The impact of passive immunisation against BMPRIB and BMP4 on follicle development and ovulation in mice.

The primordial follicle reserve is the corner stone of female fertility and determines the longevity and quality of reproduction. Complete depletion of this reserve will lead to primary infertility, and the key-limiting step of follicle depletion is the transition from primordial to primary follicles. It has been reported that this process is gonadotrophin-independent, but other conflicting reports are indicated otherwise and this discrepancy needs to be unequivocally clarified. The aim of this study was to investigate the role of bone morphogenetic proteins (BMPs) in the regulation of folliculogenesis in mice passively immunised against BMP receptor 1B (BMPRIB) and BMP4. While a stereological study revealed that the numbers of primordial follicles in immunised mice were significantly higher when compared with control animals, treatment with equine chorionic gonadotrophin showed no effect. In parallel, immunofluorescence microscopy revealed the presence of BMPRIB but not FSH receptor in primordial follicles. The number of primary follicles in immunised mice were also significantly increased when compared with control animals. After puberty, the rates of depletion of primordial and primary follicles were increased with age, particularly in treated animals; however, there was no significant difference between the treatment groups of the same age. Based on these results together with our previous reports in sheep and mice, we confirm that the attenuation of BMP signalling system can be an effective approach to sustain the primordial follicle reserve while promoting the development of growing follicles, ovulation and consequently overall female fertility.

A direct action for GH in improvement of oocyte quality in poor-responder patients.

Declining female fecundity at later age and the increasing tendency for women to delay childbirth have lead to a drastic rise in the number of women seeking assisted reproductive technology. Many women fail to respond adequately to standard ovarian stimulation regimens, raising a significant therapeutic challenge. Recently, we have demonstrated that the administration of GH, as an adjunct to ovarian stimulation, has improved the clinical outcomes by enhancing the oocyte quality. However, the mechanism(s) by which GH facilitated this improvement is yet to be understood. This study aimed to determine these potential mechanism(s) through the use of immunofluorescent localisation of GH receptors (GHRs) on the human oocyte and unbiased computer-based quantification to assess and compare oocyte quality between women of varying ages, with or without GH treatment. This study demonstrates for the first time, the presence of GHRs on the human oocyte. The oocytes retrieved from older women showed significant decrease in the expression of GHRs and amount of functional mitochondria when compared with those from younger patients. More interestingly, when older patients were treated with GH, a significant increase in functional mitochondria was observed in their oocytes. We conclude that GH exerts a direct mode of action, enabling the improvement of oocyte quality observed in our previous study, via the upregulation of its own receptors and enhancement of mitochondrial activity. This result, together with recent observations, provides scientific evidence in support of the use of GH supplementation for the clinical management of poor ovarian response.

Optimising vitrification of human oocytes using multiple cryoprotectants and morphological and functional assessment.

Oocyte vitrification is a clinical practice that allows preservation of fertility potential in women. Vitrification involves quick cooling using high concentrations of cryoprotectants to minimise freezing injuries. However, high concentrations of cryoprotectants have detrimental effects on oocyte quality and eventually the offspring. In addition, current assessment of oocyte quality after vitrification is commonly based only on the morphological appearance of the oocyte, raising concerns regarding its efficiency. Using both morphological and functional assessments, the present study investigated whether combinations of cryoprotectants at lower individual concentrations result in better cryosurvival rates than single cryoprotectants at higher concentrations. Surplus oocytes from IVF patients were vitrified within 24h after retrieval using the Cryotop method with several cryoprotectants, either individually or in combination. The morphological and functional quality of the vitrified oocytes was investigated using light microscopy and computer-based quantification of mitochondrial integrity, respectively. Oocyte quality was significantly higher using a combination of cryoprotectants than vitrification with individual cryoprotectants. In addition, the quality of vitrified oocyte varied depending on the cryoprotectants and type of combination used. The results of the present study indicate that observations based purely on the morphological appearance of the oocyte to assess the cryosurvival rate are insufficient and sometimes misleading. The outcome will have a significant implication in the area of human oocyte cryopreservation as an important approach for fertility preservation.

Changes in ovarian follistatin levels during the oestrous cycle in sheep may serve as an intraovarian regulator.

The expression and concentration of follistatin and activin change during oestrous cycle suggesting their involvement in the regulation of follicular development. The aim of this study was to determine the level, source and potential role of follistatin in the sheep ovary. Follistatin in ovarian venous blood, measured by radioimmunoassay, remained at its low level from follicular phase (day -1 and 0) to mid-luteal phase (days 11-13) phase but were significantly elevated during the late luteal phase (days 14 and 15) when corpora lutea underwent regression. Western blot analyses of follicular fluid at day 15 of the cycle showed two strong bands at 42 and 45 kDa and weakly stained bands at 39 and 31 kDa. At day 0, these bands became weaker and the 39 kDa band became undetectable. However, there were no differences in follistatin concentrations between ovaries with and without functional corpus luteum (CL) during the whole luteal phase. In addition, although the ovaries of Booroola ewes normally contain more corpora lutea than those of normal merino ewes, follistatin concentrations in both jugular and ovarian venous blood were similar in Booroola and normal merino ewes. It is concluded that the secretion of follistatin from the ovary is not related to the formation of CL or high ovulation rate of Booroola ewes. The elevation in follistatin concentration in follicular fluid and ovarian blood during late luteal phase may indicate a dual role of follistatin in the luteolysis of existing CL and development of new follicle cohort.

Early prostate development and its association with late-life prostate disease.

The development of the prostate is an emerging priority area for prostate biologists. Early changes in prostate development permanently alter prostate morphology and function and an understanding of the permanent nature of early events that may influence the onset of late-life disease is vital. Two of the inherent problems involve associating exposure in early life with outcome in late life or maturity and accounting for the influence of genetic, environmental, dietary or metabolic factors during the intervening period. Any one of these factors, alone or in combination, might lead to an explanation of the discrepancies found in the literature regarding the influence of early changes to the prostate in later life. Therefore, it is important to establish a causal link between the hormonal changes that occur during the fetal/neonatal period and that imprint the gland and the onset of late-life pathology. In order to achieve this goal, several technical challenges need to be overcome to permit the objective assessment of prostate branching morphogenesis. Stereological techniques now allow the quantification of several parameters of branching morphogenesis and the identification of specific early changes that are permanent and irreversible with a late-life outcome. This methodology provides the means to determine the action of a range of genes or hormone/growth factors that have been implicated in prostate development and disease.

The mechanism of action of epidermal growth factor and transforming growth factor alpha on aromatase activity in granulosa cells from polycystic ovaries.

We investigated aromatization and the mechanism of action of epidermal growth factor (EGF) and transforming growth factor alpha (TGFalpha) on oestradiol biosynthesis in freshly prepared granulosa cells from polycystic ovaries. Freshly prepared granulosa cells from polycystic ovaries incubated for only 3 h under basal conditions secreted significantly (P< 0.001) greater amounts of oestradiol-17beta than that of granulosa cells from normal ovaries. 8-Bromo-cyclic adenosine monophosphate (8-Br-cAMP), but not follicle stimulating hormone (FSH) or luteinizing hormone (LH), further enhanced this activity. Both EGF and TGFalpha inhibited gonadotrophinor 8-Br-cAMP-stimulated, but not basal, oestradiol production. LH receptor (LHR) binding, estimated by immunolabelling the bound LH, was significantly (P< 0.001) reduced in granulosa cells from polycystic ovaries when compared with cells from normal ovaries. EGF or TGFalpha significantly reduced the binding in cultured cells from all patient groups (P< 0.05). More interestingly, a further increase of the inhibitory effect was seen in granulosa cells from polycystic ovaries (P < 0.001). In conclusion, granulosa cells from polycystic ovaries contain high levels of basal aromatase activity in vitro, which is probably inherited from the in-vivo condition. EGF and TGFalpha suppress oestradiol synthesis at a step beyond the production of cAMP and also LHR binding with more effect in granulosa cells from polycystic ovaries.

Isolation and characterization of rat sperm tail outer dense fibres and comparison with rabbit and human spermatozoa using a polyclonal antiserum.

Rat outer dense fibres were isolated from cauda epididymal spermatozoa using mechanical and chemical dissection methods. Sperm tail isolation procedures were monitored by phase-contrast microscopy and the purity of the outer dense fibres was verified by electron microscopy. SDS-PAGE of isolated outer dense fibres revealed at least nine Coomassie brilliant blue stained bands, and 12 silver staining bands. The most abundant proteins were a large band between 26.5 and 32.5 kDa, and 84 kDa, 21.5 kDa and 15.5 kDa bands. The amino acid composition of the total rat outer dense fibres and seven isolated proteins showed similar compositions, being abundant in aspartic and glutamic acid, serine, glycine and leucine. However, the content of cysteine and proline was highly variable among the isolated proteins. Immunofluorescence microscopy demonstrated that a polyclonal antiserum to isolated rat outer dense fibres showed positive staining localized to the mid-piece of rat and rabbit spermatozoa. However, there was crossreactivity in the principal piece as well as the mid-piece of the human spermatozoa. The antiserum also showed crossreactivity in the perforatorium of rat sperm heads and the acrosome and equatorial segment of rabbit sperm heads. These data indicate that it is technically possible to isolate proteins from the outer dense fibres that will enable further studies of the amino acid sequences of sperm tail proteins.

Hyperexpression of epidermal growth factor receptors in granulosa cells from women with polycystic ovary syndrome.

OBJECTIVE: To compare the localization and quantitation of epidermal growth factor (EGF) receptor in granulosa cells from women with normal and polycystic ovaries. DESIGN: Controlled, comparative study. SETTING: Academic research laboratory. PATIENT(S): Forty-two women with normal or polycystic ovaries who attended our facility for the recovery of their immature or mature oocytes or for therapeutic purposes. INTERVENTION(S): Patients underwent intravaginal ultrasound-guided oocyte retrieval or laparoscopic follicular aspiration with or without prior stimulation. MAIN OUTCOME MEASURE(S): Quantitation of EGF receptor in granulosa cells. RESULT(S): Granulosa cells from polycystic ovaries expressed significantly higher levels of EGF receptor than granulosa cells from normal ovaries. In contrast with patients who were treated with clomiphene citrate, those who were treated with gonadotropins showed low levels of the receptor. However, the levels of the receptor in granulosa cells were not correlated with circulating levels of LH, FSH, progesterone, or E2. Immunolabeling of EGF receptor was confined to the cell membrane of granulosa cells. This receptor was fully functional, mediating the ligand-induced inhibition of E2 production in culture. CONCLUSION(S): These results provide further evidence supporting a possible role of EGF/transforming growth factor-alpha in the aberration of ovarian function in polycystic ovary syndrome.

Roles of microfilaments and intermediate filaments in adrenal steroidogenesis.

The problem for the steroidogenic cell if it is to accelerate steroid synthesis in response to trophic stimulation, consists in moving cholesterol from the sites of synthesis and storage to mitochondria at an accelerated rate. The most intensely studied situation is that in which the sterol is stored as ester in lipid droplets. Cholesterol ester must be de-esterified and transported to mitochondria where steroid synthesis begins. Since droplets and mitochondria are now known to be attached to intermediate filaments and since these structures are not contractile, it appears to be necessary to invoke the actions of other cytoskeletal elements. Actin microfilaments are involved in cholesterol transport so that it is tempting to propose that the contractile properties of actomyosin are used in this process. It is known that an energy-dependent contractile process involving actin is capable of disrupting intermediate filaments. Since the intermediate filaments appear to act by keeping lipid droplets and mitochondria apart, disruption of the filaments accompanied by a contractile process would be expected to allow these two structures to come together. This would open the way for the transfer of cholesterol to the steroidogenic pathway. This should be regarded as a first step. The events necessary for entry of cholesterol from droplets into the mitochondria remain to be clarified. In addition, the transport process for newly synthesized cholesterol that is not stored in droplets, is still not understood. At least four protein kinase enzymes have been identified in the cytoskeletons of adrenal cells, namely, Ca2+/calmodulin-dependent kinase, protein kinase (Ca2+ and phospholipid-dependent), myosin light chain kinase, and protein kinase A (cyclic AMP-dependent). The Ca2+/calmodulin kinase promotes transport of cholesterol to mitochondria and does so under conditions in which phosphorylation of vimentin and myosin light chain occurs. Phosphorylation of vimentin results in disruption of intermediate filaments while phosphorylation of light chain promotes contraction of the actomyosin ring. It now appears that intermediate filaments are cross-linked by actin filaments so that such contraction would be expected to produce significant structural changes in the cytoskeleton and the attached organelles. Although the details of the changes taking place in the organ in vivo are not known, the potential for interaction between droplets and mitochondria as the result of these changes in intermediate filaments and actomyosin, is clear. Protein kinase C is activated by ACTH and cyclic AMP, although this activation does not appear to be directly involved in the regulation of steroid synthesis. Nevertheless, vimentin is a substrate for this enzyme, and changes in the organisation of vimentin filaments and the attached organelles under the influence of protein kinase C have been reported in other cells. Presumably these changes represent part of the response to ACTH because when protein kinase C is activated by phorbol ester, the cytoskeletal changes necessary for rounding up take place but such changes are not accompanied by increased steroid synthesis. Protein kinase A causes rounding of adrenal cells. and cytoskeletons. This kinase also causes increased cholesterol transport and, hence, stimulation of steroid synthesis. The enzyme also causes phosphorylation of vimentin but with a different cytoskeletal reorganisation from that seen with the other three kinase enzymes. Clearly phosphorylation plays a major role in these responses. Phosphorylation alters the morphology and the functions of the cytoskeleton and this, in turn, is associated with accelerated cholesterol transport. It is now necessary to define the details of the specific phosphorylation reactions that occur during the response to ACTH, that is, which amino acids are phosphorylated and to what extent by each of the kinase enzymes.

Functional integrity of granulosa cells from polycystic ovaries.

OBJECTIVE: The polycystic ovarian syndrome is frequently associated with human infertility and is a partially characterized syndrome of unknown aetiology. The aim of this study was to describe the functional integrity of granulosa cells from polycystic ovaries. PATIENTS: Follicular aspirates were collected from polycystic ovaries of ovulatory (n = 24) and anovulatory (n = 7) patients. Follicular aspirates were also collected from normal ovaries of untreated (n = 24) and superovulated (n = 10) subjects. All patients were enrolled for the recovery of their oocytes for in vitro maturation and fertilization. MEASUREMENTS: FSH receptors and apoptosis were measured in the granulosa cells of the different patients. FSH-stimulated oestradiol and LH-stimulated progesterone production by granulosa cells of the different patients were also measured. RESULTS: The binding of 125I-labelled human recombinant FSH to granulosa cells from anovulatory subjects with polycystic ovaries was significantly higher than that found in granulosa cells from normal (180%) and superovulated (163%) ovaries. However, the ligand binding to granulosa cells from ovulatory subjects with polycystic ovaries was not significantly higher than that found in normal granulosa cells. Also, granulosa cells obtained from anovulatory subjects with polycystic ovaries cultured with FSH produced more oestradiol than normal granulosa cells but oestradiol production was similar to that of granulosa cells from superovulated ovaries (mean +/- SEM, 224.94 +/- 22.02, 24.23 +/- 2.92, 211.87 +/- 50.39 nmol/l/24 h, respectively). Flow cytometric analysis showed that the proportions of viable and apoptotic granulosa cells (mean +/- SDM, 70 +/- 5 and 7 +/- 1%, respectively) were similar in normal subjects and in those with polycystic ovaries. CONCLUSION: We conclude that most of the granulosa cells of polycystic ovaries are healthy and non-apoptotic, expressing high levels of FSH receptors and highly responsive to this hormone in culture. These data provide direct evidence that most of the follicles of polycystic ovaries are not atretic.

Effects of epidermal growth factor, transforming growth factor alpha and androstenedione on follicular growth and aromatization in culture.

The effects of epidermal growth factor (EGF), transforming growth factor alpha (TGF alpha) and androstenedione on follicular growth and oestradiol production were studied in cultured mouse preantral follicles. Cultured follicles in the control group showed growth and steroidogenic capacities up to the antral follicle stage at day 4 of culture. However, many of these follicles failed to resume their growth during the culture. Increasing concentrations of EGF and TGF alpha decreased the number of follicles reaching the large antral stage at day 4 of culture. All treatments with EGF, TGF alpha and androstenedione caused significant inhibitions in both follicular growth and oestradiol production, regardless of the dose used (1-20 ng/ml). Moreover, no synergistic effect between androstenedione and either of the two growth factors was observed. These results suggest that EGF, TGF alpha and/or androstenedione may play important roles in the modulation of gonadotrophin-controlled ovarian function. The effects observed in this study suggest that the aberration in the regulation of these growth factors may result in the creation and maintenance of certain ovarian disorders, such as the polycystic ovarian disease.

Adhesion of intermediate filaments and lipid droplets in adrenal cells studied by field emission scanning electron microscopy.

High-resolution field emission scanning electron microscopy was used to study the organisation of intermediate filaments around lipid droplets and their binding to these droplets, in primary culture of bovine adrenal cells. Whole-mount preparations of intermediate filaments and bound lipid droplets were prepared from cells grown on Formvar-coated grids and processed by freeze-drying. Intermediate filaments were seen as an interconnected network enveloping the entire droplet. The bound filaments appear to be directly adherent to the surface of the droplet and hence take on its curved contour. The binding of the filaments to the droplets was determined by means of tilting. This study provides a new approach to investigate the cytoskeleton and its associated structures with high-resolution three-dimensional images.

Isolation and partial characterization of rat sperm tail fibrous sheath proteins and comparison with rabbit and human spermatozoa using a polyclonal antiserum.

Rat sperm tail fibrous sheath was isolated using mechanical and chemical dissection methods from spermatozoa collected from the cauda epididymis. The procedures used to isolate the fibrous sheath were monitored by phase-contrast microscopy and purity was verified by electron microscopy. SDS-PAGE of isolated total fibrous sheath revealed at least 17 bands when stained with Coomassie brilliant blue and 20 bands with silver stain. The most intensely staining proteins, using both staining methods, were a double band at 80-87 kDa, and a band at 28.5 kDa, whereas with silver staining, bands at 66.2 kDa and kDa were also intensely stained. Electroelution following SDS-PAGE was used to isolate 11 of these proteins (116.4, 87.5, 80.9, 66.2, 57.2, 49.7, 46.8, 37.3, 32.7, 28.5 and 15.5 kDa). Amino acid analysis revealed that these proteins were abundant in aspartic and glutamic acid, glycine, serine and leucine, while histidine and phenylalanine were of low abundance. The content of cystine varied widely from 9.4% to 1.4%. The amino termini of the 80.9 kDa, 32.7 kDa, 28.5 kDa and 15.5 kDa proteins were blocked. Immunofluorescence microscopy demonstrated that a polyclonal antiserum to isolated rat fibrous sheath was localized to the principal piece of the rat, rabbit and human spermatozoa, but in the rabbit it also labelled the equatorial region of the head. Western blotting detected all protein bands in isolated fibrous sheath and a similar range of proteins in the spermatozoa of rat and rabbit.(ABSTRACT TRUNCATED AT 250 WORDS)

Calcium/calmodulin induces phosphorylation of vimentin and myosin light chain and cell rounding in cultured adrenal cells.

In previous reports on adrenal cells we have shown that calcium/calmodulin regulates cholesterol transport to mitochondria and induces phosphorylation of cytoskeleton homogenates. In this study, we have used bovine fasciculata cells permeabilized in situ to identify the phosphorylated proteins and to investigate the manner in which the cytoskeleton components may act together in any subsequent reorganization of the cell. The main cytoskeletal proteins namely vimentin, tubulin, actin, and the associated protein myosin light chain were identified on polyacrylamide gel electrophoresis by their molecular weights and by Western blotting using affinity-purified monoclonal antibodies. In permeabilized cells, calcium/calmodulin promoted phosphorylation of vimentin and myosin light chain within the first 10 min. When incubation time was extended in the presence of 1 mM non-radiolabeled ATP, cell contraction was seen after 15 min. Immunofluorescent microscopy showed that actin microfilaments and myosin light chain displayed a similar pattern of distribution which indicates the actomyosin. Electron microscopy revealed the actomyosin as a dense ring around the cell beneath the plasma membrane. Intermediate filaments (10 nm) were seen within this ring which gave rise to a mixed network in which microfilaments appeared to interconnect intermediate filaments. Immunogold electron microscopy revealed that the 10-nm filaments, found within the actomyosin ring, are vimentin intermediate filaments. It is proposed that calcium/calmodulin causes phosphorylation of the myosin light chain which triggers contraction, and this process involves the intermediate filament protein vimentin. The redistribution of the cytoskeleton and hence the cell rounding is due, in part to the interconnection between vimentin intermediate filaments and actin microfilaments.(ABSTRACT TRUNCATED AT 250 WORDS)

Binding of lipid droplets and mitochondria to intermediate filaments in rat Leydig cells.

We have examined the distribution of lipid droplets and mitochondria in relation to the cytoskeletons of Leydig cells in primary culture by using light and electron microscopy on living, intact and detergent-extracted cells. After mild extraction with Triton X-100 lipid droplets and mitochondria retained their original distribution within the cell. Double immunofluorescent microscopy showed that both structures co-localise with intermediate filaments. Transmission electron microscopy of intact (unextracted) and mildly extracted Leydig cells showed that intermediate filaments are closely associated with mitochondria and lipid droplets. By examination of stereo pairs, intermediate filaments were shown to establish direct contact with mitochondria and lipid droplets. The association of droplets and mitochondria with intermediate filaments suggests possible mechanisms by which the transport of cholesterol takes place from droplets to mitochondria where this substrate enters the steroidogenic pathway.

Indirect immunofluorescence modified to display two antigens with one light filter.

We present a modification of double indirect immunofluorescence in which we used four antibodies raised in three species to visualize two different antigens. The procedure, which relies on dual recognition of a secondary antibody, requires that one primary antibody and one of the secondary antibodies be raised in the same species. As the two secondary antibodies are conjugated to two different fluorochromes, both of the antigens studied are visualized with one light filter while only one antigen is displayed with another filter. This, in turn, allows more efficient comparison of the distribution of the two antigens in a single field or photograph than is possible by comparing two fields or photographs by conventional double staining. The method is especially useful for determining possible co-localization of two cellular structures. We illustrate the method in adrenal cells in which mitochondria and intermediate filaments are seen to be co-localized.

Attachment of mitochondria to intermediate filaments in adrenal cells: relevance to the regulation of steroid synthesis.

The rate of steroid synthesis is regulated by the rate of transport of cholesterol from lipid droplets to mitochondria. We have previously demonstrated that lipid droplets in adrenal cells are tightly attached to intermediate filaments. Here we now show that mitochondria colocalize with intermediate filaments in modified double indirect immunofluorescence and by electron microscopy of extracted adrenal cells. Direct contact between mitochondria and intermediate filaments was established by examination of stereo pairs of electron micrographs from extracted cells. The attachment of both droplets and mitochondria to intermediate filaments suggests possible mechanisms for this form of intracellular transport of cholesterol to mitochondria and hence for the regulation of steroid synthesis.

Attachment of steroidogenic lipid droplets to intermediate filaments in adrenal cells.

Light microscopy of living and extracted adrenal cells (Y-1 mouse adrenal tumour cells and cultured bovine fasciculata cells), using Nomarski optics and fluorescence with nile red to stain lipid, revealed in both cell types that lipid droplets remain attached to intermediate filaments when the cells are extracted to prepare these structures. Electron microscopy of thin sections shows the presence of lipid droplets in both cell types. The droplets differ in appearance but are, in both cases, surrounded by a complete capsule 5 nm wide. The droplets in Y-1 cells include those associated with lysosomes and crystalline structures in addition to typical rounded forms. Only the latter type is seen in bovine fasciculata. Intermediate filaments apparently ending in droplets can also be seen. Immunoelectron microscopy with anti-vimentin and Protein A conjugated to gold particles together with measurement of the diameter of these structures identifies them as intermediate filaments. When adrenal cells are permeabilised and extracted under mild or severe conditions using Triton X-100, thin sections showed that lipid droplets remain associated with the cytoskeleton and in particular intermediate filaments. Extraction under mild and severe conditions cleared the cell contents, revealing attachment of intermediate filaments to lipid droplets with greater clarity than in unextracted cells, i.e. homogenised cells or cells subjected to lysis. Such attachment was unequivocally demonstrated in stereo pairs. These observations support our earlier studies showing attachment of droplets to intermediate filaments, which suggests a role for these filaments in intracellular transport of cholesterol.

The role of the cytoskeleton in the regulation of steroidogenesis.

The slow step in steroid synthesis involves the transport of cholesterol from lipid droplets in the cytoplasm to the first enzyme in the pathway-the cytochrome P450 that converts cholesterol to pregnenolone (P450scc) which is located in the inner mitochondrial membrane. ACTH stimulates this intracellular transport of cholesterol in adrenal cells (Y-1 mouse adrenal tumour cells and cultured bovine fasciculata cells) and this effect of the trophic hormone is inhibited by cytochalasins, by anti-actin antibodies and DNase I suggesting that the response to ACTH requires a pool of monomeric (G-) actin that can be polymerized to F-actin. Recent studies have shown that lipid droplets and mitochondria of adrenal cells are both attached to intermediate filaments. Moreover ACTH reorganizes the cytoskeleton and changes the shape of the cell. These observations suggest a mechanism for transport of cholesterol that involves reorganization and contraction of actin microfilaments which may, in turn, cause movement of droplets and mitochondria together through their common attachment to intermediate filaments.

The role of intermediate filaments in adrenal steroidogenesis.

Cholesterol is stored in adrenal cells as ester in lipid droplets, which are transported to mitochondria to provide a substrate for steroid hormone synthesis. Using mouse adrenal tumour cells (Y-1), we show here that approximately 33% of the adrenal cell cholesterol ester is bound tightly to intermediate filaments while the rest is either loosely attached or free in the cytosol. Specific binding of droplets to intermediate filaments was demonstrated by immunofluorescence and electron microscopy. Immunofluorescence was based upon Nile Red to stain lipid and antibodies to vimentin, actin and tubulin. Electron microscopy, including immunoelectron microscopy with protein A conjugated to gold particles (5 nm), was used to examine whole mounts of cytoskeletons and intermediate filaments. Immunofluorescence reveals that bound droplets are surrounded by a capsule containing vimentin and can be removed from the filaments by extraction with ethanol or 6 M urea. Negative staining of the urea extracts revealed isolated droplets. To the extent that cholesterol ester is the storage form of steroidogenic cholesterol, the knowledge that lipid droplets containing such esters are attached to intermediate filaments may prove important in unravelling the complex process of the transport of cholesterol to mitochondria.