Histochemical,autoradiographic and electron microscopic investigations of the renal proximal tubule of male and female rats after castration

Summary After castration of 90-day-old male and female rats, changes appear in the renal proximal tubule. A distinction can be made between early changes (up to 10th postoperative day) and later changes (20th–30th postoperative day). Between the 3rd and 5th day after castration the kidney of the females shows an increase in free estrogen receptors (biochemical studies) which are localized in the pars contorta of the proximal tubule (autoradiographic studies), while the male kidney shows a marked increase in urinary protein excretion up to the 10th day after castration. Proximal tubule changes detectable histochemically and electron microscopically do not appear until day 20 or 30 after castration. The results of castration are similar in segments S₁ and S₂. By days 20 and 30 after castration there is a decrease in the activity of lysosomal enzymes (acid phosphatase, acid -galactosidase). Electron microscopy shows a conspicuous decrease in the number of giant lysosomes (mainly in females) and apical vacuoles (mainly in males). A marked increase in the number of lysosomes is found in the S₃ segment; females always have more lysosomes than males. The number of peroxisomes is also greatly increased; they appear circular in the females but can assume bizarre shapes in the males. Lipid droplets appear in the basal region of the tubule cell of segments S₂ and S₃ in the males. The sex differences are preserved in all segments even after castration and become even more pronounced in the S₃ segment.Supported by the Deutsche Forschungsgemeinschaft (SFB 105)Dedicated to Prof. Dr. W. Graumann, Department of Anatomy, University of Tübingen, on the occasion of his 65th birthday     

Peptidases in the kidney and urine of rats after castration

Summary The localization of various peptidases in the renal section of the rat was investigated histochemically, and their activities were determined fluorometrically in renal homogenate. The membrane-bound peptidases aminopeptidase A (APA), aminopeptidase M (APM), -glutamyl-transferase (-GT), dipeptidylpeptidase IV (DAP IV), and the lysosomal dipeptidyl peptidases I (DAP I) and II (DAP II) were investigated in male and female (estrus) rats both before and 30 days after castration. In addition, protein excretion and APA, APM, DAP I and DAP IV activities were measured in the urine of these animals. Histochemically, the membrane-bound peptidases are demonstrable mainly in the brush borders of the proximal tubules. In addition, APA and DAP IV are found in the glomeruli, -GT and DAP IV in the thin descending limbs of the loops of Henle, and -GT in the basal labyrinth of the S₂ and S₃ segments. The lysosomal peptidases are most concentrated in the S₁ and S₂ segments of the proximal tubule, in the distal tubule, and in certain cells of the connecting tubule and collecting duct, where they are contained in lysosomes of varying size. Sex differences and castration effects are demonstrable both histochemically and biochemically for the investigated peptidases. Histochemically these effects are most pronounced in the S₃ segments for the membrane-bound peptidases, and in the lysosomes of the proximal tubule for the lysosomal peptidases. Biochemical tests in controls show significantly higher lysosomal peptidase activities in the renal homogenate of females than of males. After castration the lysosomal peptidase activities in males increase, approaching those of females. This appears to have bearing on the sex-dependent proteinuria in rats, for lysosomal peptidases and proteinases are particularly important in the degradation of filtered proteins that are reabsorbed in the proximal tubule. In females high lysosomal peptidase activities correlate with a low proteinuria, while males demonstrate lower lysosomal peptidase activities and a significantly higher proteinuria than females. After castration, the lysosomal peptidase activities and proteinuria in males approach those in females. Renal peptidases are also excreted in the urine, again with sex differences, and so these excreted peptidases contribute to the proteinuria in rats.Supported by the Deutsche Forschungsgemeinschaft (SFB 105)     

Sex-dependent changes in the rat kidney after hypophysectomy

Summary Renal changes following hypophysectomy are investigated. Particular attention is given to sex differences in the ultrastructure of proximal tubule cells and in protein excretion.Regardless of gender, hypophysectomy is followed by an increase in urine volume. However, there is a concomitant reduction of proteinuria, which is much more pronounced in males than in females. Partial hypophysectomy with anterior pituitary function preserved also leads to increased urine excretion, but does not alter proteinuria.In both sexes there is a reduction of the tubule circumference, which again is more pronounced in males thereby moderating the sex difference. The proximal tubule cells display a segment- and sex-independent reduction in surface area, a decrease of Golgi areas and reduction of ribosomes. Mitochondrial changes (condensation of cristae) selectively affect the S₃ segment.The changes in the lysosomes and microbodies are segment- and sexdependent. The volume density of microbodies in the S₃ segment increases considerably, particularly in females. The volume density of lysosomes undergoes an increase in the S₁ cells of the males and a decrease in the S₂ cells. In the females the volume density of these organelles shows little change in these tubule segments; a sex-dependent difference is not longer apparent in the S₁ and S₂ segments. By contrast, in S₃, there is an increase in the volume density of lysosomes in both sexes. The present study confirms a connection between the morphology of lysosomes in the proximal tubule and proteinuria. The findings also point to a possible involvement of male sex hormones in the reabsorption of protein in the renal proximal tubule.Supported by the Deutsche Forschungsgemeinschaft (SFB 105)     

The postnatal development of the rat kidney,with special reference to the chemodifferentiation of the proximal tubule

Summary New nephron anlages appear in the renal cortex up to the 4th postnatal day (PD). The last anlages to be formed develop into functional nephrons by PD 10, and the cortex appears mature at PD 12 after formation of the cortex corticis. The renal medulla develops by the longitudinal growth of loops of Henle and collecting ducts. The immature medulla cannot be divided into different zones and corresponds structurally to the later inner stripe of the outer zone. The inner zone is formed by PD 8, and the outer stripe of the outer zone by PD 12. The renal medulla is mature at PD 21.From the start of its development, the renal proximal tubule consists of the pars convoluta and pars recta. In both parts the formation of the brush border is accompanied by the simultaneous appearance of brush border enzymes (alkaline phosphatase, -glutamyltranspeptidase, dipeptidylamino-peptidase IV) and lysosomal enzymes (acid phosphatase, acid -galactosidase, N-acetylglucosaminidase, dipeptidylaminopeptidase II) over the full length of the proximal tubule. During the course of proximal tubule maturation, however, the lysosomal enzyme activities decline in the pars convoluta (with constant brush border enzyme activities), while the brush border enzyme activities increase in the pars recta (with constant lysosomal enzyme activities). The two parts further differ in that they exhibit different lysosomal patterns from the outset, the pars convoluta containing numerous large, highly enzyme-active lysosomes arranged in groups, and the pars recta containing only a few very small lysosomes with low enzyme activity. Thus, even in the newborn rat, the lysosomal pattern of the pars recta already corresponds to that of the mature S₃ segment. The S₁ and S₂ segments of the pars convoluta first differentiate between PD 10 and 21, as the groups of large lysosomes are progressively broken up and the extent of the lysosomal apparatus is diminished, this proceeding in a retrograde direction from the end of the immature pars convoluta.Supported by the Deutsche Forschungsgemeinschaft (SFB 105)     

Quantitative histochemistry of the lysosomal dipeptidyl aminopeptidase II in the proximal tubule of the rat kidney

Summary The activity of the lysosomal dipeptidyl aminopeptidase II (DAP II) was measured by quantitative histochemical methods in the S₁/S₂ segments of the proximal tubule using freeze dried and celloidin mounted cryostat sections (FDC sections) of rat kidney. The methodological studies show that there is a linear relationship between the amount of reaction product and reaction time for the first 5 min, as well as section thickness between 4 and 10 m. Maximal DAP II activities were demonstrated at pH 5.5. The K _m of DAP II was about 2.3 mM. — In addition to the methodological studies, DAP II activity was also measured in the proximal tubule (S₁/S₂ segments) of experimental animals (sham-operated and castrated male and female rats). Sham-operated females showed significantly higher DAP II activities than males. DAP II activity increased significantly in castrated males so that there were no significant differences between castrated males, sham-operated and castrated females. The quantitative histochemical results are largely in agreement with biochemical data published earlier.Supported by the Deutsche Forschungsgemeinschaft (SFB 105)Dedicated to Prof. Dr. T.H. Schiebler, Chairman of the Institute of Anatomy of the University of Würzburg, on the occasion of his 60th birthday     

Ultrastructural localization of some phosphatases in the prothoracic gland of the insect Leucophaea Maderae

Summary The cytochemical localization of acid phosphatase and thiamine pyrophosphatase activity was studied by light and electron microscopy in prothoracic gland cells of the cockroach Leucophaea moderae. Nymphal and young adult animals were used.Prominent sites of acid phosphatase activity included large membrane-bounded dense bodies or lysosomes, and certain cisternae of the Golgi apparatus. The results suggest a possible difference in the enzymatic activity toward glycerophosphate and aromatic phosphates as substrates.Thiamine pyrophosphatase activity was localized in elements of the Golgi apparatus and endoplasmic reticulum, and in lysosome-like dense bodies. This latter activity was abolished by sodium fluoride treatment, whereas the phosphatase activity in the Golgi apparatus and endoplasmic reticulum is unaffected by such inhibition.The cytochemical results confirm through direct evidence the suggestions of Scharrer (1964), that the large dense bodies present in the prothoracic gland cells are lysosomes, and that their activity may be related to stages in the life history of the glands. Furthermore, the lysosomes or their derivative structures may play an essential role in the autolysis of the prothoracic glands toward the end of their active period.The enzymatic activity of the endoplasmic reticulum may indicate the involvement of this organelle in the metabolism of steroid-like precursor materials necessary for the synthesis of ecdysone.This study was supported by U.S.P.H.S. grants 5 T1-MH-6418 and NB-05219, and grant RO 1-AM-3984 to Dr. Berta Scharrer. I would like to express my appreciation to Dr. Scharrer for her encouragement and assistance during this study. I also wish to thank Mrs. Sarah Wurzelmann for her competent technical aid.     

Comparative impact of cephaloridine on glutathione and related enzymes in LLC-PK1, LLC-RK1, and primary cultures of rat and rabbit proximal tubule cells

Among kidney tubular epithelial cell types, proximal tubule cells are one of the major renal targets for xenobiotics. Several in vitro culture models have been proposed for use of proximal tubule cells for in vitro pharmacotoxicology studies. This paper reports a comparative study of the response to cephaloridine exposure of two established cell lines from pig (LLC-PK1) and rabbit (LLC-RK1) kidneys and primary cultures of rat and rabbit proximal tubule cells. These cultured cells were first compared for their levels of activity of -methylglucopyranoside transport, alkaline phosphatase, succinate dehydrogenase, and NADPH cytochrome c reductase, their glutathione-dependent activity levels, and their adenylate cyclase response pattern to stimulation by PTH and AVP. The results presented show major phenotypic differences between these four cellular models. The differences observed in glutathione-dependent mechanism activities and regulation may in part be responsible for the variability of the responses of these four cellular models when exposed to cephaloridine.Abbreviations AVP arginine vasopressin - GGT -glutamyl transpeptidase - GRED glutathione reductase - GSH glutathione - GST glutathione S-transferase - PTC proximal tubule cells - PTH parathyroid hormone - SDH succinate dehydrogenase     

Histochemical demonstration of peptidases in the human kidney

Summary The localization of several peptidases in the human kidney was investigated histochemically. The membrane-bound peptidases, aminopeptidase A (APA), aminopeptidase M, -glutamyltransferase (-GT) and dipeptidylpeptidase IV, were mainly demonstrable in the brush border of the proximal tubule. In addition, APA was found in the glomeruli, while -GT was found in the basal labyrinth of the proximal tubule. The lysosomal peptidases, dipeptidylpeptidase I and cathepsin B, were most strongly concentrated in the different-sized lysosomes of the proximal tubule, but they were also found in the small lysosomes of the distal tubule. Dipeptidylpeptidase II showed only a weak reaction in lysosomes of the proximal tubule. It is concluded that, in comparison with other previously studied species, the human kidney has a well-developed equipment with membrane-bound and lysosomal peptidases.Supported by the Deutsche Forschungsgemeinschaft (SFB 105)     

Quantitative distribution of lysosomal hydrolases in the rat nephron

Summary The activities of N-acetyl-,d-glucosaminidase (NAG, EC 3.2.1.30),,d-galactosidase (-gal, EC 3.2.1.23) and acid phosphatase (ac-Pase, EC 3.1.3.2) were measured in the glomeruli, five segments of the proximal and four segments of the distal tubule of normal male Wistar rats. The activities of NAG and-gal are 3- to 5-fold higher in the first part of the proximal tubule than in other segments and very low in glomeruli. We propose that the distribution of these two glycosidases reflects the contribution of the different tubular segments to the reabsorption of glycoproteins. The maximal activity of ac-Pase was found in the straight part of the proximal tubule. It was only 1.5-fold higher than in the distal tubule. Moreover, the activity in glomeruli is rather high. We conclude that ac-Pase is not primarily involved in the handling of reabsorbed molecules.This research was supported by the Swiss National Science Foundation, grant 3.904-077     

The mature mesonephric nephron of the rabbit embryo

Summary Transmission electron micrographs of the mesonephric nephron in 18 day rabbit embryos reveal major cytological structures reappearing in the nephron of the definitive rabbit kidney. The initial segment of the proximal tubule resembles (despite quite different cell proportions) the cell picture of the metanephric S₂-segment. The changes occurring at the end of the terminal proximal segment, the decrease in cell size, flattening of the nuclei, shortening of the brush border and reduction of Golgi profiles and endocytotic organelles largely parallel those between S₂ and S₃. The type of increased basolateral cell face of the proximal and distal tubule cells shows only quantitative differences to their metanephric counterparts. The distal tubule, which cannot be further subdivided (except the macula densa-region) exhibits varying degrees of cell interdigitations with vertically arranged and partially arching lateral ridges. This tubule matches closely the metanephric medullary straight part of the distal tubule, so that the sequence of the first mesonephric nephron segments is similar to the metanephric ones with the exception that the thin limb of Henle is absent. The large macula densa-region is characterized by its cell height and distended infranuclear spaces. The principal cells of the collecting tubule, with a few basal infoldings and intense short lateral interlockings resemble metanephric cells of the outer medullary collecting duct. The mitochondria-rich intercalated cells occur in dark and light contrasting forms and are more frequent than was evident from our SEM-study. The homogeneous cell population of the Wolffian duct is characterized by large glycogen deposits and comparatively smooth cell faces.     

Observations on the localization of arylsulphatase activity in renal cortical tubules

Summary The fine structural localization of arylsulphatase in rat kidney cortex was investigated using p-nitrocatechol sulphate as substrate and lead as capturing ion. The studies included observations of the effects of different modes of fixative application in order to define optimal conditions for the histochemical procedure. Reaction product (lead sulphate) was constantly precipitated in the cytosomes in cells of proximal and distal convoluted tubules and collecting ducts. Previous studies have demonstrated that these same organelles contain acid phosphatase and appear to correspond to lysosomes in biochemically isolated fractions from renal cortex. The observations are compatible with the notion that most of the cytosomes in renal cortical tubules and collecting ducts contain both acid phosphatase and arylsulphatase. The constant absence of precipitate in microbodies of proximal tubule cells supported the assumption that these organelles are functionally different from cytosomes, and may correspond to peroxisomes.     

Electron microscopic and morphometric studies of the main kidney segment of male and female rats following castration and testosterone substitution

The effect of testosterone on the 3 segments of the renal proximal tubule (S1, S2, S3) of male and female rats was studied by electronmicroscopic and morphometric methods. Only light, granulated and dark lysosomes as well as microbodies (peroxisomes) and dictyosomes (Golgi zones) were investigated. After castration the area density of light lysosomes in the S1 segment increases in males whereas it decreases in females; therefore the sex different pattern of light lysosomes, that is to be seen in normal animals, is reversed. The absolute size and number of light giant lysosomes is also elevated in castrated males in comparison to normal animals as well as to animals substituted by testosterone. - Dark lysosomes of the S1 segments are more numerous in castrated females and less numerous in castrated males than in normal animals. - The distinct sex difference in dark lysosomes of the S2 segment which is demonstrable in normal animals disappears after castration the area density of dark lysosomes increasing in castrated females and decreasing in castrated males. The three species of lysosomes in the S1 segments show no longer a sex difference after substitution with testosterone: substituted males develop the same pattern as normal animals and substituted females are almost comparable with normal males. However, the sex difference in dark lysosomes of the S2 segment is more pronounced after testosterone treatment. - The characteristic pattern of light lysosomes in the S1 and S2 segments as well as the change of the sex different lysosomal pattern after castration and substitution with testosterone, respectively - especially in S1 - seem to be caused by testosterone which results in an inhibition of resorption. Only after castration a sex difference appears in dark lysosomes of the S3 segment (males show more dark lysosomes than females). This sex difference is reversed by testosterone treatment. There are more numerous lysosomes with an non-homogeneous matrix in both sexes after castration which are seldom to be seen in normal and substituted animals. The area density of microbodies shows sex differences in all 3 segments of normal animals. While no significant changes in S1 and S2 are to be seen after castration and substitution, there is a pronounced decrease of the area density of microbodies in S3 of males after castration, so that no sex differences are then available.(ABSTRACT TRUNCATED AT 400 WORDS)     

Wandering cells in the nephron of the mudskipper Periophthalmus koelreuteri (Pallas)

Wandering cells that infiltrate between the principal cells of the nephron of the mudskipper Periophthalmus koelreuteri were examined by transmission electron microscope. These cells were found at various levels between the tubule cells and were more abundant in the proximal and collecting segments. These cells have cytoplasmic processes and large spherical nuclei. Their cytoplasm appears electron dense and contains many lysosomes, rough endoplasmic reticulum, free ribosomes, some mitochondria and Golgi profiles. Their ultrastructural features indicate that they may be phagocytic.     

Ultrastructural localization of alkaline phosphatase in the hypertrophic chondrocyte of the frog

Summary The ultrastructural localization of alkaline phosphatase was studied in the hypertrophic chondrocyte of the frog (Rana temporaria) by incubating sections of glutaraldehyde fixed tissue in a medium containing sodium glycerophosphate and calcium chloride. Control specimens were incubated in substrate free medium.Alkaline phosphatase (orthophosphoric monoester phosphohydrolase) is a hight molecular weight glycoprotein that hydrolyses phosphorylated metabolites much as acid phosphatase does except that its action is optimal at an alkaline pH.The results of this investigation showed that alkaline phosphatase activity was present within the cytoplasm and around the plasma membrane of frog hypertrophic chondrocytes. Although only a small proportion of frog hypertrophic chondrocytes demonstrated enzyme activity, there was evidence that this was concentrated within Golgi lamellae and vesicles leaving other organelles unreactive. The finding of alkaline phosphatase activity within Golgi lamellae of hypertrophic chondrocytes is regarded as unusual although positive reactions within chondrocyte lysosomes have previously been reported (Doty and Schofield, 1976).     

Ultrastructural localization of acid phosphatase activity in the small intestinal absorptive cells of adult rats

Summary Ultrastructural localization of acid phosphatase activity was investigated in ultrathin (0.05 m) and semithin (0.5 and 0.75 m) sections of the small intestinal epithelial cells of adult rats. The results showed that the enzyme activity was localized on the membrane of microvilli, lateral cell membranes, lysosomes, the Golgi complex, and the GERL of Novikoff (a part of the smooth-surfaced endoplasmic reticulum located in close proximity to the inner Golgi saccules) of duodenal absorptive cells. The lysosomes contained within the duodenal and jejunal absorptive cells appeared to be mainly heterolysosomes rather than autolysosomes. The enzyme activity of absorptive cells was lower in the jejunum than in the duodenum, and was barely detectable except in the GERL and lysosomes of the ileum. The average numbers of lysosomes having a diameter of 0.21.0 m, per cell profile in sections of 214 duodenal, 226 jejunal and 318 ileal epithelial cells were 8.9±0.189, 6.4±0.155 and 3.5±0.027 (mean±SE), respectively. From these results, it was assumed that both the Golgi apparatus and GERL produce some lysosomes in the duodenal and jejunal absorptive cells, but only GERL does so in the ileum. It was considered also that because of an unexpectedly high number of lysosomes contained within the epithelial absorptive cells of the proximal intestine of adult rats, these cells may possess the strong heterophagic, as well as absorptive capacity.     

Zur Cytochemie der Lysosomen in der Rattenniere unter normalen und experimentellen Bedingungen

Zusammenfassung Es wird das Vorkommen der sauren Phosphatase (sP) und der -Glucu-ronidase (-Glu) in den Lysosomen von Rattennieren vom 16. Embryonaltag (ET) bis 33. Lebenstag (LT) sowie von erwachsenen unbehandelten, kastrierten und nach der Kastration mit gleich- bzw. gegengeschlechtlichen Hormonen behandelten Tieren untersucht. Bis zur Geburt entwickelt sich die lysosomale sP und -Glu in den einzelnen Nephronabschnitten und Sammelrohren annähernd parallel. Am 1. LT nimmt in den S₁-Segmenten der iuxtamedullären Nephrone Zahl, Durchmesser und Aktivität der sP positiven Lysosomen sprunghaft zu, um zwischen 5. und 9. LT wieder schnell abzunehmen. Die Aktivität der -Glu steigt dagegen kontinuierlich an. Zwischen 24. und 25. LT nimmt die Aktivität der -Glu in den Lysosomen der S₁- und S₃-Segmente ab, die der sP deutlich zu. Geschlechtsunterschiede treten bei der sP zum ersten Mal am 18. LT in den S₃-Segmenten, bei der -Glu am 25. LT in den S₁-Segmenten auf. Das ausdifferenzierte Enzymmuster für sP und -Glu kann erst bei erwachsenen Tieren nachgewiesen werden. Dann fallen bei beiden Geschlechtern unter den Lysosomen der S₁-Segmente zwei Größenklassen besonders auf: a. große Lysosomen (beim Weibchen 7 m, beim Männchen 5 m) und b. kleinere Lysosomen (bei beiden Geschlechtern 2–3 m). Die großen Lysosomen sind bei Weibchen zahlreicher und sP aktiver als bei Männchen. In den S₂-Segmenten (Durchmesser der Lysosomen 1,5–2,5 m) ist die -Glu in den Lysosomen der Männchen aktiver als bei den Weibchen; jedoch sind die Geschlechtsunterschiede in S₂ geringer als in S₁ In den S₃-Segmenten sind sP und -Glu in den Lysosomen weiblicher Nieren aktiver als in denen männlicher Tiere. — In den übrigen Abschnitten des Nephrons und in den Sammelrohren bestehen keine Geschlechtsunterschiede. — Die Lysosomen der Sammelrohre haben eine höhere Aktivität für -Glu als für sP.Durch Kastration werden die Geschlechtsunterschiede geringer, bleiben aber grundsätzlich erhalten; in den S₁-Segmenten können jedoch Lysosomen über 2,5 m nicht mehr nachgewiesen werden. Nach Testosteronbehandlung männlicher Kastrate nimmt die Aktivität der sP und -Glu gegenüber unbehandelten Kastraten ab. Bei kastrierten weiblichen Tieren treten nach Testosteronbehandlung wieder große Lysosomen auf, das Enzymmuster unbehandelter Tiere wird jedoch nicht erreicht. Östradiolbehandlung kastrierter Tiere führt bei beiden Geschlechtern in etwa zu einer Restitution der normalen Enzymverteilung, insbesondere bei den Männchen. Bei den Weibchen sind die Lysosomen größer und reagieren intensiver als bei Normaltieren, die Anzahl der Lysosomen scheint aber geringer zu sein.Insgesamt ergibt sich, daß die Lysosomen und die lysosomalen Enzyme unter dem Einfluß der Geschlechtshormone stehen.

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On the cytochemistry of lysosomes in the rat kidney under normal and experimental conditions

Summary Acid phosphatase (ap) and -glucuronidase (-glu) have been investigated in the lysosomes of the rat kidney between the 16th embryonic and 33th postnatal day. Furthermore these enzymes were demonstrated in the kidney of adult normal as well as of orchiectomized or ovarectomized rats following treatment with homosexual and heterosexual hormones. — Up till birth, the development of ap and -glu runs nearly parallel to one another in the nephron and in the collecting tubules. At the first day of life an irregular increase with respect to number, diameter, and activity of lysosomes containing ap can be observed in the S₁ segments of the iuxtamedullary nephrons; a decrease occurs between the 5th and 9th postnatal day. On the contrary the -glu activity increases continously. Between the 24th and 25th day of life its activity decreases in the lysosomes of the S₁ and S₂ segments; the ap activity, however, increases. For the first time sex-specific differences concerning the distribution pattern of ap can be revealed around the 18th day of life in the S₃ segments; in the case of -glu ca one week later in the S₁ segments. The final ap and -glu pattern only exists in the kidney of adult animals. Here, in the male and female kidney two classes of lysosomes exhibit striking peculiarities in the S₁ segments: a. big lysosomes (in male 5 m, in female 7 m in diameter) b. small lysosomes (in both sexes 2–3 m in diameter). The big lysosomes are more numerous. Moreover their ap activity is higher in female rats in comparison with the male kidney. In the S₂ segments (lysosomal diameter 1.5–2.5 m) the -glu activity of male rats surpasses that of females. However sex differences in the S₂ are as obvious as in the S₁ segments. In S₃ the strongest ap and -glu reaction appear in female kidneys. — In the other parts of the nephron and in the collecting tubules sexspecific differences have never been observed. — In the lysosomes of the collecting tubules more -glu than ap activity can be detected.Castration induces only a decrease of sex differences, but they do not disappear completely; in the S₁ segments lysosomes being bigger than 2.5 m are absent. In male castrates treated with testosterone the activity of ap and -glu is lowered in comparison with unsubstituted animals. Following application of testosterone the big lysosomes reappear in overectomized rats; but the enzyme pattern of untreated animals will never be obtained. In both sexes treatment of castrated animals with estradiol is accompanied by restitution of the normal ap and -glu pattern especially in males. In the female kidney lysosomes are bigger and more active in comparison with the controls; the number of lysosomes seems to be reduced. Summarizing strong evidence occurs that in the rat kidney lysosomes and lysosomal enzymes are controlled by sex hormones.

     

Chloroquine inhibits autophagic flux by decreasing autophagosome-lysosome fusion

Macroautophagy/autophagy is a conserved transport pathway where targeted structures are sequestered by phagophores, which mature into autophagosomes, and then delivered into lysosomes for degradation. Autophagy is involved in the pathophysiology of numerous diseases and its modulation is beneficial for the outcome of numerous specific diseases. Several lysosomal inhibitors such as bafilomycin A₁ (BafA₁), protease inhibitors and chloroquine (CQ), have been used interchangeably to block autophagy in in vitro experiments assuming that they all primarily block lysosomal degradation. Among them, only CQ and its derivate hydroxychloroquine (HCQ) are FDA-approved drugs and are thus currently the principal compounds used in clinical trials aimed to treat tumors through autophagy inhibition. However, the precise mechanism of how CQ blocks autophagy remains to be firmly demonstrated. In this study, we focus on how CQ inhibits autophagy and directly compare its effects to those of BafA₁. We show that CQ mainly inhibits autophagy by impairing autophagosome fusion with lysosomes rather than by affecting the acidity and/or degradative activity of this organelle. Furthermore, CQ induces an autophagy-independent severe disorganization of the Golgi and endo-lysosomal systems, which might contribute to the fusion impairment. Strikingly, HCQ-treated mice also show a Golgi disorganization in kidney and intestinal tissues. Altogether, our data reveal that CQ and HCQ are not bona fide surrogates for other types of late stage lysosomal inhibitors for in vivo experiments. Moreover, the multiple cellular alterations caused by CQ and HCQ call for caution when interpreting results obtained by blocking autophagy with this drug.     

Different aspects of membrane differentiation at the inner side (GERL) of the Golgi apparatus in rabbit luteal cells

Synopsis After luteinization, during the growth phase, rabbit luteal cells showed a well-developed Golgi apparatus, which was clearly reduced at the end of pseudo-pregnancy. During this whole period, acid phosphatase was demonstrated in the saccules (g) of the Golgi stack and in the innermost Golgi element (G₂), which may be part of GERL. Between both acid phosphatase-positive compartments, a negative or slightly positive element (G₁) was present paralleling the saccules of the Golgi stack. This element was composed of cisternal (G₁ c) and perforated portions (G₁ p) and directly bordered the thiamine pyrophosphatase-positive saccules of the Golgi stack (g₁–g₂). Arylsulphatase activity was present in two saccules in the middle of the stack (g₃–g₄) and in the innermost Golgi element (G₂). In the acid phosphatase and arylsulphatase reactions the limiting membrane of the lysosomes was more reactive than the matrix. After phosphotungstic acid staining at a low pH, the inner elements of the Golgi apparatus (G₁ and G₂) and the border of the lysosomes were heavily contrasted. The lysosomal matrix and the other Golgi stack saccules were either almost unstained or displayed a clearly lower contrast.It is concluded that the cytochemical difference between Golgi (g) and GERL (G) membranes is most probably the result of a specific process of membrane differentiation, which takes place at G₁. There is also evidence that the lysosomal matrix hydrolases may be formed in the saccules of the Golgi stack. The strongly phosphotungstic acid-positive inner elements are, although more extended, comparable in large part with the GERL elements as described in neurons (Novikoffet al., 1971).