The morphogen Sonic hedgehog is an indirect angiogenic agent upregulating two families of angiogenic growth factors.

Sonic hedgehog (Shh) is a prototypical morphogen known to regulate epithelial/mesenchymal interactions during embryonic development. We found that the hedgehog-signaling pathway is present in adult cardiovascular tissues and can be activated in vivo. Shh was able to induce robust angiogenesis, characterized by distinct large-diameter vessels. Shh also augmented blood-flow recovery and limb salvage following operatively induced hind-limb ischemia in aged mice. In vitro, Shh had no effect on endothelial-cell migration or proliferation; instead, it induced expression of two families of angiogenic cytokines, including all three vascular endothelial growth factor-1 isoforms and angiopoietins-1 and -2 from interstitial mesenchymal cells. These findings reveal a novel role for Shh as an indirect angiogenic factor regulating expression of multiple angiogenic cytokines and indicate that Shh might have potential therapeutic use for ischemic disorders.

Mitochondrial DNA deletions are associated with ischemia and aging in Balb/c mouse brain.

Deletions in the mitochondrial DNA (mtDNA) of Balb/c mouse cerebrums, resembling deletions found in elderly humans or in patients with certain disorders, were detected by PCR. Analysis was carried out on mice of various ages and on mice in which the bilateral common carotid arteries had been incompletely ligated to reconstruct cerebral ischemia. A 3,867 bp mtDNA deletion was present only in old or ischemic mouse groups. Among the non-ischemic groups, it was found in 0 of 12 weaning, 0 of 12 young, and four of eight old mice. Among the ischemic groups, it was found in 12 of 17 young and 11 of 11 old mice. Moreover, the percentage of total mtDNA containing deletions was 22% for the old non-ischemic group, 37% for the young ischemic group, and 69% for the old ischemic group. In addition, PCR analysis detected two other deletions of 3,726 bp and 4,236 bp in 4 of the 11 old ischemic cerebrums. The results indicate that mtDNA deletions are associated with aging, that ischemia increases the incidence of mtDNA deletions, and that mtDNA deletions resulting from ischemia are more likely to occur in old mice than in young mice.

Transformation by ras suppresses expression of the neurotrophic growth factor pleiotrophin.

An 18-kDa protein (p18) was detected in lysates and conditioned medium from contact-arrested NIH 3T3 fibroblasts, but was not detected when the cells were transformed by the oncogene ras. Analysis of transformation-defective cell clones generated after mutagenesis of the ras-retroviral vector used to transduce the ras gene showed an inverse correlation between p18 expression and the degree of transformation. p18 expression was high in non-transformed clones, intermediate in a partially transformed clone, undetectable in fully transformed clones, and detectable only at the non-permissive temperature in a clone which was cold-sensitive for ras transformation. In non-transformed cells, p18 expression varied with the degree of confluence. It was almost undetectable in medium from sparse, proliferating cells, but increased as the cells approached confluence and peaked 2-4 days after confluence. Microsequencing of partially purified p18 identified it as the developmentally regulated neurotrophic factor pleiotrophin. In further experiments, pleiotrophin was undetectable or almost undetectable in medium from fully transformed cells expressing the oncogenes v-src, truncated c-raf, activated c-fms, or polyomavirus middle tumor antigen; it was low but easily detectable in medium from SV40 large tumor antigen-expressing cells, which form soft agar colonies but not foci. Thus, pleiotrophin expression in NIH 3T3 cells is associated with quiescence, and suppression of pleiotrophin is related to oncogenic transformation.

Cellular ras gene activity is required for full neoplastic transformation by the large tumor antigen of SV40.

To investigate the role of the cellular ras gene product in neoplastic transformation by the SV40 large tumor antigen (SVLT), murine C3H10T1/2 cells were rendered deficient in Ras activity by transfection with inducible or constitutive antisense ras gene constructs or through the introduction of the dominant-negative mutant, ras(asn17). Consistent with previous results, SVLT-induced morphological transformation was unaffected by the down-regulation of c-ras gene product activity. On the other hand, colony formation in soft agar and tumorigenicity in nude mice were drastically reduced in c-Ras-deficient cells. In addition, SVLT expression in C3H10T1/2 cells led to increased c-Ras activity, as determined by an increase in the Ras-bound GTP/GTP + GDP ratio. These results suggest that c-Ras is required for full neoplastic transformation by SVLT.

Ras(leu61) blocks differentiation of transformable 3T3 L1 and C3H10T1/2-derived preadipocytes in a dose- and time-dependent manner.

To investigate the functional relationship between the transforming ability of Ras and its role as an integral component of the differentiation-promoting insulin signaling pathway, we introduced a leu61-activated ras gene into the Ras-transformable 3T3 L1 (ATCC CCL92.1) and a number of C3H10T1/2-derived preadipocytic cell lines. The results demonstrate a quantitative reciprocal regulation of differentiation and several transformation-associated properties in response to graded levels of ras gene expression, with the loss of differentiative capacity, morphological transformation, stimulation of proliferation, and anchorage-independent growth requiring increasing levels of Ras(leu61) protein. Furthermore, using novel, tightly regulatable 3T3 L1 transfectants, we demonstrated that Ras(leu61) effectiveness in blocking adipocytic differentiation is strictly dependent on the timing of its expression relative to cell growth arrest, with ras(leu61) expression being ineffective at inhibiting differentiation or inducing morphological transformation once the differentiative process has commenced. Moreover, rasleu61 induction failed to substitute for or enhance the c-Ras-dependent differentiative insulin signal, even under conditions in which it did not induce transformation. Therefore, although necessary for insulin signal transduction, the Ras signal alone is not sufficient to induce adipocytic differentiation in this system. Consistent with its established role as a downstream effector of Ras, v-Raf expression mirrored the Rasleu61 effects on adipocytic differentiation and transformation.

A strategy for screening anti-tumor drugs utilizing oncogenes encoded in retroviral vectors.

A novel strategy for isolating potential anti-tumor drugs is presented. It is predicated on the idea that future anti-tumor drugs will be specific inhibitors of the signal-transduction pathways responsible for cell proliferation. Briefly, retroviral vectors are used to introduce focus-forming oncogenes into a test population of target cells, which are grown to confluence and treated with signal-transduction inhibitors. The inhibitors are screened for the ability to suppress the development of transformed foci without killing the confluent monolayer of non-transformed quiescent cells. For this work, a panel of inhibitors was first screened against the oncogene ras. The protein kinase C (PKC) inhibitor CGP 41251 and the protein tyrosine kinase (PTK) inhibitor CGP 45047 suppressed ras-induced focus formation and left a viable monolayer of quiescent cells. Focus inhibition was reversible; conversely, drug addition to developing foci retarded further expansion. CGP 41251 generally blocked proliferation of ras or control cells, suggesting that oncogenes cannot substitute for PKC. PTK inhibitors erbstatin and CGP 520 and phosphatase inhibitor okadaic acid failed to inhibit focus formation at concentrations toxic to the monolayer. Lavendustin A and CGP 47778A showed neither focus inhibition nor toxicity. In the complementary screen, a single inhibitor (CGP 41251) was tested against several oncogenes, including src, raf and polyomavirus middle T antigen. Focus formation by all oncogenes was suppressed. The strategy has several advantages over current drug-screening assays, and it can be adapted to large-scale screening with many drugs and many oncogenes.

Ras is involved in gap junction closure in proliferating fibroblasts or preadipocytes but not in differentiated adipocytes.

A decrease in gap junctional, intercellular communication (GJIC) has been associated with cells neoplastically transformed by a variety of factors. To investigate the role of the Ras oncogene product in gap junction function, a panel of murine C3H10T1/2 (10T1/2) fibroblasts was constructed in which the levels of ras gene expression could be effectively up- or down-regulated. Intercellular communication was measured using a novel technique of in situ electroporation of adherent cells on a partly conductive slide. The introduction of increasing amounts of activated Ras(leu61) in mouse 10T1/2 fibroblasts proportionally reduced GJIC, while the downregulation of endogenous c-ras gene expression increased junctional permeability. These results indicate that Ras plays an important role in the junction closure pathway leading to the proliferation of normal cells. However, differentiation of c-Ras-deficient preadipocytes entirely abolished their initially extensive GJIC, indicating that junction closure in response to adipocytic differentiation is independent of Ras.

Reconstitution of signal transduction from the membrane to the nucleus in a baculovirus expression system: activation of Raf-1 leads to hypermodification of c-jun and c-fos via multiple pathways.

We have attempted to dissect signaling pathways involved in transmitting activating signals from the cell surface to the nucleus by reconstituting them in the baculovirus/Sf9 cell system. We have used this system to coexpress different combinations of the critical signaling proteins pp60v-src, p21v-ras, Raf-1 and ERK-1 and assayed the effects of resulting signaling cascades on the modifications of coexpressed transcription factors c-jun or c-fos. We observe that activation of ERK-1 via Raf-1 and p21ras dependent signals can result in the hyperphosphorylation of c-jun. In contrast, c-fos appears to be the target of two Raf-1 activated modifying signals: one independent of ERK-1 and the other dependent on ERK-1 stimulation. Thus, coexpression of c-fos with pp60v-src, p21v-ras or constitutively active forms of Raf-1 results in a dramatic reduction of its electrophoretic mobility in the absence of coexpressed ERK-1. Activation of this ERK-1-independent pathway together with the ERK-1 dependent pathway that modifies c-jun results in additional modification of c-fos. Our observation of a Raf-1 activated, ERK-independent signaling pathway is consistent with previous reports that constitutively active Raf-1 can, in some cell types, result in transformation or differentiation without activation of ERKs. Our data indicate the presence of multiple Raf-1 activated pathways that lead to modification of transcription factors.

Rapid regeneration of virus from cells infected with a retroviral vector.

Recombinant retroviral vectors usually encode the genes of interest in place of the viral structural genes, which must be provided in trans. These viruses are therefore defective for replication: infected cells cannot produce progeny virus. However, in some cases it may be desirable to generate virus from an infected cell clone displaying a phenotype of interest. We describe a rapid method for producing virus, which involves fusing the infected cells to fresh packaging cells. Stable producer lines are generated after fusion by co-selecting for the Ecogpt+ marker in the packaging cells and the G418 resistance (neor) marker in the infected cells. We have used this method to develop cell lines that produce retroviruses encoding a Leu 61-activated c-Ha-ras oncogene as well as a neor gene. The viruses confer oncogenic transformation on 95%-100% of infected target cells as assayed by altered morphology, focus formation and soft agar growth.

Cell aging of human diploid fibroblasts is associated with changes in responsiveness to epidermal growth factor and changes in HER-2 expression.

The limited replicative life span of diploid human cells in vitro (cellular senescence) serves as a cellular model of aging. We examined the proliferative response of 2BS cells of different population doubling levels to epidermal growth factor (EGF). DNA synthesis was measured by thymidine incorporation. As the cells aged, there was a significant decrease both in the baseline level of DNA synthesis and in the stimulation of DNA synthesis by EGF addition. The effective concentration of EGF and the latent period prior to DNA synthesis did not change. EGF receptor mRNA expression also remained unchanged as the cells aged, in the absence or presence of EGF, suggesting that the defect in old cells lies downstream in the EGF signaling pathway. As the cells reached 100% of their life span, however, there was a 70% decrease in EGF receptor mRNA. Expression of the EGF receptor homologue HER-2 was also examined. The HER-2 mRNA level was significantly reduced in old cells. Moreover, HER-2 expression was stimulated by EGF addition in young cells but not in old cells. The results suggest that cell aging is associated with a progressive loss in the ability of cells to respond to growth factors.

Ras modulates commitment and maturation of 10T1/2 fibroblasts to adipocytes.

The positive association of the ras oncogene with human cancer and the recognition that malignancy may, in part, represent the imbalance between cell proliferation and differentiation have generated intense interest in the potential role of ras in cell differentiation. We investigated this possibility utilizing as a model system the differentiation of the mesenchymal cell line C3H 10T1/2 (10T1/2) to adipocytes, and a series of transfectants of 10T1/2 cells in which the level of the ras gene product (p21ras; Ras) can be effectively up- or down-modulated. In agreement with previous reports, we found that 10T1/2 cultures, propagated in the resting state for several weeks, spontaneously convert to fat cells at a very low frequency. Downmodulation of endogenous p21ras levels, as a consequence of expression of antisense ras, markedly increased the rapidity and frequency of adipose conversion (6- to 10-fold), which was equivalent in magnitude to that effected by the potent differentiating agent 5-azacytidine. Conversely, overexpression of ras completely inhibited cell differentiation. In addition, adipocytes derived from antisense-ras expressing lines were characterized by a decrease in hormone responsiveness, as well as an apparent deficiency in attaining the terminally differentiated state. These findings suggest that Ras may be a negative regulator of the decision-making step of fibroblast differentiation to adipocytes. In addition, Ras may play an essential positive role in the transduction of hormonal signals necessary for full adipocyte maturation during later progression along the differentiation pathway.

Cellular ras gene activity is required for full neoplastic transformation by polyomavirus.

To investigate the role of ras gene activity in cellular transformation by polyomavirus, murine C3H10T1/2 cells were rendered ras deficient by transfection with an antisense ras gene construct. Ras deficiency resulted in a partial suppression of the polyomavirus-induced transformed phenotype. The production of viral middle T antigen and its association with pp60c-src, increased membrane-associated protein kinase C activity, and morphological transformation were unaffected by the downregulation of c-ras gene expression. On the other hand, stimulated proliferation, focus formation on confluent monolayers of normal cells, and colony formation in soft agar were all greatly reduced in cells containing reduced p21ras levels. It is concluded that ras gene activity is needed for full cell transformation by polyomavirus.

Voltage-sensitive calcium channels in normal and transformed 3T3 fibroblasts.

Patch clamp recordings of whole-cell and single channel currents revealed the presence of two voltage-sensitive calcium channel types in the membrane of 3T3 fibroblasts. The two calcium channel types were identified by their unitary properties and pharmacological sensitivities. Both calcium channel types were present in all control 3T3 cells, but one type was selectively suppressed in 3T3 cells that had been transformed by activated c-H-ras, EJ-ras, v-fms, or polyoma middle T oncogenes. The presence of voltage-sensitive calcium channels in these nonexcitable cells and the control of their functional expression by transforming oncogenes raises questions about their role in the control of calcium-sensitive processes such as cell motility, cytoskeletal organization, and cell growth.

Resolution of bovine heart cytochrome c oxidase into smaller complexes by controlled subunit denaturation.

Bovine heart cytochrome c oxidase has been partially denaturated under mild conditions with 0.1-0.25% lithium dodecyl sulfate and 0.05% Triton X-100. From its reactivity towards CO and CN-, an unmasking of the heme a was inferred in this enzyme. The catalytic activity was lost during the denaturation and small spectral differences became visible. Spectra and ligand binding properties of the denatured enzyme were reversed by dilution in 2% Triton X-100. This suggests that during the denaturation procedure the hemes were not displaced from their original sites. By gel filtration of the partially denatured enzyme the following complexes of subunits were obtained: I-III, I-II-III, II-IV-V-VI-VII and IV-V-VI-VII. The first three complexes retained almost all the heme, and their spectral characteristics were very similar to those of the partially denatured cytochrome c oxidase. The data, in combination with the information that subunit III does not contain heme [Saraste et al. (1980) FEBS Lett. 114, 35-38], suggest that the hemes are attached to subunit I and II. After denaturation of cytochrome c oxidase under more drastic conditions some of the heme was also found to be associated with the smaller subunits, but its spectral characteristics were radically altered, becoming almost identical to those of free heme.