Control of cellular cholesterol efflux by the nuclear oxysterol receptor LXR alpha

LXR alpha is a nuclear receptor that has previously been shown to regulate the metabolic conversion of cholesterol to bile acids. Here we define a role for this transcription factor in the control of cellular cholesterol efflux. We demonstrate that retroviral expression of LXR alpha in NIH 3T3 fibroblasts or RAW264.7 macrophages and/or treatment of these cells with oxysterol ligands of LXR results in 7- to 30-fold induction of the mRNA encoding the putative cholesterol/phospholipid transporter ATP-binding cassette (ABC)A1. In contrast, induction of ABCA1 mRNA in response to oxysterols is attenuated in cells that constitutively express dominant-negative forms of LXR alpha or LXR beta that lack the AF2 transcriptional activation domain. We further demonstrate that expression of LXR alpha in NIH 3T3 fibroblasts and/or treatment of these cells with oxysterols is sufficient to stimulate cholesterol efflux to extracellular apolipoprotein AI. The ability of oxysterol ligands of LXR to stimulate efflux is dramatically reduced in Tangier fibroblasts, which carry a loss of function mutation in the ABCA1 gene. Taken together, these results indicate that cellular cholesterol efflux is controlled, at least in part, at the level of transcription by a nuclear receptor-signaling pathway. They suggest a model in which activation of LXRs by oxysterols in response to cellular sterol loading leads to induction of the ABCA1 transporter and the stimulation of lipid efflux to extracellular acceptors. These findings have important implications for our understanding of mammalian cholesterol homeostasis and suggest new opportunities for pharmacological regulation of cellular lipid metabolism.

Can adsorption isotherms predict sediment bioavailability?

The adsorption and desorption of 2,4-dichlorophenol (DCP) and pentachlorophenol (PCP) were studied for a range of synthetic particles, a dimethylditallowammonium exchanged clay and a natural sediment. The synthetic particles were Dowex 1X8400, Toyopearl Phenyl 650M and Toyopearl SP 650M. The bioaccumulation of the DCP and PCP from these particles was then studied using the oligochaete, Lumbriculus variegatus. There is a correlation between contaminant-particle interactions, as determined from adsorption and desorption isotherms, and bioaccumulation. Bioaccumulation by L. variegatus was found to be highest from the systems where differences in the classification of adsorption and desorption isotherms were observed.

Sterols and isoprenoids: signaling molecules derived from the cholesterol biosynthetic pathway

Compounds derived from the isoprenoid/cholesterol biosynthetic pathway have recently been shown to have novel biological activities. These compounds include certain sterols, oxysterols, farnesol, and geranylgeraniol, as well as the diphosphate derivatives of isopentenyl, geranyl, farnesyl, geranylgeranyl, and presqualene. They regulate transcriptional and post-transcriptional events that in turn affect lipid synthesis, meiosis, apoptosis, developmental patterning, protein cleavage, and protein degradation.

Evaluation of 24-color multifluor-fluorescence in-situ hybridization (M-FISH) karyotyping by comparison with reverse chromosome painting of the human breast cancer cell line T-47D

Multifluor-fluorescence in-situ hybridization (M-FISH) chromosome paints for all the chromosomes in the human complement labeled with different combinations of fluorochromes is a recent technological development enabling assignment of chromosomal material to rearranged chromosomes. Little data is available on the accuracy and limitations of the approach to the analysis of complex karyotypes, which are characteristic of many malignant diseases. Here we compare M-FISH analysis of the breast-cancer-derived cell line T-47D with a previous analysis by reverse chromosome painting analysis of flow-sorted chromosomes from the same material. This demonstrated a high degree of concordance. It also illustrated the limitations of M-FISH analysis, including difficulties identifying small regions of chromosomal material and intrachromosomal rearrangements. Confirmation of selected aberrations using less-complex mixtures of painting probes and further definition of abnormalities using single copy markers may be required. The detailed karyotype description possible by M-FISH analysis contrasts with the definition in the original G-banding analysis. This and the level of concordance with reverse FISH painting supports the utility of the approach in the definition of complex karyotypes.

Retroviral expression of Wnt-1 and Wnt-7b produces different effects in mouse mammary epithelium

Several Wnt genes are expressed in the postnatal mouse mammary gland and are thought to be involved in mammary gland development. Ectopic expression of Wnt-1, which is not normally expressed in the mammary gland, drives the formation of a pre-neoplastic hyperplasia. Cell culture-based assays have shown that Wnt-1 and some mammary-expressed Wnts transform C57MG cells. This has led to the suggestion that Wnt-1 functions as an oncogene through the inappropriate activation of developmental events that are normally controlled by the ‘transforming’ class of Wnts. In this study, Wnt-7b was expressed in vivo using recombinant retroviruses. Wnt-7b did not alter normal mammary gland development despite having similar effects to Wnt-1 in cell culture. We conclude that the in vitro classification of Wnts as ‘transforming’ does not correlate with the transformation in vivo. To facilitate the analysis of Wnt-expression, a lacZ-containing, bicistronic recombinant retrovirus was developed. Immunohistochemistry and electron microscopy identified retrovirally transduced myoepithelial and luminal epithelial cells in normal and hyperplastic tissues. The distribution of transduced cells in mammary outgrowths was consistent with current models of mammary stem cell identity.

Chromosome translocations in breast cancer with breakpoints at 8p12

Unbalanced chromosome translocations with breakpoints around 8p12, resulting in loss of distal 8p, are common in carcinomas. We have mapped the 8p12 breakpoints in three breast cancer cell lines, T-47D, MDA-MB-361, and ZR-75-1, using YACs and PACs between D8S540 and D8S255 by fluorescence in situ hybridization. All three lines had a breakpoint close to D8S505, proximal to HGL. Each breakpoint was distinct, but all were within 0.5 to 1.5 Mb of each other. The T-47D cell line had a straightforward translocation, but in MDA-MB-361 and ZR-75-1 the translocations were accompanied by local rearrangements of surprising complexity. Small regions of 8p from close to the breakpoint were duplicated or amplified as inserts in the attached chromosome fragment. ZR-75-1 also had retained a separate fragment of about 1 Mb, from the region 1 to 3 Mb telomeric to the common breakpoint, that included HGL. This line also had an interstitial deletion several megabases more centromeric. The data suggest that breakpoints on 8p12 are clustered in a small region and show that translocations breaking there may be accompanied by additional rearrangements.

Human white/murine ABC8 mRNA levels are highly induced in lipid-loaded macrophages. A transcriptional role for specific oxysterols

To identify genes that are transcriptionally activated when human macrophages accumulate excess lipids, we employed the mRNA differential display technique using RNA isolated from human monocyte-macrophages incubated in the absence or presence of acetylated low density lipoprotein and sterols (cholesterol and 25-hydroxycholesterol). These studies identified a mRNA whose levels were highly induced in lipid-loaded macrophages. The mRNA encoded the human White protein, a member of the ATP-binding cassette (ABC) transporter superfamily of proteins. The mRNA levels of ABC8, the murine homolog of the human white gene, were also induced when a murine macrophage cell line, RAW264.7, was incubated with acetylated low density lipoprotein and sterols. Additional studies demonstrated that white/ABC8 mRNA levels were induced by specific oxysterols that included 25-, 20(S)-, and 22(R)-hydroxycholesterol, and by a retinoid X receptor-specific ligand. Furthermore, the oxysterol-mediated induction of ABC8 expression in mouse peritoneal macrophages was dependent on the presence of the nuclear oxysterol receptors, liver X receptors (LXRs). Macrophages derived from mice lacking both LXRalpha and LXRbeta failed to up-regulate the expression of ABC8 following incubation with 22(R)-hydroxycholesterol. Oxysterol-dependent induction of white/ABC8 mRNA was blocked by actinomycin D but not by cycloheximide treatment of cells. We conclude that the white and ABC8 genes are primary response genes that are transcriptionally activated by specific oxysterols and that this induction is mediated by the LXR subfamily of nuclear hormone receptors. These data strongly support the hypothesis that white/ABC8 has a role in cellular sterol homeostasis.

The impact of developmental biology on cancer research: an overview

In recent years developmental biology has contributed a great deal to cancer research. This is in part because both fields address the question of how genes control the three-dimensional organisation of tissues, and how mutation of genes alters this. But also in recent years, the discovery that signalling pathways are conserved from worms to man, combined with the power of developmental biology's model organisms, principally Drosophila and C. elegans, to reveal signalling pathways that control tissue growth and organisation, has had a huge impact. Examples of this are the subject of the reviews in this issue, including the EGF-receptor, Wnt/APC/catenin, TGF-beta/Smad and hedgehog/patched/smoothened pathways, all of which were discovered and/or pieced together in model organisms, and all of which are disrupted by mutation in human cancer. Other topics considered are the control and execution of apoptosis; the search for tumour-suppressor-like genes in Drosophila; and genes of the Polycomb and Trithorax Groups that regulate the commitment of cells to patterns of differentiation, and that are among the targets for chromosome translocations. These stories illustrate how developmental biology has shown that there are many more signalling pathways relevant to neoplasia than the receptor tyrosine kinase pathways that first dominated the field; and that the signalling is more than just mitogenic or anti-mitogenic, and should be viewed as providing cells with information about their position and neighbours, that determines their role, differentiation and behaviour.

Identification of the DNA binding specificity and potential target genes for the farnesoid X-activated receptor

The farnesoid X-activated receptor (FXR; NR1H4) is a member of the nuclear hormone receptor superfamily and functions as a heterodimer with the 9-cis-retinoic acid receptor (RXR). In order to determine the optimal DNA binding sequence for the FXR/RXR heterodimer, we have utilized the selected and amplified binding sequence imprinting technique. This technique identified a number of related sequences that interacted with FXR/RXR in vitro. The consensus sequence contained an inverted repeat of the sequence AGGTCA with a 1-base pair spacing (IR-1). This sequence was shown to be a high affinity binding site for FXR/RXR in vitro and to confer ligand-dependent transcriptional activation by FXR/RXR to a heterologous promoter. Electrophoretic mobility shift assays and transient transfection assays were used to investigate the importance of the core half-site sequences, spacing nucleotide, flanking sequences, and orientation and spacing of the core half-sites on DNA binding and ligand-dependent transcriptional activation by FXR/RXR. These studies demonstrated that the FXR/RXR heterodimer binds to the consensus IR-1 sequence with the highest affinity, although FXR/RXR can bind to and activate through a variety of elements including IR-1 elements with changes in the core half-site sequence, spacing nucleotide, and flanking nucleotides. In addition, FXR/RXR can bind to and transactivate through direct repeats. Three genes were identified that contain IR-1 sequences in their proximal promoters. These elements were shown to bind FXR/RXR in vitro and to confer FXR/RXR-dependent transcriptional activation to a heterologous promoter in response to a bile acid or synthetic retinoid. The endogenous mRNA levels of one of these genes, phospholipid transfer protein, were shown to be induced by FXR and FXR ligands. The identification of the IR-1 and related elements as high affinity binding sites and functional response elements for FXR/RXR and the identification of a target gene for FXR/RXR should assist in the identification of additional genes regulated by FXR/RXR.

Integrin-linked kinase regulates phosphorylation of serine 473 of protein kinase B by an indirect mechanism

The serine threonine kinase protein kinase B regulates cellular activities as diverse as glycogen metabolism and apoptosis. Full activation of protein kinase B requires 3-phosphoinositides and dual phosphorylation on threonine-308 and serine-473. CaM-K kinase and 3-phosphoinositide dependent-kinase-1 phosphorylate threonine-308. Integrin-linked kinase reportedly phophorylates serine-473. Consistent with this, in a model COS cell system we show that expression of wild-type integrin-linked kinase promotes the wortmannin sensitive phosphorylation of serine-473 of protein kinase B and its downstream substrates, and inhibits C2-ceramide induced apoptosis. In contrast, integrin-linked kinase mutated in a lysine residue critical for function in protein kinases is inactive in these experiments, and furthermore, acts dominantly to block serine-473 phosphorylation induced by ErbB4. However, alignment of analogous sequences from different species demonstrates that integrin-linked kinase is not a typical protein kinase and identifies a conserved serine residue which potentially regulates kinase activity in a phosphorylation dependent manner. Mutation of this serine to aspartate or glutamate, but not alanine, in combination with the inactivating lysine mutation restores integrin-linked kinase dependent phosphorylation of serine-473 of protein kinase B. These data strongly suggest that integrin-linked kinase does not possess serine-473 kinase activity but functions as an adaptor to recruit a serine-473 kinase or phosphatase.

Impaired mammary gland development in Cyl-1(-/-) mice during pregnancy and lactation is epithelial cell autonomous

A specific defect of mice lacking cyclin D1 (Cyl-1(-/-)) is impaired development of the mammary gland during pregnancy. Here we show that when tissue from Cyl-1(-/-) mammary gland was transplanted into empty mammary fat pad of wild-type mice, the abnormal phenotype was maintained, indicating that it is epithelial cell autonomous. Nevertheless, in pregnancy the early proliferative response, which is characterized by extensive side branching, still occurs in the absence of cyclin D1. However, the response is atypical due to a marked reduction in the formation of accompanying alveoli. This reduction and delay in alveolar development persists throughout pregnancy. Moreover, although prolactin synthesis and release appear to be normal, lactogenesis is severely compromised. Consistent with the appearance of numerous side branches, progesterone receptor expression was readily detected in the mammary tissue of pregnant Cyl-1(-/-) mice, although there was a significant change in the ratio of the two (A and B) receptor isoforms. In Cyl-1(-/-) mammary glands during late pregnancy there was a decrease in the abundance of total and phosphorylated Stat5a, as well as delayed onset and substantial diminution of milk protein expression. The biochemical analysis suggests that there is a cumulative delay in growth and differentiation of the mammary gland during pregnancy that results in a severely compromised gland when, at parturition, further development is curtailed by the abrupt change in hormonal milieu.

Identification of conserved cis-elements and transcription factors required for sterol-regulated transcription of stearoyl-CoA desaturase 1 and 2

We previously identified stearoyl-CoA desaturase 2 (SCD2) as a new member of the family of genes that are transcriptionally regulated in response to changing levels of nuclear sterol regulatory element binding proteins (SREBPs) or adipocyte determination and differentiation factor 1 (ADD1). A novel sterol regulatory element (SRE) (5'-AGCAGATTGTG-3') identified in the proximal promoter of the mouse SCD2 gene is required for induction of SCD2 promoter-reporter genes in response to cellular sterol depletion (Tabor, D. E., Kim, J. B., Spiegelman, B. M., and Edwards, P. A. (1998) J. Biol. Chem. 273, 22052-22058). In this report, we demonstrate that this novel SRE is both present in the promoter of the SCD1 gene and is critical for the sterol-dependent transcription of SCD1 promoter-reporter genes. Two conserved cis elements (5'-CCAAT-3') lie 5 and 48 base pairs 3' of the novel SREs in the promoters of both the SCD1 and SCD2 murine genes. Mutation of either of these putative NF-Y binding sites attenuates the transcriptional activation of SCD1 or SCD2 promoter-reporter genes in response to cellular sterol deprivation. Induction of both reporter genes is also attenuated when cells are cotransfected with dominant-negative forms of either NF-Y or SREBP. In addition, we demonstrate that the induction of SCD1 and SCD2 mRNAs that occurs during the differentiation of 3T3-L1 preadipocytes to adipocytes is paralleled by an increase in the levels of ADD1/SREBP-1c and that the SCD1 and SCD2 mRNAs are induced to even higher levels in response to ectopic expression of ADD1/SREBP-1c. We conclude that transcription of both SCD1 and SCD2 genes is responsive to cellular sterol levels and to the levels of nuclear SREBP/ADD1 and that transcriptional induction requires three spatially conserved cis elements, that bind SREBP and NF-Y. Additional studies demonstrate that maximal transcriptional repression of SCD2 reporter genes in response to an exogenous polyunsaturated fatty acid is dependent upon the SRE and the adjacent CCAAT motif.

YY1 is a negative regulator of transcription of three sterol regulatory element-binding protein-responsive genes

Ying Yang 1 (YY1) is shown to bind to the proximal promoters of the genes encoding 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) synthase, farnesyl diphosphate (FPP) synthase, and the low density lipoprotein (LDL) receptor. To investigate the potential effect of YY1 on the expression of SREBP-responsive genes, HepG2 cells were transiently transfected with luciferase reporter constructs under the control of promoters derived from either HMG-CoA synthase, FPP synthase, or the LDL receptor genes. The luciferase activity of each construct increased when HepG2 cells were incubated in lipid-depleted media or when the cells were cotransfected with a plasmid encoding mature sterol regulatory element-binding protein (SREBP)-1a. In each case, the increase in luciferase activity was attenuated by coexpression of wild-type YY1 but not by coexpression of mutant YY1 proteins that are known to be defective in either DNA binding or in modulating transcription of other known YY1-responsive genes. In contrast, incubation of cells in lipid-depleted media resulted in induction of an HMG-CoA reductase promoter-luciferase construct by a process that was unaffected by coexpression of wild-type YY1. Electromobility shift assays were used to demonstrate that the proximal promoters of the HMG-CoA synthase, FPP synthase, and the LDL receptor contain YY1 binding sites and that YY1 displaced nuclear factor Y from the promoter of the HMG-CoA synthase gene. We conclude that YY1 inhibits the transcription of specific SREBP-dependent genes and that, in the case of the HMG-CoA synthase gene, this involves displacement of nuclear factor Y from the promoter. We hypothesize that YY1 plays a regulatory role in the transcriptional regulation of specific SREBP-responsive genes.

Signaling molecules derived from the cholesterol biosynthetic pathway: mechanisms of action and possible roles in human disease

The association of high plasma cholesterol levels with the development of atherosclerosis is well known. The metabolic pathways that are regulated by cholesterol and the mechanisms involved are less well understood. Recent studies have identified not only cholesterol, but also oxysterols and isoprenoids, derived from the cholesterol biosynthetic pathway, as new signaling molecules. The transcriptional and post-transcriptional regulation of specific genes and metabolic pathways by these newly discovered signaling molecules may be important in the development of human disease and forms the topic of this review.

Human geranylgeranyl diphosphate synthase: isolation of the cDNA, chromosomal mapping and tissue expression

We report the nucleotide sequence of human geranylgeranyl diphosphate (GGPP) synthase cDNA isolated from a fetal heart library. The 2.5 kb cDNA encodes a protein of 34 kDa. The protein contains six domains that have been identified previously in many other prenyltransferases. Recombinant, purified histidine-tagged protein exhibited the enzymatic properties associated with GGPP synthase, namely the synthesis of GGPP from farnesyl diphosphate and isopentenyl diphosphate. Transient transfection of mammalian cells with a plasmid encoding the putative GGPP synthase resulted in a 55-fold increase in GGPP synthase activity. Taken together, these results establish that the cDNA encodes the mammalian GGPP synthase protein. The mRNA for GGPP synthase was expressed ubiquitously. Of the 16 human tissues examined, the highest expression of the mRNA was in testis. The mRNA levels in cultured HeLa cells were unaffected by alterations in cellular sterol levels and contrasted with the significant regulation of isopentenyl diphosphate synthase mRNA under these same conditions. Fluorescent in situ hybridization was used to map the single gene encoding human GGPP synthase to chromosome 1q43.

Transcriptional activation of the stearoyl-CoA desaturase 2 gene by sterol regulatory element-binding protein/adipocyte determination and differentiation factor 1

To identify genes that are transcriptionally activated by sterol regulatory element-binding proteins (SREBPs), we utilized mRNA differential display and mutant cells that express either high or low levels of transcriptionally active SREBP. This approach identified stearoyl-CoA desaturase 2 (SCD2) as a new SREBP-regulated gene. Cells were transiently transfected with reporter genes under the control of different fragments of the mouse SCD2 promoter. Constructs containing >199 base pairs of the SCD2 proximal promoter were activated following incubation of cells in sterol-depleted medium or as a result of co-expression of SREBP-1a, SREBP-2, or rat adipocyte determination and differentiation factor 1 (ADD1). Electromobility shift assays and DNase I footprint analysis demonstrated that recombinant SREBP-1a bound to a novel cis element (5'-AGCAGATTGTG-3') in the proximal promoter of the SCD2 gene. The finding that the endogenous SCD2 mRNA levels were induced when wild-type Chinese hamster ovary fibroblasts were incubated in sterol-deficient medium is consistent with a role for SREBP in regulating transcription of the gene. These studies identify SCD2 as a new member of the family of genes that are transcriptionally regulated in response to changing levels of nuclear SREBP/ADD1. In addition, the sterol regulatory element in the SCD2 promoter is distinct from all previously characterized motifs that confer SREBP- and ADD1-dependent transcriptional activation.

CBP is required for sterol-regulated and sterol regulatory element-binding protein-regulated transcription

Cells were transfected with luciferase reporter genes, under the control of promoters derived from either the farnesyl diphosphate (FPP) synthase, 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) synthase, HMG-CoA reductase, or low density lipoprotein receptor genes. The increase in luciferase activity that occurred when cells were either incubated in sterol-depleted medium or cotransfected with a cDNA encoding sterol regulatory element-binding protein (SREBP)-1a was prevented by coexpression of wild-type E1A or a Gal4-CBP (1-451) fusion protein. The inhibitory effect of E1A was overcome by coexpression of CBP. The increase in reporter gene activity noted above was not affected when the cells were cotransfected with cDNAs that encoded either a mutant E1A that is unable to interact with the transcriptional activator CBP or Gal4-CBP fusion proteins encoding separate fragments of CBP, which span the remainder of the CBP molecule. A preformed SREBP-1a:[32P]DNA complex bound specifically to membrane-immobilized GST-CBP fusion proteins that contained amino-terminal portions of CBP. In order to investigate the role of CBP in the regulation of endogenous genes, we isolated stable transformants that express Gal4-CBP(1-451) in response to added doxycycline. Induction of endogenous FPP synthase and HMG-CoA synthase mRNAs, in response to cellular cholesterol depletion, was prevented when cells expressed Gal4-CBP(1-451). We conclude that when cells are incubated in the absence of sterols, the transcriptional activation of the HMG-CoA synthase, HMG-CoA reductase, FPP synthase, and low density lipoprotein receptor genes is dependent on a specific interaction between SREBP, which is bound to the promoter DNA, and the amino-terminal domain (amino acids 1-451) of CBP.

Synergistic activation of transcription by nuclear factor Y and sterol regulatory element binding protein

The current studies define the role of three distinct cis-elements in the proximal promoter of the rat farnesyl diphosphate (FPP) synthase gene. The three cis-elements, a sterol regulatory element 3 (SRE-3) flanked by an ATTGG motif (inverted CCAAT box), and a CCAAT box, form a sterol regulatory unit that is necessary and sufficient for sterol-regulated expression of FPP synthase promoter-reporter genes. FPP synthase promoter-reporter genes, that contain promoters with either wild-type nucleotide sequences or mutations in one or more of the three cis-elements, were transiently transfected into CV-1 cells. The activity of the wild-type promoter-reporter gene increased when the cells were incubated in sterol-depleted media or when the cells were co-transfected with a plasmid encoding the mature form of SRE binding protein (SREBP-1a). The results with the mutant promoter-reporter genes demonstrated that all three cis-elements were necessary for normal expression/regulation of the reporter gene by either sterols or by co-expressed SREBP-1a. Gel mobility shift assays demonstrated that the synergistic binding of SREBP-1a to SRE-3 was dependent on the binding of recombinant nuclear factor Y (NF-Y) to the DNA, consistent with the in vivo regulation studies.

Control of the three-dimensional growth pattern of mammary epithelium: role of genes of the Wnt and erbB families studied using reconstituted epithelium

The mammary gland is possibly the best system in which to study the three-dimensional organization of tissues and how that organization is disrupted in tumour development. The principal approach used has been to express genes such as oncogenes and growth factor genes in mammary epithelium in vivo, by using mammary-specific promoters in germ-line transgenic mice; by injecting virus vectors into the lumen of the mammary gland; or by transplanting genetically manipulated mammary epithelial cells into a mammary fat pad from which the natural epithelium has been removed. This chapter focuses on the last approach. The Wnt genes are short-range signalling molecules related to Wnt-1, which was discovered as an oncogene in mouse mammary tumours. Several Wnt proteins are expressed in the mammary gland; notably, Wnt-4 is normally expressed in early pregnancy. Introducing Wnt-4 into the mammary epithelium of virgin mice induces a growth pattern very similar to that of mid-pregnancy. Wnt-4 may therefore be a local signal driving epithelial branching in pregnancy. ErbB/epidermal growth factor receptor and ErbB-2 are receptors that may be important in breast tumour development and normal mammary growth control. Overactive mutants of them, i.e. the genes v-erbB and neu, disturb the growth pattern of the mammary epithelium in quite distinct ways. Overactive ErbB-2 causes local development of alveoli, suggesting that it may be involved in normal alveolus development. The varied effects of these gene products show the complexity of the control of the three-dimensional growth pattern, and encourage the idea that we may be able to relate oncogenic effects to normal growth controls.