Alexander Nakeff

In Vitro Colony Assay for a New Class of Megakaryocyte Precursor: Colony-Forming Unit Megakaryocyte (CFU-M)

Summary A plasma culture system has been used successfully to grow and quanti-tate megakaryocyte colonies from mouse bone marrow following their staining for acetylcholinesterase activity in situ. Colonies averaging about six acetylcholinester-ase-positive cells appear with a peak incidence after 4 days in culture with a plating efficiency of one colony formed for every 104 nucleated cells plated.

Flow-cytometric detection of changes in the fluorescence emission spectrum of a vital DNA-specific dye in human tumour cells

A multiparameter flow cytometric technique has been used to detect changes in the emission spectrum of the DNA-specific fluorochrome Hoechst 33342 during uptake by intact, human tumour cells and during the in vitro titration of permeabilized cells. The spectral shift phenomenon was associated with changes in dye: DNA ratio revealing heterogeneity in dye-binding sites. The degree of spectral shift was sensitive to changes in pH within the physiological range. Surprisingly, chromatin structure, in terms of DNase accessibility, was not a major factor in the generation of the spectral shift. The technique of fluorescence emission analysis permits cells with similar DNA contents to be distinguished on the basis of changes in the microenvironment of chromatin for both fresh and freezer-stored biopsy or experimental preparations.

PROLIFERATIVE PROPERTIES OF THE CLONOGENIC CELLS OF THE R3327 PROSTATE ADENOCARCINOMA

SummaryWe have systematically analyzed the proliferative properties of the clonogenic cells of the R3327 transplantable rat prostate adenocarcinoma (colony forming units, prostatic adenocarcinoma, CFU-PA). Pronase was determined to be more effective than either trypsin or collagenase in obtaining the largest number of viable cells from a solid R3327 tumor. Digestion with 2.5 mg/ml yielded a maximum of 5.6×104 CFU-PA/g of tumor tissue, with higher concentrations resulting in a substantially lower fraction of CFU-PA while producing larger overall cell yields. Bacto-agar at 0.35% supported the growth of the largest number of CFU-PA and was sharply concentration dependent with concentrations greater than 0.4% completely suppressing CFU-PA growth. The addition of conditioned medium (CM) from R3327 liquid cell cultures to agar cultures resulted in a specific twofold increase in CFU-PA/104 cells, whereas CM from R3327A cells was less effective and CM from rat skin fibroblasts least stimulatory. The addition of washed rat red blood cells (RBC) either within the agar culture itself or in an overlayer was highly stimulatory, resulting in as much as a fivefold increase in CFU-PA to 6 to 8×104/g.