The 39-kDa receptor-associated protein regulates ligand binding by the very low density lipoprotein receptor

A 39-kDa receptor associated protein (RAP) binds and inhibits ligand binding by two members of the low density lipoprotein (LDL) receptor family, gp330 and low density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor. To determine if additional members of the LDL receptor family may interact with RAP, Chinese hamster ovary cells were transfected with plasmids directing expression of the very low density lipoprotein (VLDL) receptor cDNA or the LDL receptor cDNA. Detergent-soluble extracts from these and normal Chinese hamster ovary cells were subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis, after which the proteins were transferred to nitrocellulose membranes and incubated with RAP. When detergent extracts from normal cells were incubated with RAP, several polypeptides, including a 130-kDa protein, were observed to bind RAP. In cells transfected with the VLDL receptor cDNA, a substantial increase in RAP binding to the 130-kDa polypeptide was noted. This protein was identified as the VLDL receptor by immunoblotting. The VLDL receptor present in detergent extracts from transfected cells bound to RAP-Sepharose, and a KD of 0.7 nM for the interaction between RAP and the purified VLDL receptor was determined using enzyme-linked immunosorbent assay. The purified VLDL receptor bound 125I-labeled VLDL, but not 125I-labeled LDL, and the binding of 125I-labeled VLDL was completely inhibited by RAP. Further, RAP inhibited the uptake and degradation of 125I-VLDL by cells overexpressing the VLDL receptor. Thus the VLDL receptor represents the third member of the LDL receptor family whose ligand binding properties are antagonized by RAP. This suggests a common functional role for RAP in modulating ligand binding by members of the LDL receptor family.

Peroxisome proliferators and retinoids affect JEG-3 choriocarcinoma cell function

To examine the hypothesis that nutritional signals regulate trophoblast cell function, JEG-3 choriocarcinoma cells were treated with drugs that stimulate peroxisome proliferator-activated receptors (PPARs). These receptors are thought to mediate in part the effects of lipidic nutrients on gene expression. Because PPARs are modulated by interactions with retinoid-X receptors, we also examined the actions of the peroxisome proliferators in the presence of retinoids. Clofibric acid, a known peroxisome proliferator, suppressed JEG-3 cell growth in association with increases in the tumor suppressor p53 protein and its messenger RNA (mRNA). It reduced CG secretion and CG alpha and CG beta mRNAs in growing cells. However, clofibric acid did not induce peroxisome proliferation in the JEG-3 cells, as assessed by electron microscopy and immunostaining for catalase, a peroxisomal enzyme, or alter levels of mRNAs for peroxisomal proteins, sterol carrier protein-X/sterol carrier protein-2 and acyl-Coenzyme-A oxidase. The mitochondrial cholesterol side-chain cleavage enzyme, cytochrome P450scc, was modestly increased in some experiments. All-trans-retinoic acid and 9-cis-retinoic acid increased CG secretion and CG alpha and CG beta mRNAs, but clofibric acid blunted these stimulatory effects. WY 14,643, another peroxisome proliferator, also reduced CG gene expression without increasing mRNAs encoding peroxisomal proteins or altering P450scc mRNA. The mRNA for a human PPAR, NUC1, was demonstrated in JEG-3 cells, and NUC1 mRNA was shown to be upregulated by 8-bromo-cAMP. We conclude 1) that JEG-3 cells express a PPAR and are subject to regulation by PPAR stimulators; 2) that PPAR stimulation in JEG-3 cells does not promote peroxisome proliferation; and 3) that peroxisome proliferators and retinoids differentially regulate JEG-3 cell endocrine activities. We suggest from these findings that JEG-3 cells possess mechanisms to respond to nutrient cues.

Enhanced translation: a novel mechanism of mdm2 oncogene overexpression identified in human tumor cells

The cellular mdm2 gene, which has potential transforming activity that can be activated by overexpression, is amplified in a significant percentage of human sarcomas and in other mammalian tumors. Proteins encoded by the mdm2 gene can bind to, and inhibit the function of, the protein product of the p53 tumor suppressor gene. As reported here, we have identified human choriocarcinoma cell lines that express high levels of mdm2 proteins as well as the p53 protein. Several lines of evidence demonstrate that the p53 in these tumor cells has a wild-type nucleotide sequence, although the protein exhibits an extended half-life. Further, the more than 100-fold overexpression of mdm2 proteins in these cells cannot be explained by gene amplification, elevated RNA expression, or altered protein stability; rather our data indicate that elevated mdm2 protein levels in these choriocarcinoma cell lines result from enhanced translation. This mechanism has not previously been implicated in the regulation of mdm2 gene expression, and it represents a novel means by which the potential transforming activity of the mdm2 oncogene could be activated.

Cloning of a complementary deoxyribonucleic acid encoding the murine homolog of the very low density lipoprotein/apolipoprotein-E receptor: expression pattern and assignment of the gene to mouse chromosome 19

We report the cloning of a complementary DNA for the mouse homolog of the very low density lipoprotein (VLDL)/apolipoprotein-E receptor (VLDLR), the deduced amino acid sequence of the protein, and the mapping of the gene encoding the receptor to mouse chromosome 19. Northern hybridization revealed that the VLDLR messenger RNA (mRNA) is most abundant in skeletal muscle, heart, kidney, and brain. It was also detected in lung and in low levels in liver, but it was not found in spleen or testes. Levels of VLDLR mRNA in mouse placenta increased from days 8-18 of gestation. The VLDLR mRNA was induced in 3T3-L1 cells undergoing differentiation into adipocytes. The increase in VLDLR mRNA paralleled the rise in lipoprotein lipase and hormone-sensitive lipase mRNAs. However, VLDLR and low density lipoprotein receptor-related protein were increased in the presence of retinoic acid, whereas the induction of lipoprotein lipase and hormone-sensitive lipase mRNAs was inhibited. Our observations demonstrate regulated expression of the VLDLR gene in placenta and adipocytes, where the receptor protein may play roles in the uptake of triglyceride-rich particles for storage of lipid (adipocytes) or for lipid transport to the fetus (placenta). The availability of a murine complementary DNA probe and the knowledge of the map position of the VLDLR gene in the mouse genome will facilitate studies on the function and regulation of this protein.

Gonadotropin-releasing hormone-dependent chorionic gonadotropin secretion in a menopausal woman

We report the evaluation of a 46-yr-old asymptomatic menopausal woman whose serum hCG concentrations remained persistently supra-normal for 3 yr (mean +/- SD, 20 +/- 10 IU/L; n = 19). Holo-hCG and beta-core fragments were detected in the patient's urine by Ultragel chromatography, followed by specific RIAs. Trophoblastic, germ cell, and other malignancies appeared to be excluded by the absence of serum tumor markers and imaging procedures of the pelvis, abdomen, breast, and chest. Administration of a single bolus dose of synthetic GnRH (100 micrograms) increased the serum hCG concentration by 50% (from 26 to 40 IU/L). Administration of the Nal-Glu GnRH antagonist (5 mg, sc, every 12 h for 1 week) decreased the serum hCG concentration from 27 to 4.6 IU/L. The pronounced decrease in the serum hCG concentration during antagonism of the action of endogenous GnRH by administration of Nal-Glu GnRH suggests that the pituitary is the source of the supra-normal serum hCG concentrations, because the pituitary is exposed to the highest concentration of endogenous GnRH.

Differentiation-dependent expression of the BCL-2 proto-oncogene in the human trophoblast lineage

OBJECTIVE

We explored the role of the BCL-2 proto-oncogene in the life cycle of trophoblast cells by examining: 1) the patterns of BCL-2 expression in normal placenta at various gestational ages and in specimens of hydatidiform moles and choriocarcinomas, and 2) the effects of cyclic adenosine monophosphate (cAMP) treatment of JEG-3 choriocarcinoma cells, which induces differentiated functions, on BCL-2.

METHODS

BCL-2 protein was localized by indirect immunofluorescence and immunoperoxidase staining of tissue sections and cells using monoclonal and polyclonal antibodies. Western and Northern blotting were used to assess BCL-2 and p53 protein and mRNA levels, respectively. JEG-3 cells were transfected with a BCL-2 expression plasmid to establish that BCL-2 protein could be expressed at high levels in this cell type.

RESULTS

BCL-2 immunostaining was most prominent in the syncytiotrophoblast of normal placenta. It was found in syncytiotrophoblast of complete and partial hydatidiform moles, whereas cytotrophoblast staining was weak. BCL-2 immunostaining was also barely detectable in choriocarcinoma cells (JEG-3 cells) and a primary choriocarcinoma. However, BCL-2 protein could be transiently overexpressed in JEG-3 cells by transfection with an expression plasmid. Western blot analysis revealed low levels of BCL-2 in JEG-3 cells and a rise in BCL-2 protein in placental extracts from 10 weeks' gestation to term. In contrast, p53 protein was abundant in JEG-3 cells and normal placenta at 10 weeks' gestation, but low at term, BCL-2 transcripts were substantially more abundant in term placenta than in JEG-3 cells. Treatment of JEG-3 cells with 8-Br-cAMP, which induces genes characteristic of the syncytiotrophoblast, raised BCL-2 protein approximately twofold, whereas p53 mRNA declined.

CONCLUSIONS

We conclude that: 1) There is a differentiation-dependent pattern of BCL-2 expression in the placenta, with the protein being most abundant in terminally differentiated trophoblast cells; 2) there appears to be an inverse relation between BCL-2 and p53 expression in trophoblast; and 3) cAMP regulates BCL-2 protein in trophoblast cells. We speculate that the expression of BCL-2 in terminally differentiated trophoblast cells, and hence resistance to apoptotic cell death, may be one mechanism by which trophoblast mass is preserved during pregnancy. Conversely, the relatively low expression of BCL-2 in choriocarcinoma cells may render them more susceptible to apoptosis.

Human immunodeficiency virus type 1 causes productive infection of macrophages in primary placental cell cultures

To characterize the role of the placenta in vertical transmission of human immunodeficiency virus type 1 (HIV-1), the susceptibility of primary human placental cultures and of transformed trophoblast cell lines to infection by several HIV-1 isolates was examined. Placental cultures supported the replication of all strains tested, including lymphocyte-, macrophage-, and amphotropic isolates. All viruses replicated to modest levels, with production of both viral antigen and infectious virus in the culture supernatants. Placental cells demonstrated a pattern of permissiveness for HIV-1 isolates distinct from that seen with lymphocytes, blood-derived macrophages, or T cell lines. Immunofluorescent staining showed that 5%-10% of the cultured placental cells expressed viral antigens, and double labeling revealed that the HIV-positive cells were macrophages not trophoblasts. None of the trophoblast cell line (JEG-3, Jar, BeWo, HP-W1) could be infected by HIV. These results support the hypothesis that infection of the placenta could play a role in maternofetal transmission of HIV-1 and suggest that the placental macrophage is likely to be the primary cell type responsible.

Assignment of sterol carrier protein X/sterol carrier protein 2 to 1p32 and its exclusion as the causative gene for infantile neuronal ceroid lipofuscinosis

In the positional cloning of a disease gene with an unknown protein defect a spectrum of molecular biological methods is applied after linkage has been established. It is reasonable to analyze in detail any relevant candidate gene mapping to the particular chromosomal region. We report here the refined chromosomal assignment of SCPx/SCP2, a gene coding for the protein that is believed to have an important role in lipid metabolism by transporting many kinds of lipid molecules between organelles. This gene represents an excellent candidate gene for infantile neuronal ceroid lipofuscinosis, earlier assigned to 1p32 by us, since lipid metabolism in the patient's brain appears to be significantly disturbed. Expression and structural analyses by Northern, Southern and Western blotting as well as SSCP and direct sequencing did not detect any differences between the cDNAs of patients and controls. Consequently, it is unlikely that a mutation in SCPx/SCP2 is the underlying cause of this severe neurodegenerative disease of childhood.

Expression of alpha 2-macroglobulin receptor/low density lipoprotein receptor-related protein and the 39-kd receptor-associated protein in human trophoblasts

The alpha 2-macroglobulin receptor/low density lipoprotein receptor-related protein (alpha 2MR/LRP) and its 39-kd receptor-associated protein (RAP) were identified by indirect immunofluorescence in human extravillous and villous trophoblast cells at different stages of pregnancy. The alpha 2MR/LRP was detected in invading trophoblast cells and in some instances these invading cells did not express RAP. In chorionic villi of first and second trimester placenta, alpha 2MR/LRP and RAP were found in cytotrophoblast and syncytiotrophoblast. With advancing pregnancy alpha 2MR/LRP became primarily localized to the apical surface of the syncytiotrophoblast, while RAP was present in the cytoplasm. Villous cytotrophoblast cells lost both proteins by the third trimester. Isolated cytotrophoblast cells that undergo spontaneous differentiation into syncytiotrophoblast in culture increased expression of both alpha 2MR/LRP and RAP. With syncytium formation, alpha 2MR/LRP became localized to the plasma membrane in cup-like structures. Changes in the mRNAs for alpha 2MR/LRP and RAP paralleled the changes in relative abundance of the proteins assessed by immunofluorescence. cAMP treatment suppressed both alpha 2MR/LRP and RAP in the cultured trophoblasts, but alpha 2MR/LRP was reduced to a greater extent than RAP. We conclude that alpha 2MR/LRP and RAP are developmentally regulated in human trophoblast cells, that the temporal and spatial patterns of expression of these proteins can be dissociated, and that cAMP modulates both alpha 2MR/LRP and RAP in human trophoblast. The patterns of alpha 2MR/LRP and RAP expression in trophoblast cells are consistent with roles for the receptor in trophoblast invasion and transport of molecules across the syncytiotrophoblast.

The human peripheral benzodiazepine receptor gene: cloning and characterization of alternative splicing in normal tissues and in a patient with congenital lipoid adrenal hyperplasia

The mitochondrial benzodiazepine receptor (mBzR) appears to be a key factor in the flow of cholesterol into mitochondria to permit the initiation of steroid hormone synthesis. The mBzR consists of three components; the 18-kDa component on the outer mitochondrial membrane appears to contain the benzodiazepine binding site, and is hence often termed the peripheral benzodiazepine receptor (PBR). Using a cloned human PBR cDNA as probe, we have cloned the human PBR gene. The 13-kb gene is divided into four exons, with exon 1 encoding only a short 5' untranslated segment. The 5' flanking DNA lacks TATA and CAAT boxes but contains a cluster of SP-1 binding sites, typical of "house-keeping" genes. The encoded PBR mRNA is alternately spliced into two forms: "authentic" PBR mRNA retains all four exons, while a short form termed PBR-S lacks exon 2. While PBR-S contains a 102-codon open reading frame with a typical initiator sequence, the reading frame differs from that of PBR, so that the encoded protein is unrelated to PBR. RT-PCR and RNase protection experiments confirm that both PBR and PBR-S are expressed in all tissues examined and that expression PBR-S is about 10 times the level of PBR. Expression of PBR cDNA in pCMV5 vectors transfected into COS-1 cells resulted in increased binding of [3H]PK11195, but expression of PBR-S did not. It has been speculated that patients with congenital lipoid adrenal hyperplasia, who cannot make any steroids, might have a genetic lesion in mBzR. RT-PCR analysis of testicular RNA from such a patient, sequencing of the cDNA, and blotting analysis of genomic DNA all indicate that the gene and mRNA for the PBR component of mBzR are normal in this disease.

Sterol carrier protein 2: a role in steroid hormone synthesis?

The intracellular movement of cholesterol is an important regulated step in the process of steroidogenesis. However, the molecular mechanisms by which cholesterol is translocated to key organelles, including the mitochondria, remains poorly understood. Lipid transfer proteins may have an important function in this process. One candidate lipid transfer protein is sterol carrier protein 2 (SCP2). This 13.2 kDa protein enhances the movement of cholesterol between vesicles and isolated mitochondria. It also stimulates mitochondrial pregnenolone synthesis. When introduced into intact cells, anti-SCP2 antibodies reduce steroid secretion. Moreover, expression of SCP2 in COS cells engineered to produce progestins increases steroid formation. SCP2 is abundant in steroidogenic glands and the pattern of SCP2 gene expression is consistent with a role for the protein in hormone synthesis: SCP2 transcripts are more prominent in the most steroidogenic compartments of the ovary and tropic hormones that stimulate steroidogenesis increase SCP2 gene expression. Other evidence that suggests that SCP2 plays important roles in cellular function includes a remarkable conservation of primary structure across species. The mechanisms by which SCP2 promotes intracellular sterol movement have not been elucidated. The protein appears to bind sterols and is synthesized with a 20 amino acid N-terminal "pro-" sequence that may serve to target SCP2 to mitochondria. In addition, the C-terminus of SCP2 contains a peroxisome-targeting sequence. SCP2 is derived from a large gene that encodes transcripts that are translated into larger proteins of 30 and 58 kDa. The 58 kDa protein, which has some structural homologies with thiolases, seems to be specifically targeted to peroxisomes whereas SCP2 has a broader subcellular distribution. The significance of the peroxisome association of SCP2 and steroidogenesis has not been disclosed. However, diseases of peroxisome function, including adrenoleukodystrophy and Zellweger syndrome, have notable deficits in steroid and bile acid metabolism, thus linking peroxisomes and steroidogenesis. SCP2 is deficient in fibroblasts of patients with these diseases.

The murine Niemann-Pick type C lesion affects testosterone production

We have determined the effects of the Niemann-Pick type C (NPC) lesion, which impairs transport of cholesterol from lysosomes, on the androgenic status of male NPC mice. The mice have low serum testosterone levels resulting from decreased testosterone secretion. Testosterone secretion is reduced in NPC mouse testes incubated with 8-bromo-cAMP, 20 alpha-hydroxycholesterol, and pregnenolone compared to testosterone release by normal mouse testes under identical conditions. Ultrastructural examination of testes revealed a paucity of lipid droplets, extensive accumulation of inclusion bodies, and distorted endoplasmic reticulum in Leydig cells of adult NPC mice. The hypoandrogenemia caused systemic deficiencies in NPC mice. Seminal vesicles, a testosterone-responsive tissue, were underdeveloped in NPC male mice. The testosterone-responsive kidney beta-glucuronidase activity was also underexpressed. Seminal vesicle mass and beta-glucuronidase activity were increased by testosterone treatment of NPC mice. Many hepatic proteins, identified by microsequencing, were also deficient in NPC male mice. Levels of alpha 2-mu-globulin, glutathione S-transferase-pi, carbonic anhydrase-III, and selenium-binding protein increased in normal male mice during puberty, but did not increase in the NPC male mice. Based on the increases in protein expression during puberty, differential expression in males and females, and the reported involvement of androgens in regulating expression of some of these proteins, deficient expression of most of these proteins in male NPC mice appears to result from low testosterone levels. We conclude that a defect in testicular testosterone production in NPC male mice causes a pleiotropic deficiency in androgen-sensitive expression of proteins in various organs.

Cloning of a cDNA encoding a putative human very low density lipoprotein/apolipoprotein E receptor and assignment of the gene to chromosome 9pter-p23

We report the cloning of a 3656-bp cDNA encoding a putative human very low density lipoprotein (VLDL)/apolipoprotein E (ApoE) receptor. The gene encoding this protein was mapped to chromosome 9pter-p23. Northern analysis of human RNA identified cognate mRNAs of 6.0 and 3.8 kb with most abundant expression in heart and skeletal muscle, followed by kidney, placenta, pancreas, and brain. The pattern of expression generally paralleled that of lipoprotein lipase mRNA but differed from that of the low density lipoprotein (LDL) receptor and the low density lipoprotein receptor-related protein/alpha 2-macroglobulin receptor (LRP), which are members of the same gene family. VLDL/ApoE receptor message was not detected in liver, whereas mRNAs for both LDL receptor and LRP were found in hepatic tissue. In mouse 3T3-L1 cells, VLDL/ApoE receptor mRNA was induced during the transformation of the cells into adipocytes. Expression was also detected in human choriocarcinoma cells, suggesting that at least part of the expression observed in placenta may be in trophoblasts, cells which would be exposed to maternal blood. Expression in brain may be related to high levels of ApoE expression in that organ, an observation of potential relevance to the recently hypothesized role for ApoE in late onset Alzheimer disease. Our results suggest that the putative VLDL/ApoE receptor could play a role in the uptake of triglyceride-rich lipoprotein particles by specific organs including striated and cardiac muscle and adipose tissue and in the transport of maternal lipids across the placenta. The findings presented here, together with recent observations from other laboratories, bring up the possibility that a single gene, the VLDL/ApoE receptor, may play a role in the pathogenesis of certain forms of atherosclerosis, Alzheimer disease, and obesity.

Chicken sterol carrier protein 2/sterol carrier protein x: cDNA cloning reveals evolutionary conservation of structure and regulated expression

The chicken is a useful model for studies of lipid biochemistry because of the profound changes in lipid metabolism during development and the marked effects of estrogen on its lipids. Here we report the cloning of a cDNA encoding chicken sterol carrier protein 2 (SCP2)/sterol carrier protein x (SCPx), proteins that are believed to play key roles in intracellular lipid movement and metabolism. The 2.4-kb clone, isolated from a liver cDNA library by homology screening with a rat SCP2 cDNA, encodes a 58-kDa polypeptide, SCPx, which encompasses the sequence for SCP2 at its C-terminus. Comparison of the deduced amino acid sequence of the chicken protein with those of mammals revealed conservation of structure from an evolutionary standpoint. Like the other vertebrate SCPx proteins, the chicken protein contains a conserved Arg-Gly-Asp sequence and a cysteine residue in the N-terminus that aligns with the active site cysteine of Escherichia coli 3-ketoacyl-CoA thiolase, a protein that was previously shown to be homologous to vertebrate SCPx. Northern blot analysis of poly(A)+ RNA from different chicken tissues revealed two mRNA species, one of 2.5 kb, encoding SCPx, and one of 1.4 kb, presumably encoding SCP2. High levels of the 2.5 and 1.4-kb mRNAs were found in liver, intestine, and ovarian granulosa cells, consistent with a role for these proteins in lipid metabolism. There was no change in the 2.5-kb mRNA in chicken liver with development (Day 20 embryo to 4 weeks posthatch), but there was a 10-fold increase in the 1.4-kb mRNA by 1 week posthatch. Treatment of roosters with a single injection of estradiol (25 mg/kg) caused a twofold increase in the 2.5-kb mRNA in liver at 6 h after estradiol administration, reaching a maximum fourfold increase at 48 h, while the 1.4-kb mRNA increased twofold at 48 h. The two SCP2/SCPx mRNAs were most abundant in granulosa cells from small follicles. A reduction in SCP2/SCPx gene expression was observed with follicular maturation, correlating with falling estrogen production. In summary, we have documented (i) marked conservation of SCP2/SCPx structure across species and (ii) developmental and hormonal regulation of the mRNAs which encode proteins thought to be involved in lipid metabolism.

D21S418E identifies a cAMP-regulated gene located on chromosome 21q22.3 that is expressed in placental syncytiotrophoblast and choriocarcinoma cells

A partial cDNA (D21S418E) whose nucleotide sequence has no significant homologies with known mammalian DNA sequences was isolated from a human placental library. The cDNA hybridized with a 10-kb transcript present in term placenta. Messages of 10 and 7.5 kb were induced in BeWo and JEG-3 choriocarcinoma cells by treatment with 8-Br-cAMP. The mRNA was not detected in human brain, liver, lung, kidney, pancreas, heart, skeletal muscle, or myometrium. The D21S418E locus was assigned to a 3.5-Mb region of chromosome 21q22.3.

Establishment of heterogeneity among blood vessels: hormone-influenced appearance of hepatic lipase in specific subsets of the ovarian microvasculature

We used biochemical and structural approaches to analyze the influence of gonadotropic hormones on the association of hepatic lipase with specific subsets of ovarian blood vessels. Western blotting was used to detect this enzyme in effluent collected from heparin-perfused ovaries of nonhormone-treated immature rats and those primed with pregnant mare's serum gonadotropin (PMSG) alone or in combination with human chorionic gonadotropin (hCG). The effects of these hormones on hepatic lipase distribution among ovarian blood vessels was assessed before and after hCG and/or PMSG treatment by immunofluorescence and immunogold cytochemistry. For the latter, immunoreagents and fixative were delivered directly to chilled, unfixed ovaries by in situ vascular perfusion. Data from biochemical and structural analyses indicated that hepatic lipase was absent from nonhormone-treated ovaries. As shown by Western blotting of ovarian effluent, the enzyme appeared following treatment with PMSG and PMSG-hCG; it increased in amount in a time-dependent manner, with a transient decline in the early hours after hCG injection. Enzyme levels paralleled growth and vascularization of follicles and corpora lutea; the fall tended to coincide with early events in luteal angiogenesis. Immunogold microscopy showed that hepatic lipase was abundant in thin-walled blood vessels of theca interna of follicles, corpora lutea, and interstitial cells but sparse in those of the stroma. Moreover, during neovascularization of differentiating corpora lutea, vascular sprouts arising from hepatic lipase-laden thecal vessels appeared to lose, then regain, the enzyme as development progressed. Our findings thus suggest 1) that hormones influence the establishment of endothelial cell heterogeneity within the microvasculature of a single organ and 2) that development of novel endothelial cell properties in specific subsets of blood vessels underlies compartmentalization of function within a tissue.

Expression of the mature and the pro-form of human sterol carrier protein 2 in Escherichia coli alters bacterial lipids

Sterol carrier protein 2 (SCP2) is a protein that is believed to be involved in the intracellular transport of cholesterol and phospholipids. Expression in mammalian COS cells of a cDNA encoding SCP2 revealed that the mature protein is synthesized as a pro-form containing a 20-residue amino-terminal leader sequence. The function of this presequence is currently not known, and pro-SCP2 is generally not detected in tissues. In order to obtain large quantities of pro-SCP2 as well as the mature form of human SCP2, Escherichia coli expression plasmids were constructed. Both proteins were produced in high yield (10-30% of the total cell protein) and were found in the supernatant fraction after cell lysis. Recombinant human SCP2 and pro-SCP2 were purified to homogeneity by acid precipitation followed by ion-exchange chromatography. Both recombinant human SCP2 and pro-SCP2 had sterol exchange activity similar to that seen with SCP2 purified from rat liver. In addition, the lipid content of SCP2- and pro-SCP2-producing E. coli was analyzed. Acidic lipids were significantly increased in the transfected cells. Specifically, fatty acids were increased 2-3-fold, phosphatidylglycerol was increased 2-fold, and lipid A was increased 3-4-fold, while neutral lipids were decreased 2-3-fold as compared to control cells. This alteration of the lipid composition of E. coli expressing SCP2 or pro-SCP2 is consistent with the proposed role for SCP2 in intracellular lipid movement.

Resection of a solid and papillary epithelial neoplasm of the pancreas following treatment with cis-platinum and 5-fluorouracil: a case report

A 15-year-old female was found at laparotomy to have an unresectable 15 cm solid and papillary epithelial neoplasm of the pancreas invading the superior mesenteric vein. The tumor regressed when treated with cis-platinum and 5-fluorouracil for 6 months leaving a 3.5 cm mass which was resected at reoperation. Response to chemotherapy has not been previously documented for this tumor histology and may contribute to the management of this locally invasive tumor.

Cellular events involved in hormonal control of receptor-mediated endocytosis: regulation occurs at multiple sites in the low density lipoprotein pathway, including steps beyond the receptor

We used biochemical and quantitative structural approaches to analyze hormonal regulation of receptor-mediated endocytosis of human low density lipoprotein (LDL) by differentiating rat granulosa cells in culture. We studied uptake and metabolism of 125I-labeled LDL and distribution of gold-labeled LDL in nontreated and FSH- or FSH/androstenedione-treated granulosa cells. FSH and androstenedione worked together to enlarge the segment of the granulosa cell population capable of accumulating LDL and to increase the number of LDL receptors at the cell surface. More importantly, FSH affected postreceptor aspects of the LDL pathway, including 1) accelerating the apparent rate of LDL internalization, and 2) decreasing the time needed for LDL to reach lysosomes. In both cases we eliminated the possibility that the observed effects merely reflected differences in receptor numbers between hormone-treated and nontreated cells. FSH also increased the number of both gold-labeled lysosomes per cellular profile and gold particles per lysosome. In all, FSH expanded the capacity of the LDL pathway to accommodate more intracellular ligand by augmenting the numbers of organelles participating in the endocytic process. However, it did not affect cell size, sizes of individual organelles comprising the LDL pathway, or numbers of gold particles per organelle (except lysosomes). Our findings indicate that hormonal regulation of the LDL pathway extends beyond simply causing expression of cell surface LDL receptors to encompass postreceptor events, including enhancing the apparent rates at which ligand is internalized and transported to lysosomes.

Oncogene-transformed granulosa cells as a model system for the study of steroidogenic processes

Highly steroidogenic granulosa cell lines were established by transfection of primary granulosa cells from preovulatory follicles with SV40 DNA and Ha-ras oncogene. Progesterone production in these cells was enhanced to levels comparable to normal steroidogenic cells, by prolonged (> 12 h) stimulation with 8-Br-cAMP, forskolin and cholera toxin, which elevate intracellular cAMP. The steroidogenic capacity of individual lines correlated with the expression of the ras oncogene product (p21) and the morphology of the cells. Formation of the steroid hormones was associated with de novo synthesis of the mitochondrial cytochrome P450scc system proteins. Since cholesterol import into mitochondria is essential for steroidogenesis, the expression of the peripheral benzodiazepine receptor (PBR) and the sterol carrier protein 2 was characterized in these cells. The induction of the expression of the genes coding for both proteins appeared to be mediated, at least in part, by cAMP. Stimulation of the PBR by specific agonists enhanced progesterone production in these cells. The phorbol ester 12-O-tetradecanoyl-phorbol 13-acetate (TPA) dramatically suppressed the cAMP-induced steroidogenesis, in spite of enhanced intracellular cAMP levels, suggesting that TPA can modify the effects of cAMP. cAMP stimulation suppressed growth of transformed cells concomitantly with induction of steroidogenesis. The transformed cells lacked receptors for the native stimulants, the gonadotropic hormones. After transfection of the cells with a lutropin (LH) receptor expression plasmid, the LH and hCG response was reconstituted. In these newly established cell lines gonadotropins were able to stimulate the formation of cAMP and progesterone in a dose-dependent manner with an ED₅₀ characteristic of the native receptor. High doses caused desensitization to gonadotropins as observed in normal cells. These newly established oncogene-transformed granulosa cell lines can serve as a useful model to study inducible steroidogenesis and the effect of oncogene expression on this process.

Regulated expression of the trophoblast alpha 2-macroglobulin receptor/low density lipoprotein receptor-related protein. Differentiation and cAMP modulate protein and mRNA levels

The alpha 2-macroglobulin receptor/low density lipoprotein receptor-related protein (alpha 2MR/LRP) has several ligands including activated alpha 2-macroglobulin, pregnancy zone protein, and very low density lipoproteins enriched with apolipoprotein E. The diversity of ligands suggests a role for the alpha 2MR/LRP in a variety of processes including tissue remodeling and lipoprotein metabolism. We examined alpha 2MR/LRP in placental trophoblasts, invasive cells that also function in lipid transport and cholesterol metabolism. alpha 2MR/LRP protein was localized by immunohistochemistry in the syncytiotrophoblast of term placenta. Cytotrophoblasts did not stain prominently. alpha 2MR/LRP (protein and message) in primary cultures of human trophoblast cells increased as cytotrophoblasts differentiated into syncytiotrophoblast. 8-Bromo-cAMP prevented this increase and suppressed alpha 2MR/LRP expression. The cyclic nucleotide had similar suppressive effects on alpha 2MR/LRP in BeWo choriocarcinoma cells. In contrast, low density lipoprotein receptor gene expression was increased. We conclude that: 1) there is a differentiation-dependent pattern of alpha 2MR/LRP expression in the human trophoblast; 2) cAMP negatively regulates alpha 2MR/LRP; 3) there is an inverse relationship between alpha 2MR/LRP and low density lipoprotein receptor gene expression in trophoblast cells.

Deficiencies in sex-regulated expression and levels of two hepatic sterol carrier proteins in a murine model of Niemann-Pick type C disease

Hepatic sterol carrier protein-2 (SCP2) and sterol carrier protein-X (SCPx) levels in normal and in mutant Niemann-Pick Type C mice were determined by immunoblotting with antiserum against rat SCP2. A 14-kDa protein (SCP2) was detected in the cytosol fraction and a 58-kDa protein (SCPx) was found in both cytosolic and organellar fractions. Expression of hepatic SCPx protein was developmentally regulated in a sex-specific pattern. The amounts of organelle-associated SCPx increased 4-fold during sexual development of normal males but decreased dramatically during development of normal females. Levels of hepatic SCP2 increased much less dramatically during sexual maturation of normal males and females. Adult Niemann-Pick Type C mice were deficient in both hepatic SCPx and SCP2. The deficit in SCPx in affected males reflected a failure to increase hepatic SCPx levels during sexual maturation. In affected males SCPx remained at levels found in immature mice. Affected male and female mice were also unable to maintain levels of hepatic SCP2. The level of SCP2 was near normal in affected immature males and subnormal in affected immature females. During sexual maturation hepatic SCP2 declined in affected animals.

The human "peripheral-type" benzodiazepine receptor: regional mapping of the gene and characterization of the receptor expressed from cDNA

A cDNA for the human "peripheral-type" benzodiazepine receptor (PBR) was isolated from a liver cDNA library. The 851-nucleotide probe hybridized with a approximately 1 kb mRNA in Northern blots of RNA extracted from various human tissues and cell lines. The human PBR probe was hybridized to DNA from a somatic cell hybrid mapping panel to determine that the gene maps to chromosome 22. With a regional mapping panel for chromosome 22, we localized the gene within band 22q13.31. The ligand-binding properties of the receptor expressed from the cDNA were examined in transient expression experiments and compared to the endogenous human PBR. The PBR ligand [3H]PK 11195 had high affinity for the expressed receptor in COS-1 cells, but the affinities of a pair of isoquinoline propanamide enantiomers differed remarkably in expressed and endogenous human PBR. These findings reveal that the host cell and/or post-translational modification may have an important influence on PBR function.