cell lung cancer (4 women and 14 men, mean age 60.4, SD 7.8 years) received in addition to conservation small cell lung cancer treatment antioxidant treatment with vitamins, trace elements and fatty acids. All patients were out-patients who, except for one were also treated with chemotherapy and/or irradiation at regular intervals at a university of central hospital. Five patients (28%) were in an advanced stage of the disease. At the end of the follow-up period (31.7.90) the median survival time for the whole group was 505 days. Fourteen (77%) of the patients survived for more than 12 months and six patients (33%) for more than two years. One patient (5%) survived more than five years. Eight patients (44%) were still alive with a mean survival time of 32 months at the end of the study. Ten patients succumbed earlier from progression of the disease. Antioxidant treatment, in combination with chemotherapy and irradiation, prolonged the survival time of patients with small cell lung cancer compared to most published combination treatment regimens alone. We also noticed that the patients receiving antioxidants were able to tolerate chemotherapy and radiation treatment well. Surviving patients started antioxidant treatment in general earlier than those who succumbed.

Selenium levels in whole blood of Finnish volunteers before and during organic and inorganic selenium supplementation.

High selenium barley biscuits containing 1 mumol (70 micrograms) organic Se were administered to healthy male volunteers for 5 weeks at doses of 2.1 mumol Se (group A) or 6.4 mumol (group B). In addition, 2 mg Na-selenate capsules (5.4 mumol Se) were given to two other groups at daily doses of 2 mg (group C) or 8 mg (group D). Groups A, B and C each comprised eight healthy men and group D eight healthy women and three men. The initial median concentration of whole blood selenium (B-Se for groups A, B and C were 1.0-1.1 mumol/l (range 0.7-1.7) and for group D 1.3 mumol/l (range 0.9-1.8). In 1-2 weeks time the B-Se concentrations rose to 1.6 mumol/l for groups A and C, to 1.8 mumol/l for group B, and to 2.2 mumol/l for group D. There was no decrease 1 week after the Se intake ceased. As expected, the level of B-Se increased more (in relation to dose) in those given organic Se than in those given inorganic Se. Groups A, B and C, however, had rather moderate increases. The daily dose required to raise the B-Se of Finns up to the North American level (2.2 mumol/l) was as high as 8 mg Na-selenate (21.5 mumol or 1700 micrograms Se), but the dose of organic Se which would be required to achieve this level is not yet known.