The evaluation of large test fields for morphometric studies in electron microscopy

Involvement of p38MAPK in the regulation of proteolysis by liver cell hydration

BACKGROUND & AIMS

Liver cell hydration is a major determinant of proteolysis control; however, the underlying mechanisms are unknown.

METHODS

The role of mitogen-activated protein kinases for proteolysis control was studied in perfused rat liver.

RESULTS

Hyposmolarity led to a rapid activation of Erk-2 and p38(MAPK), but not of c-Jun-N-terminal kinase 1. Likewise, isosmotic cell swelling induced by insulin, ethanol, or glutamine/glycine activated p38(MAPK). Inhibition of hyposmotic Erk activation by pertussis or cholera toxin, erbstatin, or genistein had no effect on the swelling-induced inhibition of proteolysis. Likewise, wortmannin, rapamycin, and okadaic acid were ineffective, but proteolysis recovery from hyposmotic inhibition was okadaic acid sensitive. SB203580, an inhibitor of p38(MAPK), abolished both the antiproteolytic effect of hyposmotic cell swelling and the hyposmolarity-induced inhibition of autophagic vacuole formation. Also, the antiproteolytic effect of isotonic cell swelling induced by ethanol, glutamine/glycine, or insulin was abolished by SB203580, but not the swelling potency of these agents. SB203580 had no effect on the cell hydration-independent control of proteolysis exerted by NH4Cl, asparagine, or phenylalanine.

CONCLUSIONS

The data suggest an important role of p38(MAPK) in the regulation of autophagic proteolysis by cell volume in liver.

Inhibition of cellular autophagy in kidney tubular cells stimulated to grow by unilateral nephrectomy

Cytoplasmic growth (hypertrophy) presupposes a positive metabolic balance brought about by increased anabolic and/or decreased catabolic processes. Degradation of cytoplasmic components takes place in autophagic vacuoles (AVs) whose volume fraction may be taken as a measure of the relative rate of degradation of cytoplasmic components. Male adult Sprague-Dawley rats (n = 80) were unilaterally nephrectomized (n = 40) or sham-operated (n = 40) and were killed 3.5-57.5 h p.o. The volume density of AVs in parenchymal cells of renal cortical convoluted tubules was determined morphometrically by systematic evaluation of large test fields in the electron microscope. During compensatory renal growth, the volume densities of autophagic vacuoles were reduced at day 0 (3.5-8 h p.o.), day 1 (20.5-33.5 h p.o.) and day 2 (44.5-57.5 h p.o.) by 49% (p less than 0.01), 43% (p less than 0.05), and 19% (n.s.), respectively, when compared with sham-operated controls. No decrease, and even an increase, in the AV-volume fraction was found in liver parenchymal cells of the unilaterally nephrectomized animals. This indicates that inhibition of autophagy is not a general response after unilateral nephrectomy, but is confined to the growing kidney, where it may represent a significant factor in the increase of cytoplasmic mass.

Short-term inhibition of cellular autophagy by isoproterenol in the submandibular gland

The present study examines the short-term (i.e. 10 min after injection) influence of isoproterenol on cellular autophagy in the rat submandibular gland. The volume fraction of autophagic vacuoles was significantly reduced, suggesting that an anticatabolic reaction, namely inhibition of cellular autophagy, is an early and significant event in the growth of the submandibular gland which is known to occur with long-term isoproterenol treatment.

Inhibited autophagic degradation during ACTH-stimulated growth of rat adrenal zona fasciculata

Autophagic vacuoles (AVs) in adrenal parenchymal cells of the outer part of the zona fasciculata were investigated by means of electron microscopic morphometry in 40 adult male Sprague Dawley rats. Four test groups and four control groups received twice daily subcutaneous injections of ACTH (12.5 U/kg body weight) or physiological saline, respectively, for 3, 6, 9 and 12 days. At 12 days the total dry weight of the adrenals was increased in ACTH-treated animals from 17.2 to 71.0 mg (about fourfold) and the average volume of zona fasciculata cells from 1,500 to 5,100 microns3 (about threefold). The relatively larger increase in total mass reflects mitotic activity in the growing adrenal tissue. The calculated growth rate of total tissue expressed as the percentage increase in dry weight per day was 12% at day 3 and decreased to 4.6% at day 12 of ACTH stimulation. During the time interval investigated the cytoplasmic volume fraction of autophagic vacuoles was significantly reduced from 10 X 10(-5) in controls to 1 X 10(-5) in ACTH-treated animals (p less than 0.001). Assuming a half-life for AVs of 7.9 min (Papadopoulos and Pfeifer 1986), autophagic degradation of cytoplasm can be calculated as 1.3%/day in controls, but only 0.15%/day in ACTH-treated animals. Thus growth of 1.15%/day can be attributed to inhibition of autophagic degradation. Although this is only part of total growth, it is evident from the present results that anticatabolic growth induction is utilized nearly to its maximum in adrenocortical fasciculata cells under the influence of ACTH.

Intracellular turnover and cardiac hypertrophy

Ultrastructural evidence is presented that intracellular autophagic degradation of cytoplasmic constituents is reduced during pressure induced hypertrophy of left ventricular myocardium after supravalvular aortic constriction in rats. This anti-catabolic reaction has to be considered as an important mechanism for shifting the balance between synthesis and degradation to the positive side. Short term studies after administration of isoproterenol suggest a close functional relationship between work load on the one hand and the anti-catabolic reaction on the other.

Cardiac hypertrophy in rats after supravalvular aortic constriction. II. Inhibition of cellular autophagy in hypertrophying cardiomyocytes

Adult male Sprague-Dawley rats were killed by retrograde perfusion fixation 3, 7, 14, 21 and 35 days after supravalvular aortic constriction (n = 33) or sham-operation (n = 25). Subepicardial specimens of the left ventricular myocardium were evaluated by conventional electron microscopic morphometry, and in addition were examined for the occurrence of autophagic vacuoles (AVs) using large test areas (3.9 X 10(4) micron 2 per animal). The quotient of mitochondrial to myofibrillar volume fraction was largely unchanged during hypertrophy but was reduced by 25% compared with controls after termination of growth at 35 days. During the process of hypertrophy which eventually led to an increase in average single cell volume of the cardiomyocytes by 78%, the volume fraction and the numerical density of AVs was significantly lower than in sham-operated rats. The most striking difference was observed 7 days after the operations, the stage at which the growth rate of the cardiomyocytes relative to controls was at its maximum of 4.5% per day. At this point the volume fraction as well as the numerical density of AVs were reduced by about 50% compared with controls. At 14 and 21 days after operation, when the relative growth rate of the hypertrophying cardiomyocytes was still 2% and 1% per day, the AV volume fraction was reduced to a lesser extent (by 47% and 28%, respectively). After termination of adaptive growth at 35 days significant differences in fractional volume and numerical density of AVs were no longer detectable. These results suggest that degradation of cytoplasmic components is inhibited in cardiomyocytes undergoing hypertrophy. Such an anticatabolic reaction seems to play an important role in establishing the positive balance of cellular metabolism generally required for growth processes.

Inhibition by insulin of cellular autophagy in proximal tubular cells of rat kidney

Adult male Sprague-Dawley rats were injected intraperitoneally with 5 U insulin/kg body wt (45 animals). As determined by quantitative electron microscopy, the volume fraction and the numerical density of autophagic vacuoles (AV) in proximal tubular cells decreased within 10 min by 46 and 26%, respectively. A partial recovery of the AV volume fraction was observed 20 and 30 min after the injection contrary to our previous findings with liver (J. Cell Biol. 78: 152-167, 1978). In an additional experiment (12 animals) it was shown that an insulin dose of 0.5 U but not of 0.05 U/kg body wt reduced the AV volume fraction to an extent similar to that of 5 U. To eliminate possible secondary effects, Ringer solution containing 0.8 microM insulin was dropped intravitally for 15 min to one pole of the decapsulated kidney and Ringer solution without additions to the other pole (8 animals). After intravital fixation, the AV volume fraction and numerical density in proximal tubular cells was found to be reduced under the influence of insulin by 22 and 36%, respectively. This data shows that insulin inhibits the process of cellular autophagy in proximal tubular cells of the kidney.

Acute effects of isoproterenol on cellular autophagy. Inhibition in myocardium but stimulation in liver parenchyma

The influence of isoproterenol (IPR) on cellular autophagy was examined in left ventricular myocardium and in liver parenchyma of rats two hours after a subcutaneous injection of a low dose (3 mg/kg body weight). 4 animals were treated with IPR, 4 controls received Ringer solution. The average cytoplasmic volume fraction of the autophagic vacuoles (AV) was 1.6 X 10(-4) in the heart muscle of the controls. After treatment with IPR this value was reduced by 70% to 0.5 X 10(-4). This inhibition of cellular autophagy is interpreted as an initial anticatabolic reaction which might be responsible for the myocardial hypertrophy after chronic administration of IPR. An opposite influence of IPR was observed in the hepatocytes. The volume fraction of AV's increased twofold to 8.7 X 10(-4) after IPR, compared to 4.0 X 10(-4) in control animals. In the controls, the volume fraction of AV's in heart muscle was 57% of the value found in the liver. Comparing liver tissue after fixation by immersion and by perfusion, no statistically significant differences in the volume fractions and in the numerical densities of AV's were observed.

A morphometric study on growth of bile canaliculi after partial hepatectomy

19-33 h after partial hepatectomy there is a time-dependent increase of the bile canalicular luminal volume, of the total length of bile canaliculi, and of their non-microvillous, smooth surface, when measured per unit volume of lobular parenchyma. On average the luminal volume fraction is increased by a factor of 2.8, the length per volume by a factor of 1.4, and the density of smooth surface by a factor of 2.0, when compared with sham-operated controls. On the other hand, the volume and surface density of bile canalicular microvilli are only slightly increased after partial hepatectomy. These findings are interpreted as indicating disproportional growth of bile canaliculi which is due predominantly to the formation of new, at first non-microvillous, membrane.

An analysis of histology and DNA-ploidy in primary wilms tumors and their metastases and a study of the morphological effects of therapy

In children with Wilms' tumours the length of survival is greatly influenced by success in preventing or controlling metastatic disease. The current study focuses on the morphological aspects of metastases when compared with the primary tumour. In 8 patients it appeared that blastema is the most likely component to metastasize, whereas epithelial and stromal components were hardly, if at all, represented in metastases. Furthermore, flow cytometric DNA ploidy determinations on 4 cases showed that both the primary tumours and the metastases had stemlines in the diploid and low aneuploid (hyperdiploid) range. Finally, in four cases the influence of therapy on morphology of the primary tumours was analyzed. In these cases blastema seemed to be the component most sensitive to therapy. Thus, blastema seems to play a central role in prognosis of Wilms' tumours; either reacting to therapy or, if insensitive, by metastasizing.