Somatostatin enhances binding of [3H]estradiol to a cytosolic protein in rat pancreas. Possible role of oligopeptide coligands in secretion

The cytosol fraction of rat pancrease can bind [3H] estradiol specifically and extensively. In contrast to the rat uterus, the binding protein in pancreas requires an accessory factor as a coligand in the steroid-binding reaction. Removal of this accessory factor by passage of the cytosol through CM Affi-Gel blue columns renders eluate fractions virtually incompetent with respect to binding of [3H]estradiol (10 nM). Certain synthetic oligopeptides such as N-benzoyl-L-argininyl-p-nitroanilide, as well as an endogenous accessory factor, can reactivate binding of [3H]estradiol. Thus, localization of the protein that binds [3H]estradiol following chromatography with CM Affi-Gel blue columns can be determined readily by assaying eluate fractions in the absence and presence of either accessory factor or N-benzoyl-L-argininyl-p-nitroanilide. Addition of somatostatin (tetradecapeptide referred to as SRIF14; somatotropin release inhibiting factor) to the activatable, but incompetent, eluate fractions, also enhanced binding of [3H]estradiol. The effect of SRIF14 was biphasic. The threshold concentration required for activation of [3H]estradiol binding was about 1 microM, and maximal stimulation occurred at 25 microM. At higher concentrations of SRIF14, binding declined and reached basal levels at about 75 microM. The concentrations of somatostatin required for activation of binding of [3H]estradiol in vivo may be lower than those indicated above since 1) preparations containing [3H]estradiol-binding protein also contained an SRIF14 peptidase. Following incubation of [125I-Tyr1]SRIF14 with these preparations there was loss of binding of radiolabeled peptide with SRIF14 antiserum. 2) The biphasic nature of SRIF14 activation may reflect feedback inhibition of [3H]estradiol binding by a degradation product of SRIF14. Since SRIF14 has been identified in the delta- (or D-) islet cells of the pancreas, and in concentrations that may be in the microM range, the possibility is raised that these cells serve a paracrine function with respect to acinar cell secretion.     

The synthetic protease substrate N-benzoyl-L-argininyl-p-nitroanilide activates specific binding of [3H]estradiol to a protein in rat pancreas: relationship of structure to activity

N-benzoyl-L-arginyl-p-nitroanilide (BAN), a synthetic substrate for trypsin-like proteolytic enzymes, is a potent activator of [3H]estradiol-binding to a protein present in rat pancreas. When partially purified, this protein is almost devoid of [3H]estradiol-binding activity in the absence of an endogenous accessory factor. BAN can mimic the natural coligand in this steroid binding reaction. The effect of BAN is specific since a number of derivatives of this substance are inactive or may even inhibit steroid binding. It is unlikely that BAN exerts this stimulatory action indirectly, possibly by preventing proteolytic inactivation of the [3H]estradiol-binding protein, since preincubation of the protein in the absence of BAN resulted neither in reduced rate, nor extent, of steroid binding following BAN addition. Also, a number of protease inhibitors had no effect on the binding reaction. Of those inhibitors tested, only antipain significantly enhanced binding of [3H]estradiol, but only about 20 percent as effectively as BAN.     

Characterization of an estrogen-binding protein in the yeast Saccharomyces cerevisiae

This paper further characterizes the estrogen-binding protein we have described in the cytosol of the yeast Saccharomyces cerevisiae. [3H]Estradiol was used as the radioprobe, and specific binding of cytosol fractions was measured by chromatography on Sephadex minicolumns. Other 3H-steroids did not exhibit specific binding. [3H]Estradiol binding was destroyed by treatment with trypsin, but not RNase, DNase, or phospholipase; N-ethylmaleimide substantially decreased the binding. The yeast did not metabolize estradiol added to the medium, and extraction and chromatography of the bound moiety showed it to be unmetabolized estradiol. Scatchard analysis of cytosol from both a and alpha mating types as well as the a/alpha diploid cell revealed similar binding properties: an apparent dissociation constant or Kd(25 degrees) for [3H]estradiol of 1.6-1.8 nM and a maximal binding capacity or Nmax of approximately 2000-2800 fmol/mg of cytosol protein. Gel exclusion chromatography on Sephacryl S-200 and high performance liquid chromatography suggested a Stokes radius of approximately 30 A. Sucrose gradient centrifugation showed a sedimentation coefficient of approximately 5 S, and the complex did not exhibit ionic dependent aggregation. The estrogen binder in S. cerevisiae differed in its steroidal specificities from classical mammalian estrogen receptors in rat uterus. 17 beta-Estradiol was the best competitor, 17 alpha-estradiol had about 5% the activity, and diethylstilbestrol exhibited negligible binding affinity as did tamoxifen, nafoxidine, and the zearalenones. In summary, a high affinity, stereospecific, steroid-selective binding protein has been demonstrated in the cytosol of the simple yeast S. cerevisiae. We speculate that this molecule may represent a primitive hormone receptor system, possibly for an estrogen-like message molecule.     

Peptide analogues compete with the binding of alpha-factor to its receptor in Saccharomyces cerevisiae

alpha-Factor, a secreted tridecapeptide pheromone, is required for mating between the a- and alpha-haploid mating types of Saccharomyces cerevisiae. An analogue of alpha-factor, [DHP8,DHP11,Nle12] tridecapeptide (where DHP represents 3,4-dehydro-L-proline and Nle represents norleucine), was catalytically reduced in the presence of 3H gas to produce a radiolabeled pheromone with high specific activity, purity, and biological activity. Association and dissociation kinetics indicated values of 4.9 x 10(4) M-1 s-1 for k1 and 1.1 x 10(-3) s-1 for k-1. Saturation binding studies gave an equilibrium dissociation constant equal to 2.3 x 10(-8) M, which approximated the kinetically derived KD of 2.2 x 10(-8) M. These values compare favorably to the previously determined KD of 6 x 10(-9) M (Jenness, D.D., Burkholder, A.C., and Hartwell, L.H. (1986) Mol. Cell. Biol. 6, 318-320). Scatchard analysis and dissociation in the presence of excess unlabeled ligand indicated interaction with a homogeneous population of noninteracting binding sites (13,000 sites/cell). A number of alpha-factor analogues, previously investigated for their structure-function relationships (Naider, F., and Becker, J.M. (1986) CRC Crit. Rev. Biochem. 21, 225-249), were used to compete with [3H]alpha-factor binding. Four tridecapeptides having conservative amino acid replacements bound strongly to the receptor. In contrast, [Phe3]alpha-factor and 10 des-Trp1-alpha-factor analogues bound to the receptor 1-3 orders of magnitude less effectively than did alpha-factor itself. The binding constants for all active pheromones correlated with biological activity. However, des-Trp1[Phe3]alpha-factor and des-Trp1-[Ala3]alpha-factor, which were not biologically active, still competed with alpha-factor binding, indicating that these analogues fail to induce a secondary signal necessary for biological response to the pheromone. One analogue, des-Trp1-[Cha3,L-Ala9]alpha-factor (where Cha represents cyclohexylalanine), was not biologically active and did not demonstrate binding to the receptor, whereas des-Trp1-[Cha3,D-Ala9]alpha-factor was active and bound to the receptor. This finding suggests that a type II beta-turn is necessary for binding of alpha-factor to its receptor and for subsequent biological activity.     

Functional expression of the yeast alpha-factor receptor in Xenopus oocytes

The STE2 gene of the yeast Saccharomyces cerevisiae encodes a 431-residue polypeptide that has been shown by chemical cross-linking and genetic studies to be a component of the receptor for the peptide mating pheromone, alpha-factor. To demonstrate directly that the ligand binding site of the alpha-factor receptor is comprised solely of the STE2 gene product, the STE2 protein was expressed in Xenopus oocytes. Oocytes microinjected with synthetic STE2 mRNA displayed specific surface binding for 35S-labeled alpha-factor (up to 40 sites/micron2/ng RNA). Oocytes injected with either STE2 antisense RNA or heterologous receptor mRNA (nicotinic acetylcholine receptor alpha, beta, gamma, and delta subunit mRNAs) showed no binding activity (indistinguishable from uninjected control oocytes). The apparent KD (7 nM) of the alpha-factor binding sites expressed on the oocyte surface, determined by competition binding studies, agreed with the values reported for intact yeast cells and yeast plasma membrane fractions. These findings demonstrate that the STE2 gene product is the only yeast polypeptide required for biogenesis of a functional alpha-factor receptor. Electrophysiological measurements indicated that the membrane conductance of oocytes injected with STE2 mRNA, or with both STE2 and GPA1 (encoding a yeast G protein alpha-subunit) mRNAs, did not change and was not affected by pheromone binding. Thus, the alpha-factor receptor, like mammalian G protein-coupled receptors, apparently lacks activity as an intrinsic or ligand-gated ion channel. This report is the first instance in which a membrane-bound receptor from a unicellular eukaryote has been expressed in a vertebrate cell.     

(3H)-estradiol binding by chick liver nuclear extracts: mechanism of increase in binding following estradiol injection.

Specific high affinity binding of [3H]-estradiol by 0.5 M KCl extracts of chick liver nuclei is substantially increased by estradiol injection of the immature chick. The effect is observed shortly after estradiol injection, while the estradiol-induced production of serum phosphoproteins (vitellogenic response) is not detectable until about 24 hr. Cycloheximide given 90 min before estradiol inhibits the increase in nuclear binding for 12-15 hr. At 24-48 hr the levels of nuclear binding are similar to those in the estradiol-treated animals not given cycloheximide, but serum phosphoprotein levels are depressed by about 80% at 48 hr. By 75 hr however the serum of the cycloheximide-treated estrogenized chicks contains about twice as much phosphoprotein as does serum of chicks given estradiol alone. It is suggested that the inhibition of protein synthesis for 12-15 hr delays the vitellogenic response until sufficient levels of nuclear [3H]-estradiol binding protein can be synthesized. A correlation between the levels of nuclear [3H]-estradiol binding at 24 hr and phosphoprotein at 48 hr is shown in a dose-response experiment. In vitro, nafoxidine-HCl (Upjohn 11,100 A) inhibits binding of [3H]-estradiol by the chick liver nuclear extracts. In vivo, a single injection of nafoxidine with estradiol inhibits phosphoprotein production. Injection of nafoxidine alone results in a small but significant increase in [3H]-estradiol binding by nuclear extracts, but it is not estrogenic. A possible interpretation is that nafoxidine transfers low levels of a putative cytosol receptor to the nucleus, but is unable to induce the amplification mechanism required to give the levels of nuclear estradiol-binding protein needed for the vitellogenic response.     

Lack of pancreatic [3H]estradiol-binding activity in cystic fibrosis

A major characteristic of cystic fibrosis (CF) is the progressive degeneration of acinar cells in the pancreas. It is now well established that the normal pancreas contains an abundant amount of an [3H]estradiol-binding protein. Although the physiological function of this protein is unknown, available evidence suggests that it modulates resting secretion from acinar cells. Analysis of pancreatic autopsy samples from 13 patients who had CF demonstrated a high degree of correlation between loss of acinar cells and loss of [3H]estradiol-binding activity. Autopsy samples taken from individuals unaffected by CF contained large amounts of the [3H]estradiol-binding protein that were significantly correlated with the tissue content of amylase. This biological model demonstrates that the [3H]estradiol-binding protein in pancreas is localized primarily within acinar cells. Based on the presumed regulatory role this protein has on pancreatic secretion, an hypothesis is offered to account for acinar cell degeneration in individuals suffering from cystic fibrosis.     

Antagonistic and synergistic peptide analogues of the tridecapeptide mating pheromone of Saccharomyces cerevisiae.

Biologically inactive, truncated analogues of the Saccharomyces cerevisiae alpha-mating factor (WHWLQLKPGQPMY) either antagonized or synergized the activity of the native pheromone. An amino-terminal truncated pheromone [WLQLKPGQP(Nle)Y] had no activity by itself, but the analogue acted as an antagonist by competing with binding and activity of the mating factor. In contrast, a carboxyl-terminal truncated pheromone [WHWLQLKPGQP] was not active by itself nor did the peptide compete with alpha-factor for binding to the alpha-factor receptor, but it acted as a synergist by causing a marked increase in the activity of alpha-factor. The observation that residues near the amino terminus may be involved in signal transduction whereas those near the carboxyl terminus influence binding allows us to separate binding and signal transduction in the yeast pheromone response pathway. If found for other hormone-receptor systems, synergists may have potential as therapeutic compounds.     

Characterization of estrogen and antiestrogen binding to the cytosol and microsomes of breast tumors

The binding of [3H]estradiol and [3H]hydroxytamoxifen to the cytosol and microsomal fractions of several human breast tumors was investigated. By washing microsomal membranes with a KCl-free or a KCl-containing medium we could distinguish between intrinsic, extrinsic and contaminant estradiol binding sites in these membranes. We observed that treatment of the microsomes with low salt medium removes about 80% of the total estradiol binding sites, whereas 20% are not extractable. The concentration of unextractable [3H]estradiol binding sites in the microsomes varies in proportion to the level of cytosolic estrogen receptors (ER). About 10% of the total extranuclear specific estrogen binding sites was consistently found tightly associated to the microsomal fraction, which displays an affinity for estradiol (Kd = 0.1-0.6 nM) similar to that of the cytosolic ER. The displacement of [3H]estradiol with unlabeled hormone or with the antiestrogens, nafoxidine, enclomiphene and tamoxifen (TAM) exhibits identical IC50 values either in the cytosol or in the microsomal membranes. On the other hand, the microsomal fraction of breast tumors also binds [3H]hydroxyTAM, but with higher capacity and lower affinity than those of the cytosolic fraction. Furthermore, we did not observe correlation between the concentrations of ER and of antiestrogen binding sites (AEBS) in the tumors. These results indicate that microsomal membranes of human breast tumors contain estrogen binding sites which may be related to the cytosol ER recycling and that specific AEBS are predominantly localized in this membrane system. Furthermore, it is shown that the magnitude of estradiol binding to microsomes depends on the ER positive degree of the tumors, whereas the magnitude of the antiestrogen binding to the microsomes is independent of the ER status of the tumors.     

A covalently constrained congener of the Saccharomyces cerevisiae tridecapeptide mating pheromone is an agonist

An analog of alpha-factor, the Saccharomyces cerevisiae tridecapeptide mating pheromone (Trp-His-Trp-Leu-Gln-Leu-Lys-Pro-Gly-Gln-Pro-Met-Tyr), in which the side chains of Lys7 and Gln10 were covalently linked, was synthesized using solid phase methodologies. The yield of the purified cyclic analog cyclo7,10[Nle12]alpha-factor was 30%, and its structure was verified by amino acid analysis, peptide sequencing, fast atom bombardment-mass spectrometry, and proton nuclear magnetic resonance spectroscopy. Cyclo7,10[Nle12]alpha-factor caused growth arrest and morphological alterations in S. cerevisiae MATa cells qualitatively identical to those induced by linear pheromone and was one-fourth to one-twentieth as active as the linear alpha-factor depending upon the S. cerevisiae strain tested. Consistent with the relative activities of the linear and cyclic peptides, binding competition studies indicated that cyclo7,10[Nle12]alpha-factor had approximately 20-40-fold less affinity for the alpha-factor receptor. Hydrolysis of the cyclic peptide by the target cells did not lead to opening of the ring and was less rapid than that of linear alpha-factor. The alpha-factor antagonist des-Trp1-[Ala3,Nle12]alpha-factor reversed the activity of the cyclic analog, and cyclo7,10[Nle12]alpha-factor was not active at the restrictive temperature in a temperature-sensitive receptor mutant. These results support the conclusion that the cyclic alpha-factor occupies the same binding site within the receptor as is occupied by the natural pheromone. The cyclic alpha-factor represents a rare example of an agonist among covalently constrained congeners of small linear peptide messengers.     

Specific nuclear uptake of intracellularly-produced estrogen by rat granulosa cells

Granulosa cells of the ovarian follicle are unique in that they both synthesize steroid hormones and respond to exogenously-administered steroids. Isolated granulosa cells from ovaries of gonadotropin-primed rats were incubated in the presence of [3H]testosterone, which the cells convert to [3H]estradiol. Nuclear extracts of these cells were analyzed by high-performance liquid chromatography in a system of 40% acetonitrile. When cells were incubated in the presence of [3H]testosterone alone, a significant portion of the radioactivity present in nuclei co-eluted with authentic estradiol. The nuclear binding was considered to be specific, since 50-75% of total binding was suppressed when the incubation medium contained excess unlabeled estrogen. Moreover, when an antibody to estradiol was included in the medium, specific nuclear uptake of [3H]estradiol was not abolished, but rather was increased. Granulosa cells may, therefore, directly utilize endogenously-produced estradiol, a mechanism which may play a role in the regulation of ovarian cells.     

Synaptic and extra-synaptic distribution of histamine H1-receptors in rat and guinea pig brains

Localization of histamine H1-receptors in subcellular fractions from rat and guinea pig brains was examined in a [3H]mepyramine binding study. Major [3H]mepyramine binding sites with increased specific activities [( 3H]mepyramine binding vs. protein amount) were recovered from P2 fractions from both rat and guinea pig brains by differential centrifugation. Further subfractionation of both rat and guinea pig P2 fractions by a discontinuous sucrose density gradient centrifugation showed the highest recovery of [3H]mepyramine binding with further increased specific activities found in synaptic plasma membrane (SPM) fractions. Minor [3H]mepyramine binding sites with increased specific activities were detected in both rat and guinea pig P3 fractions. [3H]Mepyramine binding sites in SPM and P3 fractions showed identical Kd values in each species. These results indicate that histamine H1-receptors are located not only in synaptic but also in extra-synaptic membranes of both rat and guinea pig brains.     

end3 and end4: two mutants defective in receptor-mediated and fluid- phase endocytosis in Saccharomyces cerevisiae

alpha-factor, one of two peptide hormones responsible for synchronized mating between MATa and MAT alpha-cell types in Saccharomyces cerevisiae, binds to its cell surface receptor and is internalized in a time-, temperature-, and energy-dependent manner (Chvatchko, Y., I. Howald, and H. Riezman. 1986. Cell. 46:355-364). After internalization, alpha-factor is delivered to the vacuole via vesicular intermediates and degraded there consistent with an endocytic mechanism (Singer, B., and H. Riezman. 1990. J. Cell Biol. 110:1911-1922; Chvatchko, Y., I. Howald, and H. Riezman. 1986. Cell. 46:355-364). We have isolated two mutants that are defective in the internalization process. Both mutations confer a recessive, temperature-sensitive growth phenotype upon cells that cosegregates with their endocytosis defect. Lucifer yellow, a marker for fluid-phase endocytosis, shows accumulation characteristics in the mutants that are similar to the uptake characteristics of 35S-alpha-factor. The endocytic defect in end4 cells appears immediately upon shift to restrictive temperature and is reversible at permissive temperature if new protein synthesis is allowed. Furthermore, the end4 mutation only affects alpha-factor internalization and not the later delivery of alpha-factor to the vacuole. Other vesicle-mediated processes seem to be normal in end3 and end4 mutants. END3 and END4 are the first genes shown to be necessary for the internalization step of receptor-borne and fluid-phase markers in yeast.     

A modulatory role for clathrin light chain phosphorylation in Golgi membrane protein localization during vegetative growth and during the mating response of Saccharomyces cerevisiae

The role of clathrin light chain phosphorylation in regulating clathrin function has been examined in Saccharomyces cerevisiae. The phosphorylation state of yeast clathrin light chain (Clc1p) in vivo was monitored by [32P]phosphate labeling and immunoprecipitation. Clc1p was phosphorylated in growing cells and also hyperphosphorylated upon activation of the mating response signal transduction pathway. Mating pheromone-stimulated hyperphosphorylation of Clc1p was dependent on the mating response signal transduction pathway MAP kinase Fus3p. Both basal and stimulated phosphorylation occurred exclusively on serines. Mutagenesis of Clc1p was used to map major phosphorylation sites to serines 52 and 112, but conversion of all 14 serines in Clc1p to alanines [S(all)A] was necessary to eliminate phosphorylation. Cells expressing the S(all)A mutant Clc1p displayed no defects in Clc1p binding to clathrin heavy chain, clathrin trimer stability, sorting of a soluble vacuolar protein, or receptor-mediated endocytosis of mating pheromone. However, the trans-Golgi network membrane protein Kex2p was not optimally localized in mutant cells. Furthermore, pheromone treatment exacerbated the Kex2p localization defect and caused a corresponding defect in Kex2p-mediated maturation of the alpha-factor precursor. The results reveal a novel requirement for clathrin during the mating response and suggest that phosphorylation of the light chain subunit modulates the activity of clathrin at the trans-Golgi network.     

Saccharomyces cerevisiae Ste5 is important for induction and substrate specificity of Fus3 MAP kinase in the pheromone signaling pathway

The pheromone pathway is one of the mitogen activated protein kinase (MAPK) signaling pathways identified in Saccharomyces cerevisiae and is involved in both G1 cell cycle arrest and mating of cells. Fus3 functions at a branching point for G1 cell cycle arrest and mating responses in the signaling cascade, and the Fus3 MAPK uses components of both G1 arrest and mating routes as substrates. The Ste5 is a scaffold protein of the MAPK module and is essential for the activation of Fus3. However, it is not known how Ste5 is involved in the specific activation of Fus3 in G1 arrest and mating. In this study, we characterized several G1 arrest defective Ste5 mutants to better understand the roles of Ste5 in the regulation of Fus3. The level of Fus3 increased by treatment with alpha-factor. However, the alpha-factor effects were not readily apparent in the observation of yeast cells containing G1 arrest defective ste5 mutant. This suggests that Ste5 plays an essential role in Fus3 induction. Fus3 immune kinase assay of G1 arrest defective ste5 transformants revealed that Ste5 is important for substrate specificity of Fus3 for G1 arrest and/or mating.     

Estradiol binding by intact cells isolated from DMBA-induced mammary tumors of the rat

Study of hormone binding in intact cells enables one to examine binding under conditions which elicit a biological response. Cells from 7,12-dimethylbenz(a)anthracene (DMBA)-induced mammary tumors of the rat were enzymatically dispersed. More than 80% of these cells excluded trypan blue and were used to study binding of [3H] estradiol-17 beta. Specific binding was determined by subtracting the amount of [3H]estradiol bound in the absence and presence of 200-fold excess unlabeled estradiol. Specific binding at 37 degrees was maximal after 15 min. Steroid competition studies indicated that [3H]estradiol binding sites were relatively specific for estrogens, although there was a 9-18% inhibition of binding by androgens and progestins when present at 150-fold molar excess. Scatchard analyses of [3H]estradiol (0.15-5.0 nM) binding by whole cells suggest a single, high-affinity binding site (Kd = 7.5 x 10-10M) of low capacity (6.1 fmol/10(6) cells). More [3H]estradiol was translocated to the nucleus after 1 hr at 37 degrees than at 0 degrees. Preliminary studies indicated that incubations at 37 degrees result in appreciable metabolism of [3H]estradiol to other steroids and/or conjugates when examined by silica gel thin layer chromatography.     

Tyrosine phosphorylation of a yeast 40 kDa protein occurs in response to mating pheromone.

Tyrosine phosphorylation of proteins in the yeast Saccharomyces cerevisiae has been examined following exposure to the mating pheromone alpha-factor. When a cells are treated with alpha-factor a protein of approximately 40 kDa molecular weight is tyrosine phosphorylated. This tyrosine phosphorylation response requires an intact signal transduction pathway, is not restricted to a short interval of the cell division cycle, and requires protein synthesis for its maximal accumulation. Mating competent fus3 deletion strains fail to elaborate the phosphotyrosine response. The possibility that FUS3 encodes the 40 kDa protein is discussed.     

High affinity estrogen binding by rabbit liver

Macromolecular binding components for [3H]estradiol-17beta are present to cytosol prepared from rabbit liver. When cytosol from sexually mature male liver was incubated with [3H]estradiol and analyzed for binding on low ionic strength sucrose gradients, two peaks of binding activity were detected. One peak had a sedimentation coefficient of 4--5 S and the other had a sedimentation coefficient of 8--9 S. The two components differed from each other regarding steroid specificity and various physiocochemical parameters. [3H]estradiol binding to the 4--5 S component was not inhibited by estrogens, 5alpha-dihydrotestosterone, progesterone or cortisol. Binding to this component did not appear to be saturable and label was rapidly stripped from it by charcoal. Estradiol binding to the 8--9 S component was estrogen specific, saturable and of high affinity. The specific binder dissociates on high ionic strength sucrose gradients and sediments as a 4--5 S moiety. The specific binding protein has a Kd of 3.05 . 10(-10) M and a dissociation half-time of 33 h and there are 35.2 fmol of binding sites/mg cytosol protein. Estrogen binders are also present in liver cytosol from sexually mature female and sexually immature male rabbits. During prolonged incubation of [3H]estradiol with mature male liver cytosol at 0--5 degrees C polar metabolites of estradiol are produced.