Gilbert H. Smith

Functional differentiation in mouse mammary gland epithelium is attained through DNA synthesis, inconsequent of mitosis

Abstract Virgin mouse mammary gland in explant culture will differentiate and synthesize casein and α-lactalbumin when insulin, hydrocortisone, and prolactin (IFPRL) are present in the culture medium. Explants whose DNA synthesis has been blocked differentiate cytologically, mobilize lipid, synthesize RNA, and incorporate 3 H-amino acids into proteins to the same extent as unblocked tissue. Nevertheless, casein synthesis as measured by immunoprecipitation with casein-specific antiserum remains at the zero-time level in blocked explants while unblocked explants produce casein at five- to eightfold greater levels. Electrophoretic analysis of immunoprecipitated radioactive proteins showed that the IFPRL-treated virgin tissue made all four size classes of mouse casein. Immunoperoxidase studies of explants revealed that the number of mammary epithelial cells positive for casein was 2–8% in blocked and 24–31% in unblocked, in good agreement with the radioimmunoprecipitation results. Immunoelectron microscopy demonstrated the accumulation of casein within the cisternae of the granular endoplasmic reticulum and in Golgi vacuoles in the unblocked epithelial cells. Similar accumulation did not occur in blocked cultures despite the secretory appearance of the cells. Autoradiographic analysis of blocked and unblocked explants, incubated in the presence of IFPRL and [ 3 H]thymidine for 72 hr, showed that 53–57% of the epithelial cells synthesized DNA in unblocked explants, whereas only 2% incorporated the label in the presence of cytosine arabinoside. When explants were incubated with IFPRL and various concentrations of colchicine, only 5–6% of the epithelial cells were found to enter mitosis. Since cell duplication cannot account for the severalfold increase in casein-producing cells in the unblocked explants, the results suggest that the requirement for DNA synthesis in this system may involve either polyploid cells or the augmentation of specific sequences necessary for the facilitation of terminal differentiation. Similar requirements for DNA synthesis were not observed in mammary explants from pregnant and primiparous (but nonpregnant) mice.

A new culture medium for human skin epithelial cells

SummaryA new culture medium, NCTC 168, has been designed for human skin epithelial cells. This medium formulation was developed, by combining and testing at various concentrations, components of media NCTC 135 and 163, since a 1∶1 mixture of these two media with 10% horse serum supplement was found to promote epithelial cell outgrowth from human skin explants. The buffer system in NCTC 168 maintains the pH of the medium between 7.0 and 7.2. In contrast to other media tested, NCTC 168 with 10% horse serum is capable of initiating and sustaining larger epithelial cell outgrowths. Explants in serum-supplemented NCTC 168 in the absence of feeder cells reproducibly yield confluent epithelial cell sheets apparently free of fibroblasts after only 19 to 28 days as compared with 5 weeks or longer for the other media tested. NCTC 168 also supports passage of human epithelial cells to the sixth subculture generation without feeder cells. Electron microscopy has shown the presence of desmosomes and tonofilaments in the passaged cells indicating the epithelial nature of the cells. The addition of epithelial growth factor, hydrocortisone and insulin at 5 ng per ml, 4 μg per ml and 5 μg per ml, respectively did not appreciably enhance the growth of the epithelial cells.

Molecular Relationship of the DNA and RNA of Intracytoplasmic A Particles to Mouse and Mammary Tumour Virus Genomes

We have directly tested the hypothesis that single-stranded cytoplasmic A particle-associated DNA (ss CAP DNA) is a murine mammary tumour virus (MMTV) proviral intermediate by hybridizing 125I-labelled ss CAP DNA to MMTV RNA or to MMTV complementary DNA (cDNA). 125I-labelled CAP DNA did not form duplexes with either MMTV RNA or MMTV cDNA. In contrast, CAP RNA hybridized readily with MMTV cDNA. CAP RNA contained all the MMTV virus sequences, but at lower concentrations than in MMTV virus particles. Single-stranded CAP DNA hybridized readily with mouse DNA from several sources. A study of the rate of hybridization of CAP DNA to cell DNA at various driver to probe ratios showed that its rate of hybridization is similar to that of tumour cell DNA reassociation. Further, in reassociation studies accelerated by using the phenol emulsion reassociation technique (PERT), CAP DNA originally isolated as single-stranded DNA was shown to reanneal (70%), to protect 125I-cell DNA to the same extent (67%) and to do so with kinetics of reassociation equivalent to that of mouse DNA. Although CAP DNA isolates were slightly enriched for MMTV specific sequences when compared to total cellular DNA, we conclude that the majority of ss CAP-associated DNA is equivalent to a random sample of total tumour cell DNA.

TGFα Induced Proliferative Changes in Transgenic Mice

Since the discovery of nerve growth factors, a multitude of growth factors and their associated receptors have been identified and characterized2. Some of these growth factors and receptors have been implicated in oncogenesis. The proto-oncogene c-sis encodes the B chain of platelet derived growth factor (PDGF)3, the product of c-fms is similar to the colony stimulating factor (CSF)-1 receptor4, and the c-erb B gene product is highly homologous to the epidermal growth factor (EGF) receptor5-7.