Within the blood cells, lactoferrin is found only in the late stage neutrophilic granulocytes. Lactoferrin first appears in these cells during the myelocyte stage of development coincidentally with the specific or secondary granules. Most investigators report a cytoplasmic immunocytochemical localization reaction within the granulocyte. However, others have observed a prominent nuclear localization reaction. Treating the cells with certain fixatives was shown to prevent the relocation of lactoferrin from the cytoplasm to the nucleus when the localization was done on granulocytes prepared by smearing. The present study demonstrated that the relocation of lactoferrin is only a problem when cells were smeared or cytocentrifuged onto slides or fractionated for the purpose of isolating cellular organelles. Under these conditions the selection of fixative is an important consideration. Exposing isolated lactoferrin to a fixative effective in retaining lactoferrin in the cytoplasm of granulocytes smeared on slides did not alter a number of its physical properties. The results suggest that maintenance of the normal cytoarchitecture or effect of fixative on other cellular components prevents the relocation of lactoferrin within the cell during tissue processing and the direct action of fixation on lactoferrin is probably not responsible for this effect.
A non-histone protein with mol. wt of 48,000 differentially expressed in normal and tumour cells was identified using immunological criteria. Antibodies were raised against a component specific for Kirkman-Robbins hepatoma of mol. wt about 48,000 separated from hepatoma non-histone proteins by preparative electrophoresis in polyacrylamide gel. It was demonstrated by immunoblotting that Morris hepatoma 7777 and Ehrlich ascites cells share an antigenic non-histone protein with Kirman-Robbins hepatoma. Tumour cells when compared with normal cells, i.e. hamster and rat liver, are characterized by significant enrichment of this component. Intracellular distribution of the polypeptide with mol. wt 48,000 suggests that this component may be a structural protein the biosynthesis of which increases or the antigenic determinants of which change in tumour cells.
The antisera specific for dehistonized HeLa cell chromatin were obtained by injecting rabbits or goats. Treatment of chromatin with cis-DDP crosslinked the active proteins to DNA thus preventing dissociation of the proteins in a high salt environment. Immunochemical staining of electrophoretically separated chromosomal proteins transferred to nitrocellulose sheets revealed that cis-DDP among others crosslinked the protein with m.w. of about 81 000. This protein is the only major protein antigen presented in several human tumors and absent in normal human tissues.
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