The roles of serum leptin concentration and polymorphism in leptin receptor gene at codon 109 in breast cancer

AIMS

We investigated the relationship between serum leptin concentrations and polymorphism of the leptin receptor gene and breast cancer.

METHODS

Serum leptin concentrations were measured by enzyme-linked immunosorbent assay in 47 women with invasive breast cancer compared with 41 age-matched controls without cancer. Genomic DNA was extracted from peripheral blood leukocytes. Genotyping of the leptin receptor gene at codon 109 (LEPR-109) was performed by polymerase chain reaction-restriction fragment length polymorphism.

RESULTS

Patients with breast cancer had a higher mean serum leptin concentration than women in the control group, but the difference was not statistically significant. Among those with breast cancer, the serum leptin concentration was higher in women with high-grade cancers (p = 0.020). The LEPR-109RR genotype was more frequent in premenopausal patients with tumors larger than 2 cm (p = 0.039) and in premenopausal women who were overweight (p = 0.029). Among patients with the LEPR-109RR genotype, higher mean serum leptin concentrations were present in those with triple-negative cancers (p = 0.048).

CONCLUSIONS

Our study suggests an association between serum leptin concentration and tumor progression. LEPR-109 polymorphism in premenopausal women appears to be associated with obesity and tumor progression.

Transcriptional regulation of human CYP11A1 in gonads and adrenals

The CYP11A1 gene encodes the cholesterol side-chain cleavage enzyme, also termed cytochrome P450scc, which catalyzes the conversion of cholesterol to pregnenolone in the first step of steroid biosynthesis in mitochondria. The adrenal- and gonad-selective, hormonally and developmentally regulated expression of CYP11A1 is principally driven by its 2.3 kb promoter. Multiple trans-acting factors like SF-1, Sp1, AP-2, TReP-132, LBP-1b, LBP-9, AP-1, NF-1, and Ets control CYP11A1 transcription either through DNA-protein interaction with their specific cis-acting elements or through protein-protein interaction between each other, wherein SF-1 plays a central role in adrenals and testes. In addition to binding with its proximal and upstream motifs, SF-1 also physically interacts with TFIIB, CBP/p300, TReP-132, and c-Jun/AP-1 to specifically transmit the regulatory signals of cAMP. Other factors like Sp1 family members, AP-2, and LBP-1b/LBP-9 may be other factors that play a role in CYP11A1 transcription, particularly in placental cells. The TATA sequence could also contribute to tissue-specificity and hormonal regulation of CYP11A1 transcription. This article reviews recent studies focusing on adrenals and gonads.

Leptin induces proliferation and anti-apoptosis in human hepatocarcinoma cells by up-regulating cyclin D1 and down-regulating Bax via a Janus kinase 2-linked pathway

Obesity serves as an important risk factor for incidences of both cirrhotic and non-cirrhotic hepatocellular carcinoma (HCC), which is the third leading cause of cancer death worldwide. Leptin, the obesity biomarker molecule secreted systemically by body fat mass and locally by activated hepatic stellate cells, is proposed to play a certain role in HCC growth. Here, we show both proliferative and anti-apoptotic effects of leptin in HCC cells. Leptin stimulated cyclin D1 promoter activity to increase cyclin D1 protein expression, which accelerated the cell cycle progression. The reduced ratio between anti-apoptotic (Bcl-2) and pro-apoptotic (Bax) Bcl-2 family proteins by transforming growth factor (TGF)-beta 1 caused HCC cells degradation of poly(ADP-ribose) polymerase and consequential apoptosis; whereas, leptin protected cells from apoptosis by reversing TGF-beta 1-reduced Bcl-2/Bax ratio as a result of down-regulating Bax. Any inhibitor specific for Janus kinase 2 (JAK2), phosphatidylinositol 3-kinase (PI3K)/Akt, or mitogen-activated protein kinase kinase (MEK)/extracellular signal-regulated kinase 1/2 (ERK1/2) blocked these leptin functions. When intrahepatocytic JAK2 was activated by leptin, the active JAK2 afterward triggered a signaling cascade involving activations of PI3K/Akt and MEK/ERK1/2 in order of occurrence. As yet, in most cases, the crosstalks among signaling pathways primarily studied in diverse cancer cell types for mediating somatotropic effect of leptin are not well clarified and seem to be cell-type dependent. For the first time, our results demonstrate the direct effects of leptin on HCC growth and define its signal pathway with a crosstalking JAK2-PI3K/Akt-MEK/ERK1/2 connection. The identified hierarchy of intrahepatocytic leptin signaling pathway provides a clear basis potentially beneficial to make accurate and effectual strategies for facing both cirrhotic and non-cirrhotic liver carcinogenesis.

Activating protein-1 cooperates with steroidogenic factor-1 to regulate 3',5'-cyclic adenosine 5'-monophosphate-dependent human CYP11A1 transcription in vitro and in vivo

The CYP11A1 encodes cytochrome P450scc, catalyzing the first step of steroidogenesis in adrenals and gonads under the control of cAMP-mediated hormonal signals. The cAMP-induced activation of human CYP11A1 has been suggested to depend on the transcription factor cAMP-responsive element-binding protein (CREB), but the CREB action cannot explain the chronic cAMP effect on CYP11A1 activation. To further understand the mechanism of human CYP11A1 activation, we dissected the functions of the upstream cAMP responsive sequences (U-CRS) containing a core sequence, U identical to the steroidogenic factor-1 (SF-1)-binding site, and two flanking TPA-responsive element/cAMP-responsive element-like elements, C1 and C2. The EMSA assays showed that the binding activities of U with SF-1 as well as C1 or C2 with activating protein-1 (AP-1)/CREB-like proteins are induced by cAMP. The results from the site-directed mutagenesis analyses revealed that all three elements are required for the U-CRS function and any mutation of C1, C2, or U impairs the response to cAMP stimulation. In transgenic mice, the single or double mutations of C1 and C2 resulted in the reduction of reporter gene expression accompanied with poor hormonal response. The cAMP induction on the U-CRS activity was mimicked and enhanced by the overexpressed c-Jun in the presence of SF-1, but was abolished by the overexpression of an AP-1 dominant-negative mutant, FosB2. Furthermore, we have observed the interdependent transactivation between SF-1 and c-Jun on the U-CRS function. These results collectively demonstrate that SF-1 and AP-1 cooperate to activate CYP11A1 transcription in vitro and in vivo.

Leptin interferes with adrenocorticotropin/3',5'-cyclic adenosine monophosphate (cAMP) signaling, possibly through a Janus kinase 2-phosphatidylinositol 3-kinase/Akt-phosphodiesterase 3-cAMP pathway, to down-regulate cholesterol side-chain cleavage cytochrome P450 enzyme in human adrenocortical NCI-H295 cell line

CONTEXT

Obesity has adverse effects on adrenocortical functions. Adipocyte-derived leptin, a biomarker molecule of obesity, may directly control adrenal steroidogenesis via an unclear mechanism.

OBJECTIVE

We studied the mechanism underlying leptin action on adrenal steroidogenesis in human adrenocortical NCI-H295 tumor cell line.

METHODS

Levels of progesterone, cortisol, and cAMP were determined by ELISA. Western blotting was used to detect protein amounts of P450 side-chain cleavage (P450scc), Janus kinase 2 (JAK2), Akt, and their phosphorylated forms. The mRNA expressions of P450scc and leptin receptors were measured by RT-PCR and real-time PCR. P450scc promoter activity was analyzed with a luciferase reporter system.

RESULTS

Cholera toxin mimicked ACTH action by increasing adrenal cAMP levels and steroid secretion. Leptin did not affect basal release but significantly inhibited ACTH/cholera toxin-induced steroid secretion. The concomitant inhibitions by leptin on cholera toxin-induced protein and ACTH/cholera toxin-induced mRNA expression of P450scc were confirmed. Leptin inhibited ACTH/cholera toxin-induced CYP11A1 promoter activity via a known cAMP-responsive region located between -1.7 and -1.5 kb. Leptin activated phosphorylations of JAK2 and Akt. Inhibitory effects of leptin on ACTH/cholera toxin-induced cAMP levels, CYP11A1 promoter activity, and steroid secretion were blunted by either inhibitor of JAK2 (AG490) or phosphatidylinositol 3-kinase/Akt (wortmannin) as well as inhibitors of cAMP-degrading phosphodiesterases (PDEs), including nonspecific 3-isobutyl-1-methylxanthine and PDE3-specific SKF94836. Leptin failed to affect the inductions of CYP11A1 promoter activity and steroid secretion by PDE-nonhydrolyzable N(6)-monobutyryl-cAMP.

CONCLUSIONS

Leptin interferes with ACTH/cAMP signaling, possibly through a cAMP-degrading mechanism involving activation of JAK2, phosphatidylinositol 3-kinase, and PDE3, to down-regulate P450scc expression and consequent adrenal steroidogenesis.

Leptin-induced growth of human ZR-75-1 breast cancer cells is associated with up-regulation of cyclin D1 and c-Myc and down-regulation of tumor suppressor p53 and p21WAF1/CIP1

Obesity has been recognized as a risk factor for breast cancer. Adipocyte-derived leptin may play as a paracrine regulator on the growth of breast cancer cells. Expression of both leptin and its OB-Rb receptor was detected in human breast cancer ZR-75-1 cells and further induced by leptin, suggesting that both expression and message mediation of leptin were autoregulated by itself. With cell counting and MTT assay, we had observed leptin stimulated ZR-75-1 growth in dose- and time-dependent manners. To study what steps of cell cycle progression leptin may involve in, we analyzed cell-cycle profile with flow cytometric analysis, mRNA and protein expressions of four cell-cycle regulators with RT-PCR and Western blotting analysis. Under the treatment of leptin, the G1 arrest of cells was reduced accompanied with up-regulation of G1 phase-specific cyclin D1 and proto-oncogene c-Myc, but down-regulation of cyclin-dependent kinase inhibitor p21(WAF1/CIP1) and tumor suppressor p53. Furthermore, JAK2 inhibitor AG490, PI3K/Akt inhibitor Wortmannin, and MEK/ERK1/2 inhibitor PD98059 were efficiently prevented leptin-promoted cell growth. Effect of cooperation between leptin and estrogen on ZR-75-1 growth had been observed. Collectively, the results showed that the proliferative effect of leptin on ZR-75-1 was associated with the up-regulation of cyclin D1 and c-Myc and down-regulation of tumor suppressor p53 and p21(WAF1/CIP1) plausibly through a hypothesized JAK2-PI3K/Akt-MEK/ERK pathway. The leptin- and OB-Rb-expressing capability of ZR-75-1 created a possible autocrine control of leptin, in which signal could be effectively amplified by itself, on cell growth.

Complete genome sequence of the grouper iridovirus and comparison of genomic organization with those of other iridoviruses

The complete DNA sequence of grouper iridovirus (GIV) was determined using a whole-genome shotgun approach on virion DNA. The circular form genome was 139,793 bp in length with a 49% G + C content. It contained 120 predicted open reading frames (ORFs) with coding capacities ranging from 62 to 1,268 amino acids. A total of 21% (25 of 120) of GIV ORFs are conserved in the other five sequenced iridovirus genomes, including DNA replication, transcription, nucleotide metabolism, protein modification, viral structure, and virus-host interaction genes. The whole-genome nucleotide pairwise comparison showed that GIV virus was partially colinear with counterparts of previously sequenced ranaviruses (ATV and TFV). Besides, sequence analysis revealed that GIV possesses several unique features which are different from those of other complete sequenced iridovirus genomes: (i) GIV is the first ranavirus-like virus which has been sequenced completely and which infects fish other than amphibians, (ii) GIV is the only vertebrate iridovirus without CpG sequence methylation and lacking DNA methyltransferase, (iii) GIV contains a purine nucleoside phosphorylase gene which is not found in other iridoviruses or in any other viruses, (iv) GIV contains 17 sets of repeat sequence, with basic unit sizes ranging from 9 to 63 bp, dispersed throughout the whole genome. These distinctive features of GIV further extend our understanding of molecular events taking place between ranavirus and its hosts and the iridovirus evolution.

Identification and characterization of a novel gene of grouper iridovirus encoding a purine nucleoside phosphorylase

Purine nucleoside phosphorylase (PNP) is a key enzyme in the purine salvage pathway. It catalyses the reversible phosphorolysis of purine (2′-deoxy)ribonucleosides to free bases and (2′-deoxy)ribose 1-phosphates. Here, a novel piscine viralPNPgene that was identified from grouper iridovirus (GIV), a causative agent of an epizootic fish disease, is reported. This putative GIVPNPgene encodes a protein of 285 aa with a predicted molecular mass of 30 332 Da and shows high similarity to the humanPNPgene. Northern and Western blot analyses of GIV-infected grouper kidney (GK) cells revealed that PNP expression increased in cells with time from 6 h post-infection. Immunocytochemistry localized GIV PNP in the cytoplasm of GIV-infected host cells. PNP–EGFP fusion protein was also observed in the cytoplasm of PNP–EGFP reporter construct-transfected GK and HeLa cells. From HPLC analysis, the recombinant GIV PNP protein was shown to catalyse the reversible phosphorolysis of purine nucleosides and could accept guanosine, inosine and adenosine as substrates. In conclusion, this is the first report of a viral PNP with enzymic activity.

Transcriptional regulation of CYP11A1

Steroid hormones are important physiological regulators that control our glucose and salt balance, as well as sexual characteristics. The synthesis of steroid hormones is under tight control; disturbed secretion of steroids often leads to diseases. The mechanism controlling the secretion of steroids, namely steroidogenesis, has been the focus of intensive studies. CYP11A1 controls the first and rate-limiting step of steroid biosynthesis. It is expressed in the adrenal cortex and gonads, under the control of pituitary hormones, through the cAMP-signaling pathway. The promoter of the CYP11A1 gene contains sequences that bind to transcription factor SF-1, which plays an important role in the tissue-specific and hormonally regulated expression of steroidogenic genes. Detailed transcriptional analysis documents the importance of SF-1 in activating CYP11A1 in vitro and in vivo. Other factors like c-Jun are also involved. The assembly of various transcription factors forming protein-DNA complexes appears to be the key step in CYP11A1 transcription.

Function of Cyp11a1 in animal models

CYP11A1 encodes the P450scc enzyme that catalyzes the first and rate-limiting step of steroid biosynthesis. It is expressed in the adrenals and gonads under the control of pituitary peptide hormones. Transcription factor SF-1, which binds to the CYP11A1 promoter, plays an important role in the tissue-specific and hormonally regulated expression. Transgenic mouse experiments linking the CYP11A1 promoter to a reporter gene demonstrate the importance of the SF-1-binding site in directing balanced CYP11A1 gene expression. In addition, targeted mutagenesis of Cyp11a1 also reveals the importance of this gene in steroid secretion, gene regulation, and development of genitalia. Zebrafish cyp11a1 is expressed in the gonads and interrenal glands in the adults, similar to mammals. In addition, it is expressed in yolk syncytial layer during early embryogenesis. These two animal models complement each other for the understanding of gene regulatory pathways in human diseases related to steroid imbalance.

Establishment of cell lines from a tropical grouper, Epinephelus awoara (Temminck & Schlegel), and their susceptibility to grouper irido- and nodaviruses

Four tropical marine fish cell lines have been established from the eye, fin, heart and swim bladder of grouper, Epinephelus awoara (Temminck & Schlegel). Optimum media and temperature conditions for maximum growth were standardized. The eye and swim bladder cells were mostly epithelial, but the fin and heart cells were mostly fibroblastic. The viability of cells was 95% after 1 year of storage in liquid nitrogen (-196 degrees C). Besides these four cell lines, previously established grouper brain, kidney and liver cell lines were also used for a viral susceptibility study which showed that all the cell lines were sensitive to grouper iridovirus, whereas only brain, fin and liver cell lines were susceptible to the yellow grouper nervous necrosis virus (a nodavirus). Electron microscopy studies of the grouper irido- and nodaviruses in ultrathin sections of infected cells showed an abundance of viral particles in the cytoplasm of the virus-infected cells indicating the effective replication of these two viruses. It is suggested that these cell lines can be used for the isolation of putative fish specific viruses and provide a valuable tool to study the mechanisms of host-pathogen interactions. Furthermore, these cell lines upon transfection, using pEGFP-C1 and pEGFP-aMT2.5 (ayu metallothionein promoter), produced significant fluorescent signals indicating their utility for exogenous studies.

In vitro efficiency of intra- and extracellular immunization with mouse anti-YGNNV antibody against yellow grouper nervous necrosis virus

Mouse monoclonal antibody (MAb-18) against yellow grouper nervous necrosis virus (YGNNV) coat protein was developed and assayed for its neutralization ability. In the present study, we cloned and sequenced the cDNAs encoding heavy (gamma) and light (kappa) chains by constructing a cDNA library of the MAb-18 hybridoma. Three expression vectors, pCMV-NNV-18H (gamma), pCMV-NNV-18L (kappa), and pCMV-NNV-18HL (both gamma and kappa chains) were constructed and successfully expressed in grouper brain (GB) cells. Western blotting results indicated the secretion of antibody in to the medium with successful folding. Extracellular antibodies secreted by the pCMV-NNV-18HL transfected GB cells, neutralized well with YGNNV and showed the highest neutralization index (log(10) of NI) value 4. A significant reduction of titre (99.9%) was observed, when the intracellularly immunized GB cells were propagated with the YGNNV. These preliminary demonstrations suggest the immunoprophylactic use of plasmid constructs encoding the genes of mouse MAbs and the possibility of producing transgenic pathogen-free spawners and larvae, which contain freely available MAbs against pathogen in the circulation.

Differential inhibition of progesterone synthesis in bovine luteal cells by estrogens and androgens

We investigated the roles of estrogens and androgens in the progesterone biosynthesis of bovine luteal cells. The responsiveness of primary luteal cells to the stimulation of tropic agents was observed in a dose-dependent manner. Estrogens and androgens significantly inhibited tropic agent-induced progesterone secretions, but glucocorticoids did not, which indicated the inhibitions were specific. The failure of exogenous 8-Br-cAMP to prevent these inhibitions suggested that took place at the post-cAMP steps. The immunoblot showed that testosterone remarkably decreased the amount of induced P450scc protein after 6-hour treatment, yet 17beta-estradiol did not. The 3beta-HSD activity assays demonstrated that both 17beta-estradiol and testosterone efficiently blocked induced 3beta-HSD activities. Both inhibitory effects of E2 and T on progesterone synthesis were observed one hour after treatment and accompanied with suppressed 3beta-HSD activities. This study presents that estrogens and androgens specifically inhibit bovine luteal function through different mechanisms.

Effect of cAMP on protein binding activities of three elements in upstream promoter of human CYP11A1 gene

CYP11A1 gene encodes the P450scc enzyme. which catalyzes the first step of steroidogenesis under the modulation of cAMP signal. To understand the signaling pathway of cAMP, we analyzed three elements in upstream cAMP-responsive sequences of CYP11A1 gene. The sequence of -1617/-1609 fragment was identical to the conserved SF1 binding site (SF1/Ad4BP). Both sequences of -1637/-1626 and -1559/-1545 fragments are highly homologous to consensus TRE or CRE. The cAMP-treated adrenal Y1 nuclear extracts formed significantly higher intensities of complexes with these three elements than untreated Y1 nuclear extracts. The EMSA demonstrated potential binding of SF1 protein to -1617/-1609, and CREB like protein and AP1 family to -1637/-1626 and -1559/-1545. This is the first report to describe the enhancement of cAMP on protein binding activities of three elements of CYP11A1 promoter to SF1/Ad4BP or CREB/AP1-like proteins.

Cell-type specificity of human CYP11A1 TATA box

Expression of the CYP11A1 (SCC) genes, which encode the enzyme important for the first step of steroid biosynthesis, occurs in the adrenal gland and gonads, and is stimulated by cAMP. Transfection of serial deletions of the SCC promoter, which drives reporter gene expression, showed that a minimal promoter containing only the TATA box could direct cAMP-dependent transcription. Transcription factor SF1, which binds to a site next to the TATA box, can stimulate basal transcription but not cAMP response, either in adrenal cell lines or in COS-1 co-transfected with the SF1 expression plasmid. These data lead to the conclusion that the minimal promoter containing only the TATA box can drive cell type-specific, cAMP-dependent transcription. Additional experiments replacing the TATA sequence of SCC with other TATA sequences suggested that the TATA sequence itself is important for this cAMP-dependent transcription.

Transcriptional regulation of the CYP11A1 and ferredoxin genes

The first step in the synthesis of all steroids is the cleavage of cholesterol side chain, catalyzed by an electron transport system located in mitochondria consisting of ferredoxin reductase, ferredoxin, and cytochrome P450scc. These proteins are present in adrenal, gonad, placenta, and some parts of the brain. In addition, ferredoxin and ferredoxin reductase are also found in the kidney and liver. Whereas ferredoxin reductase levels remain constant in the cell, ferredoxin and P450scc levels are stimulated by trophic hormones using cAMP as an intracellular messenger. The ferredoxin promoter is relatively simple, consisting of a TATA box and two Sp1-binding sites. This simple module is enough to direct cAMP-dependent transcription in a steroidogenic cell-specific fashion. The regulatory region for the P450scc gene is more complex, containing many protein binding sites for different regulation purposes. Its TATA box directs cAMP-dependent transcription in a cell-type-specific manner. A transcription factor, steroidogenic factor 1 (SF1), activates P450scc gene expression. The tissue-specific expression of the P450scc gene is probably accomplished through the interaction of SF1 with other protein factors located further upstream of the control region. SF1 may also be involved in the cAMP response. An upstream region binding to cAMP-Responsive Element Binding Protein CREB and AP1 can respond to cAMP for gene activation. These analyses of regulatory elements provide the structural architecture for transcriptional regulation of the ferredoxin and the CYP11A11 gene.

Regulation of cholesterol side-chain cleavage cytochrome P450 in mouse testis Leydig cell line I-10

We have characterized regulation of steroidogenesis in a mouse testis Leydig cell line, I-10. Progesterone secretion was increased in a time- and dose-dependent fashion by 8-Br-cAMP treatment. The amount of cholesterol side-chain cleavage enzyme (P450scc), the first and rate-limiting enzyme for the synthesis of steroids, as detected by immunoblotting, was also increased. The calcium ionophore A23187 decreased the amount of P450scc, but it did not interfere with cAMP stimulation of the accumulation of P450scc. This regulation of P450scc expression by cAMP and A23187 is at the post-transcriptional level because the amount of P450scc mRNA was not affected by either treatment. This result was further confirmed by direct measurement of transcription in the presence or absence of forskolin treatment. I-10, however, supported cAMP-dependent transcriptional activation of the exogenous gene, as shown by the increased expression of a reporter gene under the control of the -600 to -2,500 fragment of the P450scc gene. The ability for transcriptional activation of the exogenous but not endogenous P450scc gene makes I-10 a unique steroidogenic cell line.

Regulation of ferredoxin gene in steroidogenic and nonsteroidogenic cells

Ferredoxin is an electron transport intermediate for all the mitochondrial cytochromes P450. It is especially abundant in steroidogenic organs where it functions in steroid biosynthesis. The regulation of ferredoxin gene expression was studied in both steroidogenic and nonsteroidogenic cell lines. In steroidogenic cell line Y1, the expression of ferredoxin was stimulated by cAMP and repressed slightly by angiotensin II and phorbol ester PMA. These drugs exhibited the same effect on the basal promoter of the ferredoxin gene, which includes one TATA box and an SP1 site. In human adrenocortical cell line H295, the stimulation of the ferredoxin gene by cAMP was blocked by cycloheximide, as observed in bovine adrenocortical cell culture. In nonsteroidogenic cell lines such as HeLa and COS-1, the stimulation of ferredoxin gene expression by cAMP was not observed, although basal expression was strong. Transfection studies showed that the ferredoxin promoter could not be stimulated by cAMP in nonsteroidogenic cells. Therefore the steroidogenic cell-specific regulation and the general expression pattern appears to be a property unique to the ferredoxin gene.

Actions of two different cAMP-responsive sequences and an enhancer of the human CYP11A1 (P450scc) gene in adrenal Y1 and placental JEG-3 cells

We have characterized three cis-acting elements of the human CYP11A1 gene. A proximal cAMP-responsive sequence (P-CRS) functioned in both adrenal Y1 and placental JEG-3 cells. An upstream cAMP-responsive sequence (U-CRS) and an enhancer, localized by transfections of deleted gene segments linked to a reporter gene to bases -1621 to -1503 and -1931 to -1822, respectively, functioned in Y1 but not JEG-3 cells. Both regions bind proteins only from Y1 cells as identified by footprinting analysis. U-CRS contains the TCAAGGTCA sequence that binds the nuclear receptor family of proteins. The cAMP-dependent transcription mediated by U-CRS, but not by P-CRS, was abolished in a cell line deficient in cAMP-dependent protein kinase. Therefore, P-CRS and U-CRS use different effectors to mediate cAMP response. Gel mobility shift, competition, and antibody supershift experiments showed that nucleotides -117 to -94, which contributed to P-CRS activity in transfection experiments, bound weakly to Sp1-like proteins. This feature is shared by many proximal regulatory elements of steroidogenic genes. Therefore, steroidogenic genes could be coordinately regulated through common regulatory elements such as P-CRS, U-CRS, and cell type-selective enhancers.

Differential regulation of the CYP11A1 (P450scc) and ferredoxin genes in adrenal and placental cells

The regulation of the genes encoding cholesterol side-chain cleavage enzyme (P450scc) and ferredoxin, two components in the first step of steroid synthetic pathways, was studied by RNA analyses of endogenous and transfected genes. cAMP rather than calcium was the major secondary messenger that stimulated expression of both P450scc and ferredoxin genes in human placental JEG-3 cells. The effect of cAMP on P450scc expression was abolished by cycloheximide in JEG-3 cells, but it was superinduced in mouse adrenal Y1 cells. For ferredoxin expression, both reagents have synergistic effect in Y1 and JEG-3 cells. To test the mechanism of regulation, DNA segments containing regulatory elements of the P450scc and ferredoxin genes were connected to reporter genes and analyzed in cotransfection experiments. The results showed that the proximal cAMP-responsive sequences of both P450scc and ferredoxin genes were stimulated by cAMP early in both Y1 and JEG-3 cells, requiring no new protein synthesis. This indicates a common mechanism for the regulated expression of both genes. P450scc possessed an additional upstream cAMP-responsive sequence that also responded to cAMP induction in a different manner from the proximal element. The presence of additional upstream regulatory elements makes it possible for the P450scc gene to be further regulated.

Transcription of the human ferredoxin gene through a single promoter which contains the 3',5'-cyclic adenosine monophosphate-responsive sequence and Sp 1-binding site

We have investigated the functional elements involved in cAMP-stimulated transcription of the human ferredoxin gene. Unlike the bovine gene, the human gene lacked a second upstream RNA initiation site as demonstrated by sequence analysis of the exon boundary, lack of upstream RNA, and analysis of the promoter. The presence of a single promoter was determined by testing the ability of various gene segments to drive the expression of the chloramphenicol acetyltransferase gene after transfection into a mouse adrenal cell line Y1. Full promoter activity was conferred by a DNA fragment spanning -209 to +55, although the -94 to +55 fragment already provided some promoter activity. Transcription from the -94 to +55 segment was stimulated by 2-fold when 8-bromo-cAMP was added to the cell. Footprinting analyses showed two GC boxes at -50 to -70 and -87 to -108 were protected by proteins from both Y1 and HeLa cells. Competition experiments showed that a protein with a recognition sequence indistinguishable from Sp1 bound to these sites. When connected to a heterologous TATA box, the sequence at -76 to -42, which contained the proximal GC box, was able to confer a high level of basal transcription and cAMP stimulation. This sequence does not show sequence homology with the known cAMP-responsive element. Mutations or deletion of the Sp 1-binding site showed diminished basal transcription and defined the cAMP responsive sequence to be from -76 to -62. Therefore the cAMP-responsive sequence of the human ferredoxin gene was located at -76 to -62, which was adjacent to the Sp 1-binding site.

Regulated expression of cytochrome P-450scc (cholesterol-side-chain cleavage enzyme) in cultured cell lines detected by antibody against bacterially expressed human protein

The first step in the synthesis of steroids is catalysed by cytochrome P-450ssc (cholesterol-side-chain cleavage enzyme). We have investigated the synthesis of this enzyme in three cultured cell lines at the protein and hormone secretion levels. Hormone levels were measured by an enzyme immunoassay using a monoclonal antibody against progesterone. The protein level was detected using polyclonal antibodies directed against a P-450scc fusion protein overproduced in Escherichia coli. Utilizing a bacteriophage T7 promoter expression system, a large amount of human P-450scc fusion protein was produced and easily purified. P-450scc was synthesized in the mouse adrenal tumour cell line Y1 and human choriocarcinoma cell line JEG-3, but not in monkey kidney cell line COS-1. The production of P-450scc in Y1 and JEG-3 cells was stimulated by 8-bromo cyclic AMP, the effect of which was not observed until 6 h after induction and was more pronounced at 24 h. Y1 and JEG-3 cells exhibited a difference in progesterone secretion after induction.