The TSC1 tumour suppressor hamartin regulates cell adhesion through ERM proteins and the GTPase Rho.

Loss of the tumour-suppressor gene TSC1 is responsible for hamartoma development in tuberous sclerosis complex (TSC), which renders several organs susceptible to benign tumours. Hamartin, the protein encoded by TSC1, contains a coiled-coil domain and is expressed in most adult tissues, although its function is unknown. Here we show that hamartin interacts with the ezrin-radixin-moesin (ERM) family of actin-binding proteins. Inhibition of hamartin function in cells containing focal adhesions results in loss of adhesion to the cell substrate, whereas overexpression of hamartin in cells lacking focal adhesions results in activation of the small GTP-binding protein Rho, assembly of actin stress fibres and formation of focal adhesions. Interaction of endogenous hamartin with ERM-family proteins is required for activation of Rho by serum or by lysophosphatidic acid (LPA). Our data indicate that disruption of adhesion to the cell matrix through loss of hamartin may initiate the development of TSC hamartomas and that a Rho-mediated signalling pathway regulating cell adhesion may constitute a rate-limiting step in tumour formation.

The transcription factor AP-1 is required for EGF-induced activation of rho-like GTPases, cytoskeletal rearrangements, motility, and in vitro invasion of A431 cells.

Human squamous cell carcinomas (SCC) frequently express elevated levels of epidermal growth factor receptor (EGFR). EGFR overexpression in SCC-derived cell lines correlates with their ability to invade in an in vitro invasion assay in response to EGF, whereas benign epidermal cells, which express low levels of EGFR, do not invade. EGF-induced invasion of SCC-derived A431 cells is inhibited by sustained expression of the dominant negative mutant of c-Jun, TAM67, suggesting a role for the transcription factor AP-1 (activator protein-1) in regulating invasion. Significantly, we establish that sustained TAM67 expression inhibits growth factor-induced cell motility and the reorganization of the cytoskeleton and cell-shape changes essential for this process: TAM67 expression inhibits EGF-induced membrane ruffling, lamellipodia formation, cortical actin polymerization and cell rounding. Introduction of a dominant negative mutant of Rac and of the Rho inhibitor C3 transferase into A431 cells indicates that EGF-induced membrane ruffling and lamellipodia formation are regulated by Rac, whereas EGF-induced cortical actin polymerization and cell rounding are controlled by Rho. Constitutively activated mutants of Rac or Rho introduced into A431 or A431 cells expressing TAM67 (TA cells) induce equivalent actin cytoskeletal rearrangements, suggesting that the effector pathways downstream of Rac and Rho required for these responses are unimpaired by sustained TAM67 expression. However, EGF-induced translocation of Rac to the cell membrane, which is associated with its activation, is defective in TA cells. Our data establish a novel link between AP-1 activity and EGFR activation of Rac and Rho, which in turn mediate the actin cytoskeletal rearrangements required for cell motility and invasion.

Essential functions of ezrin in maintenance of cell shape and lamellipodial extension in normal and transformed fibroblasts.

BACKGROUND: Changes in cell shape and motility are important manifestations of oncogenic transformation, but the mechanisms underlying these changes and key effector molecules in the cytoskeleton remain unknown. The Fos oncogene induces expression of ezrin, the founder member of the ezrin/radixin/moesin (ERM) protein family, but not expression of the related ERM proteins, suggesting that ezrin has a distinct role in cell transformation. ERM proteins have been suggested to link the plasma membrane to the actin-based cytoskeleton and are substrates and anchoring sites for a variety of protein kinases. Here, we examined the role of ezrin in cellular transformation. RESULTS: Fos-mediated transformation of Rat-1 fibroblasts resulted in an increased expression and hyperphosphorylation of ezrin, and a concomitant increased association of ezrin with the cortical cytoskeleton. We tagged ezrin with green fluorescent protein and examined its distribution in normal and Fos-transformed fibroblasts: ezrin was concentrated at the leading edge of extending pseudopodia of Fos-transformed Rat-1 cells, and was mainly cytosolic in normal Rat-1 cells. Functional ablation of ezrin by micro-CALI (chromophore-assisted laser inactivation) blocked plasma-membrane ruffling and motility of Fos-transformed fibroblasts. Ablation of ezrin in normal Rat-1 cells caused a marked collapse of the leading edge of the cell. CONCLUSIONS: Ezrin plays an important role in pseudopodial extension in Fos-transformed Rat-1 fibroblasts, and maintains cell shape in normal Rat-1 cells. The increased expression, hyperphosphorylation and subcellular redistribution of ezrin upon fibroblast transformation coupled with its roles in cell shape and motility suggest a critical role for ezrin in oncogenic transformation.

AP-1-mediated invasion requires increased expression of the hyaluronan receptor CD44.

Fibroblasts transformed by Fos oncogenes display increased expression of a number of genes implicated in tumor cell invasion and metastasis. In contrast to normal 208F rat fibroblasts, Fos-transformed 208F fibroblasts are growth factor independent for invasion. We demonstrate that invasion of v-Fos- or epidermal growth factor (EGF)-transformed cells requires AP-1 activity. v-Fos-transformed cell invasion is inhibited by c-jun antisense oligonucleotides and by expression of a c-jun dominant negative mutant, TAM-67. EGF-induced invasion is inhibited by both c-fos and c-jun antisense oligonucleotides. CD44s, the standard form of a transmembrane receptor for hyaluronan, is implicated in tumor cell invasion and metastasis. We demonstrate that increased expression of CD44 in Fos- and EGF-transformed cells is dependent upon AP-1. CD44 antisense oligonucleotides reduce expression of CD44 in v-Fos- or EGF-transformed cells and inhibit invasion but not migration. Expression of a fusion protein between human CD44s and Aequorea victoria green fluorescent protein (GFP) in 208F cells complements the inhibition of invasion by the rat-specific CD44 antisense oligonucleotide. We further show that both v-Fos and EGF transformations result in a concentration of endogenous CD44 or exogenous CD44-GFP at the ends of pseudopodial cell extensions. These results support the hypothesis that one role of AP-1 in transformation is to activate a multigenic invasion program.

Practical histological microdissection for PCR analysis.

Recovery of cells by histological microdissection is increasingly used for analysis by polymerase chain reaction (PCR) or microchemical techniques. This paper describes techniques of histological microdissection. Sections of archival formalin-fixed, paraffin-embedded tissue up to 15 years old were mounted on plain glass slides. Sections 6-7 microns in thickness stained with toluidine blue were dissected under proteinase K buffer solution, using an electrolytically sharpened tungsten needle in a bacteriological loop-holder and a Leitz mechanical micromanipulator (model M). Detached cell groups were recovered in a silicone-coated pipette tip for PCR analysis after digestion in 25-50 microliters of proteinase K (500/ml) in TRIS-HCl buffer (pH 8.3). Consistent amplification and analysis of microsatellite loci were obtained from 2 microliters of crude lysate using 28-30 cycles of PCR incorporating a 32P 5'-end-labelled primer, electrophoresis under denaturing conditions on 6 per cent polyacrylamide gels, and autoradiographic detection.

Allelic imbalance at NME1 in microdissected primary and metastatic human colorectal carcinomas is frequent but not associated with metastasis to lymph nodes or liver.

Allelic imbalance at the NME locus on chromosome 17q21 was analyzed in colorectal cancer patients using a highly polymorphic microsatellite repeat sequence within NME1 itself. Duplicate samples of carcinoma and adjacent normal tissue was obtained by microdissection from 6 to 7-microns paraffin sections of 94 primary carcinomas (treatment years 1979-1993) and available lymph node and liver secondaries. In 55 patients informative (heterozygous) at this locus, allelic imbalance was examined in primary and secondary carcinomas. Microsatellite instability prevented assessment of allelic balance in two cases, and there was no evidence of homozygous loss at NME1 in any case analyzed. Allelic imbalance at the NME locus in carcinomas was frequent (27/53; 51%), and concordant results were obtained between primary carcinoma and secondary deposits in 30 of 33 (91%) cases. Three discordant cases showed allelic imbalance in secondary deposits but not the primary lesion. Although frequent, allelic imbalance at NME1 had no relationship to Dukes' stage at presentation or with subsequent hepatic metastasis, nor with the primary carcinoma site (proximal versus distal), tumor size, or mitotic or apoptotic index. Moreover, neither disease-free nor overall survival differed between patients with carcinomas showing NME1 allelic imbalance and patients with carcinomas that did not. Our results show that although allelic imbalance is frequent at the NME locus in primary and secondary colorectal carcinomas, there is no evidence to link this with clinical or pathological features or with metastatic potential. Microsatellite PCR and microdissection of enriched populations of carcinoma cells allowed uniformly successful analysis of samples from archival formalin-fixed paraffin-embedded tissue up to 15 years old and clear assessment of allelic imbalance in tumor specimens. Target sequences (e.g., microsatellites and minisatellites) up to approximately 200-250 bp may be reliably analyzed for allelic balance, suggesting that this method is of general utility in the genetic analysis of primary and metastatic neoplasia.

Functional expression and molecular characterization of the thyrotrophin-releasing hormone receptor from the rat anterior pituitary gland.

We have isolated the TRH receptor (TRH-R) from a rat anterior pituitary cDNA library, determined its sequence and examined its functional characteristics. Expression studies were carried out in Xenopus oocytes and in COS-7 cells. Microinjection of sense RNA transcripts into Xenopus oocytes showed electrophysiological responses of between 800 and 1000 nA under voltage-clamp conditions. COS-7 cells were transiently transfected with the cDNA clone under the control of a cytomegalovirus promoter and inositol phosphate (IP) measurements carried out. In TRH-R transfected cells, TRH (100 nM) produced an approximately twofold increase in total IP production. In-situ hybridization in the rat anterior pituitary revealed a heterogeneous distribution of label, a characteristic pattern of TRH-R expression. The rat 3.3 kb insert coded for a protein of 411 amino acids compared with 393 for the mouse protein. Over its length, the rat TRH-R protein showed considerable homology with that of the mouse, except for a deletion of 232 bp in the 3'-coding region. This deletion did not appear to affect the functional characteristics of the receptor, as shown by electrophysiological studies with Xenopus oocytes and by transfection of the cDNA into COS-7 cells. The sequence given for the 3'-untranslated region is 1.5 kb longer than that reported for the mouse receptor, and extends to the poly(A) tail.

Differentiation stage-specific expression of a gene during granulopoiesis.

Differential screening of a recombinant cDNA library using cDNAs transcribed from poly(A)+ RNA of normal or leukemic leukocytes revealed a number of recombinants homologous to mRNAs characteristic of particular leukemias. The occurrence of one of these (pCG14) in high abundance was shown to be sufficiently characteristic of the circulating leukocyte population of chronic granulocytic leukemia (CGL) patients to distinguish them from all other populations of leukocytes. We have now characterized the gene encoding this mRNA and shown that its expression is specific to the granulocyte lineage in hemopoietic cells and is, moreover, limited to a narrow stage of differentiation during granulopoiesis. Our results explain why high levels of pCG14 RNA are characteristic of chronic granulocytic leukemia peripheral blood leukocytes.