Ultrastructural changes of receptor endings in prolonged action of local anesthetics

Ultrastructural changes of the terminal plates of the bushy receptors in the frog urinary bladder have been studied after two hours' exposition in 0.05% novocaine solution and one hour's exposition in 0.05% dicaine and trimecaine solution. During these periods a steady block of the receptor impulse activity develops. The local anesthetics essentially change ultramicroscopic structure of the terminals. The reaction to the anesthetics investigated has both some features in common and certain peculiarities. At each effect three types of changes can be determined, characterized with various degree of rearrangement in neurilemma, neuroplasm and organelles. Each type of the changes is supposed to reflect a certain phase of the plate reactive response. Specificities of the reaction to novocaine are minimal changes of mitochondria, accumulation of glycogen granules, deformity and decreasing amount of vesicles. Under dicaine effect mitochondria do not change, amount of vesicles increases, their form does not change; under trimecaine effect mitochondria undergo most noticeable alterations. The changes of the terminal plates observed are interpreted as adaptive. The effect of the local anesthetics on the receptors is not limited with the blockade of the sodium canals of the afferent fibers, in parallel, biochemical processes, occurring in cytosol of the terminals also change; their morphological manifestations are the ultrastructural changes observed.     

A factor which modifies the interaction of steroids with glucocorticoid receptors

A mechanism which determines the difference in the ability of deoxycorticosterone (DOC) to inhibit the binding of 3H-triamcinolone acetonide (3H-TA) to glucocorticoid receptors of rat heart and liver cytosols was investigated. DOC was found to strongly inhibit the binding of 3H-TA by heart cytosol, but to exert only a slight inhibitory effect towards the live cytosol binding. This difference was not due to the influence of the enzymes sensitive to molybdate ions, the presence of DOC-degrading enzymes or contamination of liver cytosol by blood serum. The liver cytosol devoid of the glucocorticoid receptor activity by heating was found to contain a factor modifying the "in vitro" interaction of DOC with the heart cytosol glucocorticoid receptors (receptor modifying factor, RMF). This factor is coeluted with the high molecular weight fraction during gel filtration, is precipitated at 50-70% ammonium sulphate saturation, can be absorbed by DEAE-Sephacel from cytosol at pH 7.4 under hypotonic conditions and extracted at about 0.06 M KC1. The sensitivity to proteases and the lack of sensitivity to nucleases point to the proteinic nature of the factor. It was assumed that in terms of the interaction of some steroids with glucocorticoid receptors, the tissue specificity can, at least partly, be explained by the differences in RMF concentration.     

Monoamine-synthesizing enzymes in central dopaminergic, noradrenergic and serotonergic neurons. Immunocytochemical localization by light and electron microscopy.

The monoamine-synthesizing enzymes tyrosine hydroxylase (TH), dopamine-beta-hydroxylase (DBH) and tryptophan hydroxylase (TrH) were immunocytochemical localized in dopaminergic, noradrenergic and serotonergic neurons of rat brain by light and electron microscopy. In dopaminergic and serotonergic neurons, the respective synthesizing enzymes. TH and TrH, were distributed throughout the cytoplasm of the neuronal perikarya, dendrites, axons and terminals. The most selective accumulation of reaction product for the specific enzyme was associated: (a) in perikarya with endoplasmic reticulum, Golgi apparatus and microtubules, (b) in processes with microtubules, and (c) in terminals with dense granules or clear vesicles. The labeled terminals were characterized by their content of labeled organelles and the absence of synaptic junctions. In noradrenergic neurons, both TH and DBH were localized in the perikarya, similar to TH in dopamine neurons. TH and DBH differed in their localization within proximal axons and dendrites in that TH was associated with microtubules but DBH was not. These results provide ultrastructural evidence to suggest that monoamines may be: (a) synthesized by enzymes which are associated with different organelles depending on the portion of the neuron and the type of enzyme; (b) synthesized in both axons and dendrites and (c) released from terminals without postsynaptic membrane specializations.     

Morphophysiological reaction of vital bush-like receptors of Rana temporaria to novocaine application

Morpho-physiological reaction of alive bush-like interoceptors in the Rana temporaria isolated urinary bladder to the effect of procaine hydrochloride (PH) solution (0.5 and 0.05%) has been studied. Total impulse activity of the receptors has been studied synchronously with changes occurring in their structures. The alive receptors are revealed by means of methylene blue in concentration 1.6 X 10(-4) mol/l. PH sharply inhibits the impulse activity which is completely damped under 0.05% solution nearly in 12-13 min, and at administration of 0.5% solution--in 1-2 min. The impulse amplitude is decreasing. Morphological and tinctorial shifts, produced by PH administration, appear later--in 15-20 min on the background of a completely inhibited impulse activity and are manifested as swelling and increasing size of terminal plates, formation of varicosities on the preterminals and in the region of the Ranvier node, deterioration of staining properties and their dynamic changes.     

Sex differences in the level of cytosol estrogen receptors in the rat liver

The procedure designed for the estimation of estrogen receptors (ER) in rat liver cytosol using sodium thiocyanate was shown to be useful for differential quantification of the ER level in liver cytosol of male rats, containing the unusual estrogen-binding protein. The ER concentration in rat liver cytosol was shown to be a sex dependent feature: its content in male rats (55 +/- 4 fmol/mg of protein) was lower (p 0.001) than that in female rats (116 +/- 4 fmol/mg of protein). The differences in the ER content were revealed only after maturation and disappeared after hypophysectomy of adult rats. Gonadectomy of males performed on the 1st postnatal day or in the pre- or postpubertal period resulted in complete "feminization" of the ER content in these animals. Ovariectomy in female rats at all stages of ontogenesis did not influence the ER level in liver cytosol. It was concluded that androgens have no programming, but only a negative regulatory influence on the ER level in rats.     

A study of the cytoplasmic receptors for glucocorticoids in intestine of pre- and postweanling rats.

Glucocorticoids cause both enzymic and morphologic changes in the rat intestine during the time of weaning. To obtain information regarding the mechanism of these actions, we examined the cytoplasmic fraction of intestines from 18-day-old rats for the presence of specific glucocorticoid-binding proteins which are characteristics of target tissues. Incubation of slices of intestine with [3H]dexamethasone in a physiological medium at 2 degrees showed the presence of a cytoplasmic binding macromolecule with high specificity for steroids having glucocorticoid activity. The binding reaction was saturable (concentration of binding sites equals 0.24 pmol per mg of protein) and of high affinity (dissociation constant equals 9.3 nM). Binding was reversible on addition of nonlabeled dexamethasone (t 1/2 equals 5.2 hours), indicating that the usual assay procedure measured both corticosterone-filled and unoccupied binding sites. Sucrose density gradient centrifugation showed that the receptor-dexamethasone complex from intestinal cytosol sedimented at the same rate as that from liver (8.2 S). The receptor-dexamethasone complex was stable at 2 degrees for at least 24 hours in intestinal slices, but in isolated cytosol fractions there was considerable loss of binding even in the presence of high concentrations of [3H]dexamethasone. Furthermore, mixing experiments showed that the presence of cytosol from intestinal mucosa (but not from the muscle layers) caused a dissociation of dexamethasone from receptors of liver cytosol. This suggested the presence of some interfering factor in isolated mucosal cytosol and meant that quantitative studies had to be confined to intact slices. Although the reasons for the instability of steroid-receptor complexes in the presence of isolated intestinal cytosol are not understood, the instability is believed to be associated with homogenization and, therefore, is believed to have no physiological significance. Finally, the ontogenesis of cytoplasmic glucocorticoid receptors in intestinal slices was examined and the pattern compared with that in liver and lung. Receptor activity was present in intestine from late fetal life through adulthood, but concentrations were significantly higher during the first two postnatal weeks than at all other times. By contrast, receptor activity detected in cytosol prepared from rat lung was high around the time of birth, while that in liver rose steadily during the first postnatal week and remained at high levels. Thus specific receptors for glucocorticoids are present in the rat intestine during periods of both responsiveness and unresponsiveness. This suggests that although corticosteroids exert their effects through the cytoplasmic receptors, this early event in glucocorticoid action may not be a controlling step for changes in responsiveness during development.     

Autotomy of sensory nerve endings in the area of microvessels]

The phenomenon of autotomy of peripheral receptor terminals, in the area of the intestinal microvessel bed has been analysed. This phenomenon is accompanied with a real separation of the terminal patches or large fragments of receptors with their successive degeneration. The effect of the terminals autotomy is succeeded in reproducing and analysing in dynamics in tissue culture. The computer analysis of the image demonstrates that autotomy is observed not only in developing structures during early period of ontogenesis, but in well developed, as regards all morphological criteria, tissue receptors of mature animals. The investigations have been performed by means of silver nitrate impregnation after Bielschowsky--Gros, as well as using vital microscopy. An idea has been formed that autotomy is a part of the cyclic process of autotomy--regeneration of the terminals. This process is connected with retractile cytopoiesis, apocrine secretion. A high concentration of proteolytic enzymes in the amputated degrading fragment of the receptor can serve as a trophic factor, activating the local metabolic process in the area of microvessels.     

A molecular model and Monte Carlo simulation of flavivirus envelope building block

Ryanodine receptors (RyRs) are mainly located on the endoplasmic reticulum (ER) and play an important role in regulating glucose-induced cytosolic Ca(2+) oscillation in pancreatic β-cells. However, subcellular locations and functions of RyRs on other cell organelles such as nuclear envelope are not well understood. In order to investigate the role of RyRs in nuclear Ca(2+) oscillation we designed and conducted experiments in intact primary pancreatic β-cells. Immunocytochemistry was used to examine the expression of RYRs on the nuclear envelope. Confocal microscopy was used to evaluate the function of RYRs on the nuclear envelope. We found that RyRs are expressed on the nuclear envelope in single primary pancreatic β-cells and isolated nuclei. Laser scanning confocal microscopy studies indicated that application of glucose to the cells co-incubated with Ca(2+) indicator Fluo-4 AM and cell-permeable nuclear indicator Hoechst 33342 resulted in nuclear Ca(2+) oscillation. The pattern of glucose-induced Ca(2+) oscillation in the nucleus and cytosol was similar. The reduction of Ca(2+) oscillation amplitude by ryanodine was much greater in the nucleus though both the cytosol and the nucleus Ca(2+) amplitude decreased by ryanodine. Our results suggest that functional ryanodine receptors not only exist in endoplasmic reticulum but are also expressed in nuclear envelope of pancreatic β-cells.     

Estrogens up-regulate type I and type II glucocorticoid receptors in brain regions from ovariectomized rats

The effects of 1-4 days of estradiol (E2) treatment on type I and type II glucocorticoid receptors (GCR) were determined in cytosolic fractions from brain regions of ovariectomized rats. Four days after E2 administration, type I GCR increased in septum, amygdala, hypothalamus and hippocampus, but decreased in the anterior pituitary. Type II GCR increased in septum and hypothalamus only. For both receptor types, changes occurred earlier in septum (1 day) than in the other regions. The E2 increment was due to an increase in Bmax, without changes in Kd. The up-regulation of type II GCR by E2 was also confirmed immunocytochemically in four nuclei of the septal area. In a parallel study, E2 receptors were determined in nuclear and cytosol fractions from the same regions analyzed for GCR. In rats receiving E2, estrogen receptors decreased in cytosol and increased in nuclei from septum, amygdala, hypothalamus and anterior pituitary, but did not change in hippocampus. The results suggest that GCR in certain neuroendocrine regions are regulated by E2, without taking into account whether the areas involved contain high (anterior pituitary), moderate (septum, hypothalamus, amygdala) or low (hippocampus) levels of E2 receptors. Our model may shed light on sex differences in GCR and on E2 regulation of glucocorticoid action in brain and the pituitary.     

Circadian variation of cytosol glucocorticoid receptors in human polymorphonuclear leukocytes (PMN) and mononuclear cells (MN) in a normal population

Glucocorticoid cytosol and whole cell receptors from human PMN's have been quantified, and compared to those of human MN leukocytes on the same blood sample. The normal cytosol PMN receptor density (N = 15) averaged 1,254 +/- 105 (SE) molecules bound/cell at 0900 h and increased significantly to 1,497 +/- 98 at 2,100 h (P less than 0.02). MN cell cytosol receptor density was 1,198 +/- 145 at 0900 h and increased significantly to 1,551 +/- 117 molecules bound/cell at 2,100 h (P less than 0.01). Corresponding whole cell receptor densities at 0900 h were 2,845 +/- 273 (PMN) and 3,547 +/- 290 (MN) and these did not change significantly at 2,100 h. Conclusions: Cytosol receptors in normal human PMN and MN cells increased significantly at 2,100 h from the 0900 h level while serum cortisol levels were dropping. Whole cell receptors in the same PMN and MN cell samples did not change significantly between 0900 and 2,100 h. The normal circadian variation in serum cortisol influences the distribution of the glucocorticoid receptor between the cytosol and the nucleus, but does not influence the amount of receptor available to the whole cell. This is the first time that an endogenous physiological variation of cortisol concentration has been utilized to demonstrate a corresponding change in receptor capacity in vivo.     

In vitro binding to and in vivo effect on the cytosol and nuclear progesterone receptors of various progestins,and their relationship to synthesis of uteroglobin in rabbit uterus

In vitro binding affinities of various progestins to cytosol and nuclear progesterone receptors of rabbit uterus were determined and correlated with the biological potency of these steroids. In addition, cytosol and nuclear progesterone receptor levels were measured after a 5-day administration of different progestins (0.5 mg/kg daily) with variable biologic activites. The receptor levels were compared with the bilological response; the induction of uteroglobin synthesis. Cytosol and nuclear progesterone receptors had identical steroid binding properties (r = 0.98). The correlation between the in vitro binding affinity (cytosol or nuclear) and the in vivo biologic activity of the steroids was good (r = 0.73). After a 5-day treatment with progestins, the nuclear receptor concentration correlated in an inverse manner (r = ?0.84) with the uterine fluid unteroglobin concentration. A similar, but slightly weaker correlation (r = ?0.81) was also found for the cytosol receptor content and uteroglobin secretion. These data indicate that not only nuclear, but also cytosol progesterone receptor levels decrease in the rabbit uterus during chronic hormone action. Decline in the nuclear progesterone receptor content seemed to occur during treatment with all progestational steroids, while onlyi progestins with high biological potency were capable of decreasing the cytosol receptor content.     

A potential mechanism in medroxyprogesterone acetate teratogenesis.

MPA (medroxyprogeste)rone acetate) has been shown to be te)ratogenic in rabbits but not in rats or mice (Andrew and Staples 1977). Since normal steroid action appears to be mediated, in large part, through interaction with specific steroid receptors, it was postulated that the species difference in teratogenicity might be due to a difference in the interaction of MPA with target cells. A primary event in steroid-cell interaction is the binding of a steroid to intracellular receptors. Studies were initiated to measure the specific nature of MPA binding to glucocorticoid and progestin receptors in appropriate rat and rabbit target tissues. The competition of MPA with 3H-dexamethasone binding in liver cytosol (glucocorticoid receptor) and with 3H-progesterone binding in uterine cytosol (progesterone receptor) was determined. In rabbit liver cytosol, MPA was as effective at competing for specific dexamethasone binding as the natural glucocorticoids and considerably more effective than the nonspecific steroids. In rat liver cytosol MPA was only 10% as effective as the natural glucocorticoids and the competition could not be distinguished from that of nonspecific steroids. A similar species difference was not seen in uterine cytosol; MPA competed with progesterone in a similar fashion in both rat and rabbit. These data demonstrate a distinct species difference in the competitive nature of MPA for the glucocorticoid receptor but not for the progestin receptor. The results suggest that MPA, or possibly a metabolite, may be teratogenic in rabbits by binding with specific glucocorticoid receptors to inhibit or alter normal steroidal function in embryo-fetal development.     

Botulinum ADP-ribosyltransferase activity as affected by detergents and phospholipids

GTP-binding proteins with Mr values of 22,000 and 25,000 in bovine brain cytosol were ADP-ribosylated by an exoenzyme (termed C3) purified from Clostridium botulinum type C. The rate of C3-catalyzed ADP-ribosylation of the partially purified substrates was extremely low by itself, but was increased enormously when a protein factor(s) obtained from the cytosol was simultaneously added. The rate of the C3-catalyzed reaction was also stimulated by the addition of certain types of detergents or phospholipids even in the absence of the protein factors. The ADP-ribosylation appeared to be enhanced to an extent more than the additive effect of either the protein factors or the detergents (and phospholipids). Thus, ADP-ribosylation catalyzed by botulinum C3 enzyme was affected not only by cytoplasmic protein factors but also by detergents or phospholipids in manners different from each other.     

Characterization of glucocorticoid receptors in S49 mouse lymphoma cells by affinity labeling with [3H]dexamethasone 21-mesylate

Glucocorticoid receptors in wild type and mutant S49 mouse lymphoma cells were affinity labeled with [3H]dexamethasone 21-mesylate and analyzed directly by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The molecular weight of receptors in cytosol from wild type cells and nuclear transfer decreased (nt-) mutants was 97,000 (97 kDa). The molecular weight of receptors in cytosol from nuclear transfer increased (nti) mutants was 48 kDa. The 97 kDa receptor in cytosol from wild type cells was digested by chymotrypsin to a 40 kDa steroid-binding receptor fragment but the 48 kDa receptor in cytosol from nti mutants was resistant to digestion by chymotrypsin. In addition to the 48 kDa receptor, cytosol from nti mutants contained 40 and 18 kDa receptor fragments. Cytosol from the nt- mutants also contained 18 kDa receptor fragments. The 40 and 18 kDa receptor fragments were present in multiple subclones of a nti mutant cell line. Formation of these receptor fragments was not prevented by protease inhibitors and was not increased by extended incubation of cytosol samples. Both 48 and 40 kDa forms of the receptor, but not the 18 kDa form, could be activated and bound by DNA-cellulose.     

Sulfhydryl groups of aldosterone receptors from swine kidney

Specific [3H]aldosterone binding activity in swine kidney cytosol was inactivated by pretreatment of the cytosol with monoiodoacetamide (pH 8.5), N-ethylmaleimide (pH 7.0), or 5,5'-dithiobis(2-nitrobenzoate) (pH 7.5). Dithiothreitol restored the specific binding activity inactivated by the nitrobenzoate, but not that inactivated with ethylmaleimide. Incubation of the cytosol with aldosterone prior to pretreatment with ethylmaleimide protected the receptors from inactivation. The rank order of steroids for the protection was: aldosterone greater than hydrocortisone greater than or equal to dexamethazone = progesterone greater than triamcinolone greater than estradiol. The initial velocity of the specific hormone binding could be determined by the binding reaction for 60 sec at 30 degrees. Double reciprocal plots of the initial velocity versus the hormone concentration with or without the nitrobenzoate showed a typical pattern of competition between the hormone and the inactivator. The results indicated the presence of functional sulfhydryl groups on the hormone binding sites of aldosterone receptors.     

Estradiol-induced adenohypophyseal growth reaction and beta-adrenergic receptors.

The effect of administration of estradiol benzoate on beta-adrenergic receptors of rat adenohypophyseal cells was studied. Twenty days' administration of estradiol benzoate was followed by an increase of adenohypophyseal weight and a decrease in specific binding of 3H-dihydroalprenolol (3H-DHA). In contrast to thyroid hormone treatment which induced an increase in 3H-DHA binding, thyroid hormone treatment decreased both the growth reaction and the reaction of beta-adrenergic receptors after estradiol. Although the relationship between the adenohypophyseal receptors and the growth reaction is unclear, changes in beta-adrenergic receptors after hormonal therapy can be one of pathophysiological conditions that may influence this reaction.     

The extended amygdala system and self-stimulation of the lateral hypothalamus in rats: modulation with opiates and opioids

Wistar male rats were implanted with bipolar electrodes in the lateral hypothalamus to study self-stimulation reaction in the Skinner box. Simultaneously, the microcanules were implanted into the central nucleus of the amygdala to inject the drugs studied (1 microl in volume for each injection). The blockade of CRF receptors (astressin 1 microg) or sodium influx ionic currents (xycaine, or lidocain 1 microg) by means of intrastructural administration of drugs into the amygdala descreased self-stimulation reaction of the lateral hypothalamus in rats by 29-55%. The inhibition of D2 and D2 dopamine receptors in the amygdala with SCH23390 (1 microg) or sulpiride (1 microg), respectively. reduced self-stimulation too, but in less degree. On the background of blockade of CRF (astressin) and dopamine (sulpiride) receptors, as well as sodium influx ionic currents (lidocain) in the amygdala neurons, psychomotor stimulant amphetamine (1 mg/kg) and barbiturate sodium ethaminal (5 mg/kg) supported their psychoactivating effect on self-stimulation (+30-37%), but fentanyl (0.1 mg/kg) had got no effect. Fentanyl activated self-stimulation moderately only after blockade D1 dopamine receptors with SCH23390. After blockade of CRF receptors, leu-enkephaline strengthened its depressant effect on self-stimulation reaction (-89%). Therefore, if the modulating influence of the amygdala on the hypothalamus is diminished, the reinforcing effects of opiated (fentanyl) and opioids (leuencephaline) will block, but there will be no effect for psychomotor stimulant amphetamine and barbiturate sodium ethaminal.     

Sucrose density gradient centrifugation of human myometrial and myomal progestin receptors

Progestin receptors present in cytosols of myomal and myometrial origin were analyzed on sucrose density gradients of low ionic strength using a vertical tube rotor. Short term incubations (90 min) contained mainly 8S receptors. Most myometrial but few myomal preparations contained an additional 4S component, the presence of which was hormone dependent. None could be detected if the serum concentration of estradiol was high. Myometrial receptors incubated over night exhibited only a 4S peak, whereas many myomal ones still sedimented as 8S peaks. The 8 to 4S shift represented a transformation of the receptors and not a sequential interaction of the hormone with first an 8S and then a 4S entity. The transforming activity contained in the myometrial cytosol could also attack the myomal receptor as shown by mixing experiments. Only the 8S peak was observed, whenever the cytosol was first fractionated and then incubated with the hormone. Thus the transformation occurred only in presence of [3H]promegestone. It could be suppressed with protease inhibitors. It is concluded that these tissues contain a receptor processing protease which (1) is much less prominent in myomal than myometrial cytosol, which (2) attacks only the occupied receptors, and (3) the activity of which is hormone dependent.     

Dedifferentiation and remodeling of motor endplates following experimental localized lesions of muscle fibers

Local anaesthetics, cardiotoxin and mechanical injuries may cause necrosis of muscle fibres while leaving the motor nerve fibres and their terminals intact. With local injuries to mouse muscles carried out by freezing or cutting we made a point of preserving both the nerve terminals and the muscle fibre portions on which these terminals were located. It was thus possible to follow the changes induced at endplates by these lesions. Within two or three days of the freezing or cutting, the muscle fibres underwent very different degrees of regression of the contractile material and T-system. The neuromuscular junctions also underwent changes, principally affecting their postsynaptic portion, in particular the folds of the subneural apparatus. After dedifferentiation of subsynaptic areas, we observed sprouting of the nerve terminal on muscle fibres which survived the amputation of one end and formed actively new myofibrils. This sprouting restored synaptic connections at the original sites, but with new structural features and correlative changes in the distribution of cholinergic receptors and cholinesterases. It is probable that after a phase of involution followed by a phase of recovery, the injured muscle fibres triggered off the nerve terminal sprouting which led to the remodelling of the endplates.     

Pex20p functions as the receptor for non‐PTS1/non‐PTS2 acyl‐CoA oxidase import into peroxisomes of the yeast Yarrowia lipolytica

Most soluble proteins targeted to the peroxisomal matrix contain a C‐terminal peroxisome targeting signal type 1 (PTS1) or an N‐terminal PTS2 that is recognized by the receptors Pex5p and Pex7p, respectively. These receptors cycle between the cytosol and peroxisome and back again for multiple rounds of cargo delivery to the peroxisome. A small number of peroxisomal matrix proteins, including all six isozymes of peroxisomal fatty acyl‐CoA oxidase (Aox) of the yeast Yarrowia lipolytica, contain neither a PTS1 nor a PTS2. Pex20p has been shown to function as a co‐receptor for Pex7p in the import of PTS2 cargo into peroxisomes. Here we show that cells of Y. lipolytica deleted for the PEX20 gene fail to import not only the PTS2‐containing protein 3‐ketoacyl‐CoA thiolase (Pot1p) but also the non‐PTS1/non‐PTS2 Aox isozymes. Pex20p binds directly to Aox isozymes Aox3p and Aox5p, which requires the C‐terminal Wxxx(F/Y) motif of Pex20p. A W411G mutation in the C‐terminal Wxxx(F/Y) motif causes Aox isozymes to be mislocalized to the cytosol. Pex20p interacts physically with members of the peroxisomal import docking complex, Pex13p and Pex14p. Our results are consistent with a role for Pex20p as the receptor for import of the non‐PTS1/non‐PTS2 Aox isozymes into peroxisomes.