Suzuki Takao, Tate Genshu, Ikeda Katsuhide, Mitsuya Toshiyuki
Department of Surgical Pathology, Showa University Fujigaoka Hospital, Yokohama , Japan.
Acta Med Okayama. 2005 Aug;59(4):145-51. doi: 10.18926/AMO/31955.
We describe a novel method for immunofluorescent detection of multiple antigens in a single paraffin-embedded tissue section. We hypothesized that if fluorescent dyes are resistant to heat treatment, then thermal inactivation of immunoglobulins during antigen detection procedures might make it possible to use multicolor immunofluorescence detection even if the primary antibodies are from the same species. We found that several fluorescent dyes, including fluorescein isothiocyanate (FITC), Cy3 and Cy5, were resistant to heating at 90 degrees Celsius for 15 min, whereas the antigenicities of the primary antibodies were lost completely. This novel method, which uses heat treatment between staining steps, has great advantages for multicolor immunofluorescence because unlabeled primary antibodies from the same species can be used. Therefore, by using this method not only 3 unlabeled mouse monoclonal antibodies but also 3 unlabeled rabbit antisera can be used as primary antibodies for multicolor immunofluorescence.
我们描述了一种在单个石蜡包埋组织切片中免疫荧光检测多种抗原的新方法。我们推测,如果荧光染料耐热,那么在抗原检测过程中免疫球蛋白的热失活可能使得即使一抗来自同一物种也能进行多色免疫荧光检测。我们发现几种荧光染料,包括异硫氰酸荧光素(FITC)、Cy3和Cy5,在90摄氏度加热15分钟后仍具有抗性,而一抗的抗原性则完全丧失。这种在染色步骤之间使用热处理的新方法对于多色免疫荧光具有很大优势,因为可以使用来自同一物种的未标记一抗。因此,通过使用这种方法,不仅3种未标记的小鼠单克隆抗体,而且3种未标记的兔抗血清都可以用作多色免疫荧光的一抗。