Synthesis of ubiquinone and cholesterol in human fibroblasts: regulation of a branched pathway.

The current studies demonstrate that cultured human flbroblasts utilize mevalonate for the synthesis of ubiquinone-10 as well as for the synthesis of cholesterol. Study of the regulation of this branched pathway was facilitated by incubating the cells with compactin (ML-236B), a competitive inhibitor of 3-hydroxy-3-methylglutaryI coenzyme A reductase, which blocked the formation of mevalonate within the cell. The addition of known amounts of [³H]mevalonate to the culture medium in the presence of compactin permitted the study of the relative rates of mevalonate incorporation into cholesterol and ubiquinone-10 under controlled conditions. When low concentrations of exogenous [³H]mevalonate (10 to 50 μm) were added to cells that were provided with exogenous cholesterol in the form of plasma low density lipoprotein (LDL), the cells incorporated the [³H]mevalonate into ubiquinone-10 at a rate that was two- to threefold faster than the incorporation into cholesterol. When the cells were deprived of exogenous LDL-cholesterol, the incorporation of [³H]mevalonate into ubiquinone-10 decreased and the incorporation of [³H]mevalonate into cholesterol increased. As a result, in the absence of exogenous cholesterol more than 60 times as much [³H]mevalonate was incorporated into cholesterol as into ubiquinone-10. Considered together with previous findings, the current data are compatible with a regulatory mechanism in which LDL inhibits cholesterol synthesis in fibroblasts at two points: (1) at the level of 3-hydroxy-3-methylglutaryl coenzyme A reductase, thereby inhibiting mevalonate synthesis, and (2) at one or more points distal to the last intermediate common to the cholesterol and ubiquinone-10 biosynthetic pathways. The latter inhibition allows ubiquinone-10 synthesis to continue in the presence of LDL despite a 98% reduction in mevalonate synthesis.     

Disposition of intracellular cholesterol in human fibroblasts

We have examined the intracellular distribution of unesterified cholesterol in cultured human fibroblasts. Intact cells were treated with cholesterol oxidase to selectively transform cell surface cholesterol to cholestenone. Isopycnic centrifugation of homogenates showed that the cholestenone had a peak buoyant density of 1.13 g/cm3. The approximately 10% of total cholesterol which remained unoxidized was distributed in two peaks of roughly equal size: a sharp peak at approximately 1.09 g/cm3 and a broad peak centered at 1.18 g/cm3. When intact cells were incubated with exogenous [3H]cholesterol, the radiolabel entered the nonoxidizable pool in a temperature-dependent fashion with a half time of 3 h at 37 degrees C. This label initially was associated with the dense but not the buoyant peak of nonoxidized cholesterol. After 40 h, the buoyant peak also became labeled; both peaks then had a specific activity slightly less than the surface cholestenone. The buoyant density of the unoxidized cholesterol did not coincide with markers for the Golgi apparatus, endoplasmic reticulum, or lysosomes. However, two ingested markers of pinocytosis, calcein and horseradish peroxidase, comigrated with the dense peak of unoxidized cholesterol. That the size of the unoxidized cholesterol pool was greater in cells deprived of serum lipoproteins than in fed cells suggested that none of the intracellular cholesterol need be ascribed to ingested sterols. The mass of unoxidizable cholesterol was not diminished when cholesterol biosynthesis was inhibited by lovastatin in lipoprotein-deprived cells. Furthermore, the newly synthesized radiolabeled cholesterol resistant to cholesterol oxidase did not migrate with intracellular cholesterol mass on sucrose density gradients. The newly synthesized cholesterol amounted to about 10% of the total unoxidized sterol. These data indicate that most of the intracellular cholesterol was not newly synthesized. We conclude that a) approximately 90% of fibroblast cholesterol is associated with the cell surface; b) the bulk of intracellular cholesterol, approximately 10% of total, is derived from internalized (endocytic) plasma membrane; and c) the most recently synthesized cholesterol, approximately 1% of the total, is in a discrete organelle.     

Hyaluronic acid-specific regulation of cytokines by human uterine fibroblasts

The physiological inflammatory response can provide an effectivemechanism for delivering the baby at the time of parturition. Wecharacterized the mechanisms by which hyaluronic acid (HA) regulatesinterleukin-1 (IL-1), tumor necrosis factor- (TNF-), andinterleukin-8 (IL-8) production in human uterine fibroblasts. Adose-dependent increase in cytokine release was observed over an HAconcentration range of 10 µg/ml to 1 mg/ml. The action of HA on thecytokine production is mediated by CD44. Under serum-free conditions,HA-induced cytokine generation was significantly less compared withproduction in the presence of serum, suggesting involvement of serumproteins. Addition of inter--trypsin inhibitor (ITI) underserum-free conditions enhanced the HA-induced synthesis of TNF-,which stimulated the temporary release of IL-8. In addition, HA andIL-1 stimulated the release of hyaluronidase by the fibroblasts. These results indicate that cytokine production in human uterine fibroblasts is regulated in a CD44-HA-ITI-specific fashion. HA may beinvolved in the regulation of delivery in part through the selectiverelease of cytokines that contribute to uterine cervical ripening.

     

Inhibition of human fibroblasts sphingomyelinase by cholesterol and 7-dehydrocholesterol

An inhibition of human fibroblast sphingomyelinase by cholesterol and 7-dehydrocholesterol is shown. This effect is obtained for cholesterol and 7-dehydrocholesterol/sphingomyelin molar ratios above 0.1. Diffusion measurements performed on mixed liposomes demonstrated for cholesterol/sphingomyelin and 7-dehydrocholesterol/sphingomyelin molar ratios above 0.1 a sharp increase in diffusion intensity. The mechanism of the inhibition of sphingomyelinase by sterols is discussed in relation to the physical state of the substrate. A possible involvement of this phenomenon in sphingomyelin accumulation observed in aging or in atheroma is discussed.     

Hyaluronan uptake by adult human skin fibroblasts in vitro

Low and high molecular weight hyaluronan (HA) was added to adult human fibroblasts grown in monolayer to assess its influence on CD44 expression, its internalisation and effect on cell growth. CD44 expression on the surface of in vitro fibroblasts was not modified by different concentrations of FCS, whereas it was sensitive to cell cycle, being higher in the growing than in the resting phase. Independently from molecular weight, upon addition of exogenous HA (from 0.1 up to 1 mg/mL) to fibroblasts in the growing phase, a slight but constant decrease of the expression of CD44 on the surface of fibroblasts was observed; moreover, HA induced a rearrangement of CD44 into patches in close relationship with the terminal regions of stress fibers, which became thicker and more rigid after a few hours from the addition of HA to the medium. Fluorescent HA, added to the culture medium, rapidly attached to the plasma membrane and in less than two minutes was observed within cells, partly in association with its receptor CD44. By the contemporary use of neutral red, which accumulates into functional lysosomes, the great majority of internalised HA was found within lysosomes. HA receptor RHAMM-IHABP was rather homogeneously localised within the cytoplasm of normal growing fibroblasts. Upon addition of HA, the RHAMM-IHABP distribution became discontinuous around the nucleus. Addition of HA to fibroblasts induced a significant inhibition of cell growth, which was dependent on HA concentration and irrespective of HA molecular weight, at least in the ranges tested. Results show that extra-cellular HA is rapidly taken up by human dermal fibroblasts together with its CD44 receptor, and transported mostly to the lysosomes. Both low and high molecular weight HA induced down-regulation of cell proliferation, which would seem to be mediated by HA catabolism.     

Biosynthesis of paf-acether factor-acether by human skin fibroblasts in vitro

The synthesis and release of paf-acether by fibroblasts from normal human skin was investigated in vitro. When fibroblasts in suspension (1 X 10(6) cells) were stimulated with 2 microM Ca1+ ionophore A23187 (Io), they synthesized a material that aggregated aspirin-treated washed rabbit platelets and was identified as paf because 1) the platelet aggregation it induced was inhibited by BN 52021, an antagonist of paf putative receptors; 2) the factor was inactivated by phospholipase A2 but was insensitive to lipase from Rhizopus arrhizus; 3) it exhibited the same retention time as synthetic paf during standard and reverse phase HPLC elution. Paf production by fibroblasts occurred as soon as the first min of Io stimulation (287 +/- 92 pg/1 X 10(6) cells), reached a maximum at 5 min (369 +/- 85 pg/1 X 10(6) cells) and decreased thereafter. Half of the fibroblast-produced paf was recovered in supernatants. Addition of exogenous 1-O-alkyl-sn-glycero-3-phosphocholine (lyso-paf) at 0.1 microM and/or acetyl-coenzyme A at 0.1 mM to fibroblasts during Io stimulation enhanced paf production by two- and three-fold, respectively. The paf precursors, i.e., 1-O-alkyl-2-acyl-sn-glycero-3-phosphocholine (1-alkyl-2-acyl-GPC) and lyso-paf, were detected in fibroblasts either stimulated with Io or not. These precursors exhibited 80% hexadecyl and 20% octadecyl chains at the sn-1 position of the molecules, as determined by reverse phase HPLC and gas chromatography analysis. The present results are the first to demonstrate the synthesis and release of paf by fibroblasts from normal human skin. Such production within the dermis might account for the development of cutaneous inflammation and for the pathogenesis of many skin disorders.     

Uptake and esterification of exogenous cholesterol by low-density-lipoprotein-receptor-negative human fibroblasts in culture.

The incorporation and metabolism of both vesicle- and LDL (low-density lipoprotein)- derived [3H]cholesterol by LDL-receptor-negative fibroblasts were studied. Independent of the cholesterol source, free [3H]cholesterol was readily incorporated into the cells and was available for esterification. 7-Oxocholesterol stimulated both [3H]cholesterol incorporation, by increasing the exchange rate, and the subsequent esterification of it irrespective of the source of exogenous [3H]cholesterol. The 7-oxocholesterol-stimulated esterification of exogenously derived LDL free [3H]cholesterol was progesterone-sensitive and energy-requiring.     

Effect of strain on human dermal fibroblasts in a three-dimensional collagen sponge

Our aim was to design a simple compression system and investigate the influence of mechanical stress on skin-like structures. Many mechanical compression studies have employed intricate culture systems, so the relationship between extracellular matrix material and the response of skin cells to mechanical stress remains unknown. Our approach uses only glass vials, 6-well plates and standard laboratory equipment. We examined the influence of mechanical stress on human skin fibroblasts embedded within a collagen sponge. The results show that mechanical compression increases MMP-1 and MMP-2 release by the cells into the the cell culture. Our results suggest that pressure on the skin may affect extracellular matrix degradation through some as yet unidentified pathways and that IL-6 mRNA expression may be involved in this effect. Using our approach, the effects of static mechanical stress on protein expression by cells in the culture medium and in sponges can be easily examined, and therefore this system will be useful for further analyses of skin responses to mechanical stress.     

Rescue of senescent human fibroblasts by hybridization with hamster cells in vitro

Cell hybridization studies were carried out to explore the nature of senescence of diploid human fibroblasts in vitro. A heteroploid line of golden hamster cells was fused with four different strains of senescent human fibroblasts with production of viable hybrids in each case. This suggests that senescence in vitro is a quasidifferentiated state which is amenable to genetic reprogramming.     

Movement of zymosterol, a precursor of cholesterol, among three membranes in human fibroblasts

Where examined, cholesterol is synthesized in the endoplasmic reticulum; however, its precursor, zymosterol, is found mostly in the plasma membrane. The novel implication of these disparate findings is that zymosterol circulates within the cell. In tracing its movements, we have now established the following: (a) in human fibroblasts, zymosterol is converted to cholesterol solely in the rough ER. (b) Little or no zymosterol or cholesterol accumulates in the rough ER in vivo. (c) Newly synthesized zymosterol moves to the plasma membrane without a detectable lag and with a half-time of 9 min, about twice as fast as cholesterol. (d) The pool of radiolabeled zymosterol in the plasma membrane turns over rapidly, faster than does intracellular cholesterol. Thus, plasma membrane zymosterol is not stagnant. (e) [3H]Zymosterol pulsed into intact cells is initially found in the plasma membrane. It is rapidly internalized and is then converted to [3H] cholesterol. Half of the [3H]cholesterol produced returns to the plasma membrane within 30 min of the initial [3H]zymosterol pulse. (f) Nascent zymosterol accumulates in a buoyant sterol-rich intracellular membrane before it reaches the plasma membrane. This membrane also acquires nascent cholesterol, exogenous [3H]zymosterol pulsed into intact cells, and [3H]cholesterol synthesized from the exogenous [3H] zymosterol. These results suggest that at least one sterol moves rapidly and in both directions among the rough endoplasmic reticulum, a sterol-rich intracellular membrane bearing nascent cholesterol, and the plasma membrane.     

Synthesis and uptake of gangliosides by choleragen-responsive human fibroblasts.

Human fibroblasts, cultured in medium containing 10% fetal calf serum, responded dramatically to choleragen with an increase in cyclic adenosine monophosphate content to greater than 48 times basal levels. Analysis of these cells for gangliosides indicated that the major ganglioside was N-acetylneuraminylgalactosylglucosylceramide (GM3) with trace amounts (less than or equal to 100 pmol/mg of protein) of other gangliosides including GM1, the putative choleragen receptor. Although the cells contained three glycosyltransferases required for ganglioside synthesis, the N-acetylgalactosaminyltransferase activity necessary for the conversion of GM3 to more complex gangliosides was not detected. When the cells were grown in medium containing [14C]galactose or N-acety[3H]mannosamine, however, all of the gangliosides became labeled, indicating that the cells can synthesize complex gangliosides. Although fetal calf serum contains gangliosides including GM1, [3H]GM1 was taken up poorly from the growth medium and uptake at the rate observed could have accounted for less than 2% of the GM1 content of the cells. When the cells were incubated in chemically defined medium containing [3H]GM1 at the concentrations present in fetal calf serum, rapid uptake of the ganglioside occurred and the total GM1 content of the cells increased threefold in less than 3 h. Thus, although the cells are capable of binding exogenous gangliosides, the gangliosides in fetal calf serum are in a form not readily available to the cells.     

一株能降解胆固醇的乳酸菌的选育

利用选择性培养基从成年人的粪便中分离出1株能降解胆固醇的乳酸菌,该菌能以胆固醇作为生长的唯一能源。在10％牛奶的发酵试验中,该菌能使牛奶发酵并凝固。在液体发酵中,胆固醇的降解率为34．6％。经初步鉴定,该菌为双歧杆菌（Bifidoacterium sp.)。     

The effect of non-receptor-mediated uptake of cholesterol on intracellular cholesterol metabolism in human skin fibroblasts.

Unilamellar lipid vesicles of various cholesterol:phosphatidylcholine molar ratios were used to alter, via passive exchange at the plasma membrane, the cellular free cholesterol content of cultured human skin fibroblasts which had been preincubated in lipoprotein-deficient serum. The effects of these net surface transfers of cholesterol on cellular cholesterol biosynthesis, cholesterol esterification and low density lipoprotein (LDL) binding were determined and were compared with the effects of cholesterol delivered to the cell interior via the receptor-mediated endocytosis of LDL. Both LDL and cholesterol-rich lipid vesicles increased cell cholesterol within 6 h. Cells exposed to LDL also showed, within 6 h, decreased cholesterol synthesis, decreased LDL binding and increased cholesterol esterification. Cells incubated with the cholesterol-rich vesicles showed similar changes but these were delayed and did not occur until 24 h. Fibroblasts incubated with cholesterol-free phosphatidylcholine vesicles had decreased cell cholesterol, increased cholesterol synthesis, increased LDL binding, and decreased esterification, but only after 24 h of incubation. These results suggest that passive net transfers of cholesterol occurring at the cell surface can with time modulate intracellular cholesterol metabolism. These findings are consistent with the idea that the movement of cholesterol from the cell surface to the cell interior is a limited and relatively slow process.