211At-AntiCD33 in NMRI nu/nu mice

SummaryThe aim of this study is to verify the in vivo stability, to determine the biodistribution and to estimate the unspecific radiotoxicity of an 211At-labelled CD33-antibody (211At-anti-CD33) in mice with a view to therapeutic application in treating leukaemia. Animals, methods: 211At was produced via the 209Bi(α,2n)211At reaction and was linked via 3-211At-succinimidyl-benzoate to the anti-CD33-antibody. The biodistribution and the in vivo stability in serum were determined after i.v.-injection in NMRI nu/nu-mice. For toxicity experiments, mice received either three times 315–650 kBq 211At-antiCD33 or unlabelled antibody and NaCl-solution respectively. Results: 211At-antiCD33 showed a characteristic biodistribution complying with the unspecific antibody retention in the reticular endothelial system. The largest proportion of radioactivity remained in blood and blood-rich tissues with a minor accumulation in the thyroid and stomach. After 21 h, &gt; 85% of activity in serum still represented intact antibody. Mice showed no difference in unspecific toxicity of 211At-labelled antibodies over six months compared to those treated with unlabelled antibody and NaCl-solution respectively, with regard to histopathologic lesions, survival time, behaviour and haemograms. Conclusion: The radiolabelling method yielded adequate in vivo stability of 211At-antiCD33. Biodistribution with rapid elimination of free 211At via kidneys and urine complies with requirements for targeted therapy. Activity doses potentially required for treatment do not elicit radiotoxicity to normal organs in mice. Further development is required to enhance the apparent specific activity and to verify the efficacy in an adequate animal model before phase I clinical studies in leukaemia can be envisaged.</jats:p

Anatomy and Germination of Erythrina velutina Seeds under a Different Imbibition Period in Gibberellin

The knowledge of the physiological aspects of Caatinga&rsquo;s vegetal species is extremely important for preserving this biome, which suffers with human impacts, mainly to select propagation methods. Erythrina velutina is a Brazilian tree, generally found in Caatinga, with medical and forestry potential. The objective of this paper was to determine the best soaking period in gibberellin solution to achieve the highest germination and to evaluate the internal anatomy by digital microtomography of E. velutina seeds. The design was completely randomized and consisted of eight treatments: 1, 3, 6, 12, 24 and 48 h of soaking, scarified seeds and the control with no-scarified seeds. Digital microtomography was efficient in describing the anatomy of the seeds and distinguishing their tissues. There was no significant difference between the treatments at different soaking times, as the gibberellic acid did not influence the germination; only the control presented a lower germination percentage, differing from the other treatments. The study presents evidence that E. velutina seeds do not require the exogenous use of gibberellic acid, but only the scarification process. In addition, the use of digital microtomography can be useful in understanding the anatomy of seeds, especially forest species, which can contribute to the future studies of other plant species