Carol A. Sattler

Quantitative Role of the Human Papillomavirus Type 16 E5 Gene during the Productive Stage of the Viral Life Cycle

ABSTRACT Human papillomaviruses (HPVs) are small circular DNA viruses that cause warts. Infection with high-risk anogenital HPVs, such as HPV type 16 (HPV16), is associated with human cancers, specifically cervical cancer. The life cycle of HPVs is intimately tied to the differentiation status of the host epithelium and has two distinct stages: the nonproductive stage and the productive stage. In the nonproductive stage, which arises in the poorly differentiated basal epithelial compartment of a wart, the virus maintains itself as a low-copy-number nuclear plasmid. In the productive stage, which arises as the host cell undergoes terminal differentiation, viral DNA is amplified; the capsid genes, L1 and L2, are expressed; and progeny virions are produced. This stage of the viral life cycle relies on the ability of the virus to reprogram the differentiated cells to support DNA synthesis. Papillomaviruses encode multiple oncoproteins, E5, E6, and E7. In the present study, we analyze the role of one of these viral oncogenes, E5, in the viral life cycle. To assess the role of E5 in the HPV16 life cycle, we introduced wild-type (WT) or E5 mutant HPV16 genomes into NIKS, a keratinocyte cell line that supports the papillomavirus life cycle. By culturing these cells under conditions that allow them to remain undifferentiated, a state similar to that of basal epithelial cells, we determined that E5 does not play an essential role in the nonproductive stage of the HPV16 life cycle. To determine if E5 plays a role in the productive stage of the viral life cycle, we cultured keratinocyte populations in organotypic raft cultures, which promote the differentiation and stratification of epithelial cells. We found that cells harboring E5 mutant genomes displayed a quantitative reduction in the percentage of suprabasal cells undergoing DNA synthesis, compared to cells containing WT HPV16 DNA. This reduction in DNA synthesis, however, did not prevent amplification of viral DNA in the differentiated cellular compartment. Likewise, late viral gene expression and the perturbation of normal keratinocyte differentiation were retained in cells harboring E5 mutant genomes. These data demonstrate that E5 plays a subtle role during the productive stage of the HPV16 life cycle.

Hairy and Emc negatively regulate morphogenetic furrow progression in the drosophila eye

The initial steps of pattern formation in the developing Drosophila eye involve the coordination of cell cycles, changes in cell shape, and the specification of the R8 photoreceptor cell. These events begin several cell rows ahead of the morphogenetic furrow and are positively regulated by secreted signaling proteins and the proneural HLH transcription factor atonal (ato). Two HLH regulatory proteins that function to suppress neuronal development in other tissues, extra macrochaetae (emc) and hairy (h), are expressed ahead of the morphogenetic furrow. While neither h nor emc is required for photoreceptor cell determination, in emc-h-clones the morphogenetic furrow and differentiated eye field advance up to eight ommatidial rows ahead of adjacent wild-type tissue. This indicates that morphogenetic furrow progression and neuronal differentiation are negatively regulated by a combination of anteriorly expressed HLH regulatory proteins.

Effects of extracellular matrix components on the growth and differentiation of cultured rat hepatocytes

SummarySome effects of culturing adult rat hepatocytes on each of four different substrates—laminin (LN), collagen type I (C-I), collagen type IV (C-IV), and fibronectin (FN)—have been investigated under defined conditions. No differential effect on the attachment of the cells to the various substrates was noted; however, the spreading of hepatocytes shortly after initial plating was most strikingly enhanced by FN, whereas LN exhibited little or no such enhancement. The two collagen substrates enhanced the spreading of hepatocytes more than did LN, but less than FN. The different substrates had no differential effect on the induction of tyrosine aminotransferase by dexamethasone and glucagon for at least the first 10 d in culture. The longevity of the hepatocytes was not changed significantly by any of the substrates, at least through the 14th d of culture. During the culture periods the hepatocytes at high cell density were maintained as confluent monolayers, regardless of the substrate on which they had been cultured. After 14 d of culture, γ-glutamyltranspeptidase activity was highest in cells cultured on C-IV, and lowest in those on FN. DNA synthesis in cultured hepatocytes at a low cell density was highest in cells cultured on FN, with decreasing levels of this parameter in cells cultured on C-IV, C-I, and LN, respectively. These results demonstrate that specific components of the extracellular matrix modulate both differentiated functions and the replication of hepatocytes cultured in serum-free medium.

Extracellular matrix components influence DNA synthesis of rat hepatocytes in primary culture

The effects of several extracellular matrix components (EMCs)--fibronectin (Fn), laminin (Ln), type I (C-I) and type IV (C-IV) collagen--on DNA synthesis in rat hepatocytes in primary culture were examined by both quantitative scintillation spectrometry and autoradiography of [3H]thymidine incorporation. Hepatocytes cultured on Fn showed the most active DNA synthesis initiated by epidermal growth factor (EGF) with decreasing levels of [3H]thymidine uptake exhibited in the cells cultured on C-IV, C-I, and Ln, respectively. The decreasing level of DNA synthesis in hepatocytes cultured on Fn, C-IV, C-I, and Ln respectively was not influenced by cell density. The number of EGF receptors of hepatocytes was also not influenced by EMCs. These data suggest that EMCs modify hepatocyte DNA synthesis by means of post-EGF-receptor mechanisms which are regulated by both growth factors and cell density.

Multiple polypeptide hormone expression in pancreatic islet cell carcinomas derived from phosphoenolpyruvatecarboxykinase-SV40 T antigen transgenic rats.

Transgenic rats carrying a PEPCK-SV40 large T-antigen (TAg) transgene rapidly develop numerous pancreatic islet cell neoplasms, the cells of which express TAg. Although many of the larger neoplasms contain relatively undifferentiated cells, many tumors contain areas of well-differentiated cells with abundant endoplasmic reticulum (ER) and secretory granules for endocrine hormones like those observed in normal pancreatic islets. In the well-differentiated lesions, glucagon-producing &agr;-cells, insulin-producing &bgr;-cells, and somatostatin-producing &dgr;-cells are readily identifiable morphologically under the electron microscope. &bgr;-cells were observed in all normal and hyperplastic islets, and nests of these cells were scattered throughout the larger neoplasms. These nests varied from small clusters of epithelium-like cells that stain intensely for insulin, to sheets of small, basophilic cells that stain more diffusely for the hormone. &agr;-Cells were also present in all of the normal and hyperplastic islets, but in larger hyperplastic islets, the peripheral localization was absent. Larger neoplasms contained many nests of glucagon-expressing cells, as well as scattered glucagon-producing single cells. &dgr;-Cells were rarely observed in the hyperplastic islets and in the neoplasms. Blood-glucose levels were unaltered in the transgenic animals relative to their nontransgenic litter mates. Thus although these islet cell neoplasms express several polypeptide hormones, there is no obvious clinical effect of such expression in vivo.

RADIATION SURVIVAL OF HUMAN MAMMARY CARCINOMA CELLS: CRITERIA FOR AN AGAR-BASED CLONOGENIC ASSAY

A human in vivo-in vitro model for breast cancer has been developed based on culture methods that were systematically optimized for solid breast carcinomas. A V-79 cell clonal agar-based model was used to define the analysis problem encountered with agar based clonogenic survival assays. Based on this, we established methods for the generation and analysis of the survival of primary and recurrent breast carcinomas following irradiation. Four out of five primary breast carcinomas studied had similar radiation-cell survival curves. The fifth tumor was more radioresistant. Interestingly, a recurrent breast carcinoma arising in a heavily irradiated chest wall was no more radioresistant than our series of unirradiated primary carcinomas. These methods may be useful both for the study of the radiobiology of human neoplasms and for customizing the treatments and prognosis of individual patients.

The mechanism of thioacetamide-induced apoptosis in the L37 albumin-SV40 T-antigen transgenic rat hepatocyte-derived cell line occurs without DNA fragmentation

SummaryThe hepatotoxicant thioacetamide (TH) has classically been used as a model to study hepatic necrosis; however, recent studies have shown that TH can also induce apoptosis. In this report we demonstrate that 2.68±0.54% of the albumin-SV40 T-antigen transgenic rat hepatocytes undergo TH-induced apoptosis, a level comparable to other in vivo models of liver apoptosis. In addition, TH could induce apoptosis and necrosis in the L37 albumin-SV40 T-antigen transgenic rat liver-derived cell line. Examination of dying L37 cells treated with 100 mM TH by electron microscopy revealed distinct morphological characteristics that could be attributed to apoptosis. Quantitation of apoptosis by FACS analysis 24 h after treatment with 100 mM TH revealed that 81.3±1.6% of the cells were undergoing apoptosis. In contrast, when L37 cells were treated with 250 mM TH, cells exhibited characteristics consistent with necrotic cell death. DNA fragmentation ladders were produced by growth factor withdrawal-induced apoptosis; however, in mM TH-induced apoptosis, DNA fragmentation ladders were not observed. Analysis of endonuclease activity in L37 cells revealed that the enzymes were not inactivated in the presence of 100 mM TH. The data presented in this report indicate that the L37 cell line could be used to study the mechanism of TH-induced apoptosis that was not mediated through a mechanism requiring DNA fragmentation.