Further studies on the mechanism of the late protective effects of phenylmethylsulfonyl fluoride on carbon tetrachloride-induced liver necrosis

We previously reported that phenylmethylsulfonyl fluoride (PMSF) administration to rats (100 mg/kg, ip in olive oil) as late as 6 or 10 hr after CCl4 (1 ml/kg, ip as a 20% v/v solution in olive oil) can partially prevent the necrogenic response to the hepatotoxin at 24 hr. Here we confirm that observation by electron microscopy and provide further evidence that only in these circumstances were nuclear clumping of chromatin, slight dilatation of the endoplasmic reticulum, myelin figures and lipid droplets in the cytoplasm, large numbers of lysosomes and peroxisomes, glycogen, and slightly swollen mitochondria observable in the protected animals. A very minor part of the late protective effects of PMSF might be due to the effects of this drug on decreasing the intensity of covalent binding of CCl4-reactive metabolites or the intensity of CCl4-induced lipid peroxidation still occurring 6 or 10 hr after CCl4. PMSF administration did not prevent CCl4-induced decreases in cytochrome P450 content or glucose-6-phosphatase activity but partially prevented CCl4-induced calcium accumulation in liver. PMSF treatment increased glutathione and glycogen content in CCl4-poisoned animals, but did not markedly modify protein/phospholipid synthesis or degradation processes. Results suggest that the late protective effects of PMSF administration in CCl4-induced liver necrosis might be due to a favorable modulation of the calcium-calmodulin system similar to that previously described for other drugs.     

Effect of tryptophan on toxic cirrhosis induced by intermittent carbon tetrachloride intoxication in the rat

The effects of the administration of tryptophan on toxic cirrhosis induced by intermittent carbon tetrachloride (CCl4) intoxication in the rat were investigated. Rats received CCl4 (0.45 ml/100 g body wt ip) twice weekly for 10-14 weeks. Tryptophan (30 mg/100 g body wt) by stomach tube was administered 1 hr before killing. Tryptophan improved hepatic polyribosomal aggregation and [14C]leucine incorporation into protein in vitro of control rats as well as long-term CCl4-treated rats that had developed toxic cirrhosis. However, the effects were more marked in control than in experimental rats. Tryptophan administration induced an increase in labeled nuclear RNA release in vitro and a decrease in labeled tryptophan binding to nuclear protein in vitro of livers of rats receiving long-term CCl4 and of control rats. The results indicate that the stimulatory effects of a single administration of tryptophan in toxic cirrhotic livers are similar to, but somewhat less than, those which occur in livers of normal, control rats.     

Chlordecone-induced potentiation of carbon tetrachloride hepatotoxicity: a light and electron microscopic study

Previous studies have shown that a chlorinated pesticide, chlordecone (Kepone), greatly potentiates carbon tetrachloride (CCl4) hepatotoxicity and lethality (Curtis, L.R., Williams, W.L., and Mehendale, H.M. (1979). Toxicol. Appl. Pharmacol. 51, 283-293; Curtis, L.R., and Mehendale, H.M. (1980). Drug Metab. Dispos. 8, 23-27). The present study describes sequential morphologic changes which occurred in livers of rats given a "nontoxic" level of chlordecone (10 ppm for 15 days) followed by a single injection of CCl4 (0.1 ml/kg). The hepatic alterations were examined 1 to 36 hr after exposure of the rats to CCl4. Those changes were compared to hepatic alterations which occurred in rats that received the same dose of chlordecone (10 ppm for 15 days) or a single injection of CClr (0.1 ml/kg) alone. The only change noted in livers from rats that received chlordecone alone was focal increase in smooth endoplasmic reticulum (SER) of hepatocytes at 24 hr and continuing throughout the time course of the experiment. Livers from animals that received CCl4 alone showed morphologic changes at 6 hr consisting of glycogen loss, increase in SER, and dilatation of rough endoplasmic reticulum (RER) in pericentral hepatocytes. Accumulation of small lipid droplets was also noted in midzonal hepatocytes. After 6 hr, there was no further increase in severity of injury. At 12 hr recovery was noticeable and, by 36 hr, livers from the CCl4 group appeared normal. Prior administration of chlordecone greatly potentiated pathologic changes in livers of animals that received CCl4. By 4 hr, there was total loss of glycogen in hepatocytes throughout the entire lobule. Small lipid droplets were present in pericentral, midzonal and periportal hepatocytes. Hepatocytes with extremely dilated RER were randomly scattered throughout the entire lobule. At 6 hr, there was further accumulation of lipid in the form of large droplets in hepatocytes. Focal, necrotic cells surrounded by polymorphonuclear leukocytes were randomly distributed throughout the lobule. The number of necrotic foci had progressively increased at the 12- and 24-hr intervals. By 36 hr, confluent areas of necrosis in pericentral and midzonal areas were observed in livers of some animals. This study indicates that although the combination of chlordecone and CCl4 produces much greater hepatic injury resembling damage due to a massive dose of CCl4, histologically, some differences in the progression and distribution of hepatocellular damage within the lobular architecture of the liver are evident.     

D-galactosamine hepatotoxicity. 3. Normoactive smooth endoplasmic reticulum and modification by phenobarbital

The administration of a single dose of d-galactosamine-HCL (375 mg/kg ip) to female rats produces severe hepatocellular necrosis. Ultrastructural studies disclose a variety of nuclear and cytoplasmic changes including focal and diffuse hyperplasia of the smooth endoplasmic reticulum. The functional capacity of the hyperplastic smooth endoplasmic reticulum was investigated by several criteria. Pentobarbital sleeping time determined 6, 16, and 24 hr after d-galactosamine injection was similar to that observed in saline-treated control animals. Hepatic microsomal protein concentration, cytochrome P-450 content, and NADPH cytochrome c-reductase activity measured at 20 hr were similar in d-galactosamine-treated and control animals. Thus, using these modalities, the hyperplastic smooth endoplasmic reticulum induced by d-galactosamine was not associated with an altered microsomal drug metabolizing activity.When phenobarbital was administered in a dose of 80 mg/kg for 4 days prior to d-galactosamine, the histological evidence of hepatocellular injury and lipid accumulation was less severe than in animals receiving d-galactosamine alone. The mechanism of the modification of hepatotoxicity and fatty liver by phenobarbital remains to be determined.     

Chlordecone-induced potentiation of carbon tetrachloride hepatotoxicity: a morphometric and biochemical study

The present study, conducted over a time course of 36 hr after CCl4 administration, describes sequential morphometric and biochemical changes which occur in livers of rats exposed to a combination of low levels of chlordecone (10 ppm for 15 days) and a single ip injection of CCl4 (0.1 ml/kg). Those changes were compared to hepatic alterations which occur in rats that received the same dose of chlordecone or CCl4 alone. Biochemical studies showed only trivial increases in levels of glutamic-pyruvic transaminase (GPT), glutamic-oxalacetic transaminase (GOT), and moderate but temporary increases in isocitrate dehydrogenase (ICD) after CCl4 alone. The combination of chlordecone and CCl4 resulted in significantly greater elevations of all three serum enzymes at all time intervals examined. Morphometric data showed no difference between normal diet controls and animals exposed to chlordecone alone as far as numerical density of hepatocytes or volume densities of hepatocytes with glycogen, lipid, dilated rough endoplasmic reticulum (RER), pyknosis, or mitoses. Morphometric analysis of livers from animals that received CCl4 alone showed decreases in numerical density, temporary decrease in percentage of hepatocytes containing glycogen, an increase in hepatocytes containing lipid, temporary increase in hepatocytes with dilated RER, and temporary increases in pyknotic nuclei. Soon after the initial hepatic injury was histologically evident between 4 and 6 hr, the number of mitoses increased dramatically and this progressed until complete recovery from CCl4 damage. From all indices of damage, complete recovery was evident by 36 hr after CCl4 administration.(ABSTRACT TRUNCATED AT 250 WORDS)     

Prevention of carbon tetrachloride-induced liver necrosis by the chelator alizarin sodium sulfonate.

The administration of the calcium chelator alizarin sodium sulfonate (ASR) (100 mg/kg ip in saline) 30 min before or 6 or 10 hr after CCl4 (1 ml/kg ip as a 20% v/v solution in olive oil) partially prevents the necrogenic effect of the hepatotoxin at 24 hr, but prevention of CCl4 fat accumulation was not observed. Protective action cannot be attributed to potential decreasing effects of ASR on CCl4 levels reaching the liver, on the covalent binding of CCl4-reactive metabolites to cellular components, or on CCl4-induced lipid peroxidation because ASR does not modify these parameters significantly. ASR administration increases GSH levels in livers of both control and CCl4-poisoned animals and decreases the calcium content of intoxicated animals at 24 hr of poisoning. ASR significantly lowers the body temperature of CCl4-treated animals at different times of the intoxication process. Present and previous results from our laboratory on the preventive effects of another very specific calcium chelator, calcion, and several anticalmodulins suggest that the beneficial effects of ASR might be associated with its calcium chelating ability. Other protective effects of ASR, such as lowering body temperature or increasing GSH content in liver, cannot be excluded.     

Protective effect of tryptophan and cysteine against carbon tetrachloride-induced liver injury

The effects of the administration of tryptophan and/or cysteine on carbon tetrachloride (CCl4)-induced hepatic injury were investigated. Rats received CCl4 (1 ml/kg ip) followed 6 hr later by tryptophan (300 mg/kg) and/or cysteine (950 mg/kg) via stomach tube and rats were killed after 24 hr. Treatment with tryptophan, cysteine, or both reduced the degree of hepatic necrosis observed histologically. While CCl4 caused polyribosomal disaggregation and decreased [14C]leucine incorporation into liver proteins in vitro and in vivo, treatment with tryptophan, cysteine, or both caused a shift in polyribosomes toward heavier aggregation and protein synthesis was increased. Serum activities of lactic dehydrogenase (LDH), glutamate oxaloacetate transaminase, glutamate pyruvate transaminase, and gamma-glutamyl-transpeptidase were markedly increased after CCl4 alone but after subsequent treatment with cysteine or with tryptophan and cysteine appreciable decreases occurred. Glutathione concentration decreased but total amount remained constant in the livers of CCl4-treated rats while subsequent treatment with cysteine alone or together with tryptophan elevated both levels of glutathione. Using isolated hepatocytes, CCl4 caused decreases in cell viability, in release of LDH, and in [14C]leucine incorporation into protein. Treatment with CCl4 and tryptophan and/or cysteine revealed that cysteine alone or with tryptophan improved cell viability and decreased LDH release of the cells, while tryptophan alone or with cysteine improved protein synthesis. Upon cytologic evaluation, the isolated hepatocytes revealed membrane distortions after CCl4 alone but these were less marked after CCl4 plus tryptophan, cysteine, or both (most improvement). Thus, tryptophan and cysteine act in a beneficial manner against CCl4-induced hepatic injury in the rat.     

肝纤维化大鼠肝脏中内质网应激相关分子CHOP和TRB3的表达变化

 目的： 观察内质网应激相关分子CCAAT/增强子结合蛋白同源蛋白(CHOP）和Tribbles同源蛋白3（TRB3）在四氯化碳（CCl4）致大鼠肝纤维化过程中的表达变化,探讨其在肝纤维化过程中的可能作用。方法： 体重180～200　g的雄性Wistar大鼠随机分为正常4周组、正常8周组、肝纤维化4周组和肝纤维化8周组,肝纤维化组大鼠皮下注射40%CCl4制备肝纤维化模型,分别在4周和8周处死大鼠,观察肝组织病理改变,Western blotting检测肝脏活化转录因子6（ATF6）蛋白,免疫组化、Western blotting和real-time PCR分别检测肝脏CHOP和TRB3蛋白和mRNA表达变化,TUNEL法检测肝脏细胞凋亡。结果： 肝纤维化组大鼠肝脏可见假小叶形成,p90ATF6蛋白表达量较正常组明显减少（P<0.01）,p50ATF6蛋白表达量较正常组明显增加（P<0.01）,肝细胞胞浆CHOP和TRB3蛋白及mRNA表达量较正常组显著增加（P<0.01）,细胞凋亡率较正常组显著增加（P<0.01）。结论： 内质网应激相关分子CHOP和TRB3在CCl4致大鼠肝纤维化过程中蛋白及mRNA表达水平明显增加,其变化趋势与大鼠肝细胞凋亡率一致,提示内质网应激可能通过CHOP和TRB3促进肝细胞凋亡,参与肝纤维化发生发展。     

肝纤维化大鼠肝细胞内质网形态及GRP78表达的研究

目的: 观察四氯化碳(CCl₄)致大鼠肝纤维化过程中内质网形态及内质网应激标志性蛋白——葡萄糖调节蛋白78(GRP78)的表达变化, 探讨内质网应激在肝纤维化发病机制中可能的作用。方法: 雄性Wistar大鼠皮下注射CCl₄制备肝纤维化模型,分别在4周及8周处死大鼠测定肝脏指数、血清丙氨酸氨基转移酶(ALT)和天冬氨酸氨基转移酶(AST)活性, 观察肝组织病理改变和肝细胞内质网形态, 免疫组化和real-time PCR分别检测肝组织GRP78蛋白及mRNA表达变化。结果: 肝纤维化组大鼠肝脏指数、血清ALT和AST活性显著高于正常对照组(P<0.01),肝纤维化明显, 电镜下见肝细胞内质网扩张,数量明显减少; 肝细胞胞浆中GRP78蛋白表达量及mRNA表达量较正常组显著增加(P<0.01)。结论: 在CCl₄诱导的肝纤维化发生过程中肝细胞内质网形态有明显损伤性变化, 内质网应激蛋白GRP78蛋白及基因表达水平明显增加, 提示内质网应激参与肝纤维化发生发展。     

Pivotal role of hepatocellular regeneration in the ultimate hepatotoxicity of CCl4 in chlordecone-, mirex-, or phenobarbital-pretreated rats.

Our earlier histomorphometric and biochemical studies suggested that the progressive phase of the interactive toxicity of chlordecone (CD) + CCl4 involves suppression of hepatocellular regeneration. The objective of the present work was to correlate hepatocellular regeneration with CCl4 (100 microliters/kg)-induced hepatotoxicity in rats maintained for 15 days on a normal (N) diet, relative to the regenerative response in rats maintained on a diet containing either 10 ppm CD, 225 ppm phenobarbital (PB), or 10 ppm mirex (M). Hepatocellular regeneration was assessed by measuring DNA and 3H-thymidine (3H-T) incorporation, followed by autoradiographic analysis of liver sections. Hepatotoxicity was assessed by measuring plasma transaminases (aspartate and alanine) followed by histopathological observations of liver sections for necrotic, swollen, and lipid-laden cells. Lethality studies were also carried out to assess the consequence of hepatotoxicity on animal survival. Dietary 10 ppm CD potentiated the hepatotoxicity of CCl4 to a greater extent than PB or M, as evidenced by elevations in plasma enzymes. Although the serum enzymes were significantly elevated in PB rats in contrast to the slight elevations in N and M rats, they returned to normal levels by 96 hr. However, serum enzyme elevations in CD rats were progressive with time until death of the animals. Actual liver injury by CCl4 was greater in PB- than in CD-pretreated rats, as evidenced by histopathological observations. A 100% mortality occurred in CD-pretreated rats at 60 hr after CCl4 administration, whereas no mortality occurred in either N-, M-, or PB-pretreated rats, indicating recovery from liver injury. Hepatocellular nuclear DNA levels were significantly decreased starting at 6 hr after CCl4 administration to CD-pretreated rats, but not in M- or PB-pretreated rats. 3H-T incorporation into nuclear DNA as well as percentage of labeled cells showed a biphasic increase in N rats: 1 at 1-2 hr, and the other at 36-48 hr after CCl4 administration. However, only 1 peak of 3H-T incorporation at 36-48 hr was observed in the CD + CCl4 combination, which was also significantly lower when compared to that observed after the M or PB + CCl4 combination treatments. These findings suggest that there is recovery in N-, PB-, or M-pretreated rats from CCl4-induced injury by virtue of the stimulated hepatocellular regeneration and tissue repair.(ABSTRACT TRUNCATED AT 400 WORDS)     

Hepatoprotective effects of prostacyclins on CCl4-induced liver injury in rats

Certain biochemical parameters of acute liver injury induced by carbon tetrachloride were investigated in rats treated with prostacyclin (PGI2) and two of its derivatives. Serum glutamate oxalacetate transaminase elevation and both triglyceride accumulation and reduction of glycogen content in liver were significantly suppressed by PGI2, 7-oxo-PGI2, and 20-methyl-13,14-didehydro-2,4-m-interphenylene-PGI2 48 hr after the injury. Prostacyclins partially restored some of the parameters of injury even in doses of 10 micrograms/kg ip. When the compounds were given 24 hr after CCl4 intoxication, much more pronounced protection was observed than in the case of treatments 1 hr before administration of the hepatotoxin. Thus, all tested prostacyclins exerted significant protective effects on acute liver damage which is obtained mainly in the second phase of the injury.     

Alloxan induced fatty liver degeneration in rat: Its effect on the microsomal lipids

Alloxan (250 mg/kg), injected 48 hr before sacrifice, produced fatty liver changes in rats. Microsomes isolated from these livers contained an increased amount of fatty acids, which could be ascribed to a fourfold increase in triglycerides, while the phospholipid content was not altered. A minor part of the triglyceride increase was solubilized by lysing treatment and sonication o the microsomes. Incorporation of [¹⁴C] glycerol into microsomal triglycerides was enhanced fivefold. An alteration in the microsomal phospholipid fatty acid composition with a significant increase in arachidonic acid content was also observed.     

PI3K/Akt信号通路及内质网应激在肝纤维化大鼠肝细胞凋亡中的作用

目的观察磷脂酰肌醇-3激酶/蛋白激酶(PI3K/Akt)信号通路及葡萄糖调节蛋白78(GRP78)、生长停滞及DNA损伤基因(CHOP/GADD153)在四氯化碳(CCl4)诱导的肝纤维化中的表达并探讨其可能的作用。方法将30只SD大鼠随机分为正常组、肝纤维化模型(皮下注射40%CCl4橄榄油溶液)4及8周组。HE染色法观察肝组织病理形态学;用real-time PCR技术检测肝脏内GRP78及CHOP mRNA的表达;用Western blot检测肝脏内PI3K/Akt信号通路中Akt1、磷酸化Akt1及内质网应激相关蛋白GRP78及CHOP的表达;用原位末端转移酶标记(TUNEL)检测细胞凋亡。结果与正常组大鼠比较,肝纤维化模型4及8周组大鼠肝脏内GRP78及CHOP mRNA和蛋白表达均明显升高(P0.05),而肝脏内Akt1和磷酸化Akt1蛋白的表达则较正常大鼠显著降低(P0.05);与正常组大鼠比较,肝纤维化模型4及8周组大鼠肝细胞凋亡显著升高(P0.05)。结论 PI3K/Akt信号通路及内质网应激可能在肝纤维化大鼠肝细胞凋亡中发挥了重要作用。     

Transplantation of fetal liver tissue suspension into the spleens of adult syngenic rats: effects of different cytotoxins on cytochrome P450 isoforms expression and on glycogen content.

Syngenic fetal liver tissue suspensions were transplanted into the spleens of adult male Fisher 344 inbred rats. Four months after surgery, transplant recipients and age matched control rats were treated with different cytotoxins (allyl alcohol [AAL], bromobenzene [BBZ], carbon tetrachloride [CCl4], or thioacetamide [TAA]) or the respective solvents 24 or 48 hours before sacrifice. Effects of the cytotoxins on the expression of three cytochrome P450 (P450) isoforms, 1A1, 2B1 and 3A2, within spleens and livers were assessed by immunohistochemistry. Additionally, effects on glycogen content within the hepatocytes were examined. In the livers AAL caused small lesions and fatty degeneration of hepatocytes only in some periportal areas. BBZ led to a perivenous necrosis of single cells only, whereas CCl4 and TAA caused complete necrosis of the centrilobular parenchyma. Treatment with each of the four cytotoxins led to necrosis and fatty degeneration of single or groups of hepatocytes within the intrasplenic transplants. This effect was most pronounced with CCl4 and TAA. The orthotopic livers of both solvent treated transplant recipients and control rats displayed only in few lobules a slight P450 1A1, but in all lobules a strong P450 2B1 and 3A2 expression, all mainly located in the hepatocytes around the central veins. AAL administration led to an increase in the P450 2B1 expression in the perivenous hepatocytes, whereas the staining for P450 1A1 was not affected and that for P450 3A2 in the periportal areas was even decreased. BBZ administration caused a P450 1A1 expression in the periportal hepatocytes but a decrease in this staining of the perivenous cells. The number of hepatocytes positively stained for P450 2B1 and 3A2 in the perivenous and intermediate zones was diminished in comparison to the livers of solvent treated rats. TAA and, more pronounced, CCl4 administration caused a strong reduction in the expression of all three P450 isoforms. Spleens of control rats displayed almost no P450 isoforms expression, independent of the treatment with the cytotoxins. Similar to adult liver, the hepatocytes in the transplant containing spleens showed nearly no P450 1A1, but a noticeable P450 2B1 and 3A2 expression. No staining was observed within the bile duct cells of the intrasplenic transplants. AAL administration slightly reduced the P450 2B1 and 3A2 expression in the transplants. BBZ and, much more pronounced, CCl4 and TAA treatment diminished the staining for all three P450 isoforms. AAL administration led to a marked decrease in the glycogen content of the hepatocytes of the periportal zones of the liver lobules, whereas after BBZ, CCl4 and TAA treatment a strong perivenous reduction in the glycogen content was seen. Similarly, within the intrasplenic transplants a remarkable decline in the glycogen content of the hepatocytes was caused by the treatment with each of the four cytotoxins. Especially after AAL and BBZ treatment the glycogen depletion within both livers and transplants was much more pronounced than the effects on morphology or P450 isoforms expression. It can be concluded that the effects of cytotoxins like AAL, BBZ, CCl4 or TAA seen in normal orthotopic liver are exerted in a similar way also in intrasplenic liver cell transplants.     

Effect of pregnenolone-16 -carbonitrile on the hepatic ultrastructure, glycogen content and ethylmorphine n-demethylase activity in pregnant, fetal, and newborn rats

Pregnenolone-16α-carbonitrile (PCN), a potent steroidal microsomal enzyme inducer, increased liver weight, depleted glycogen content, and markedly enhanced hepatic ethylmorphine N-demethylase activity in nonpregnant as well as in 18- and 21-day pregnant rats. Electron microscopy revealed extensive smooth-surfaced endoplasmic reticulum (SER) proliferation in the liver. Mitochondrial abnormalities were noted when the steroid was administered in the last stage of pregnancy.     

Role of hepatocellular regeneration in CCl4 autoprotection

The destruction of liver microsomal cytochromes P450 by a previously administered low dose of CCl4 has been widely accepted as the mechanism of CCl4 autoprotection. However, circumstantial evidence suggests that this mechanism cannot completely explain the phenomenon of autoprotection. The protective effect of a low dose of CCl4 (0.3 ml/kg, po) on the lethal effect of a subsequently administered high dose (5 ml/kg, po) was established in male Sprague Dawley rats. The protective dose permitted 100% survival, whereas only 15% survival was observed without it. Hepatotoxicity, measured by serum enzyme elevations (aspartate transaminase, alanine transaminase, and sorbitol dehydrogenase) and histopathological changes 24 hr after the treatment with high dose, was similar in both the groups, even though the protective dose had significantly decreased liver microsomal cytochromes P450 (to 62% of normal) and associated enzymes, aminopyrine demethylase and aniline hydroxylase. Rats pretreated with CoCl2 to decrease hepatic microsomal cytochrome P450 to 44% of normal levels did not show a significant protection from the hepatotoxicity of high dose of CCl4. Previous studies have established that hepatocellular regeneration is stimulated within 6 hr after the administration of a low dose of CCl4. Based on this observation, a premise that autoprotection results from augmented recovery from injury rather than decreased injury appears likely. Hence, the role of hepatocellular regeneration was evaluated by following 3H-thymidine incorporation in hepatocellular nuclear DNA, labelling index by autoradiography, and by morphometric estimation of mitotic index. After administration of the protective dose of CCl4, stimulated nuclear DNA synthesis measured by 3H-thymidine incorporation into nuclear DNA was increased and this remained high even after subsequent administration of high dose of CCl4. Forty-eight hr after the administration of a lethal dose of CCl4 alone (5 ml/kg, po), labelling index was slightly increased, but mitotic index was not increased. In the surviving rats (15%), both labelling index and mitotic index were significantly elevated after an additional 24 hr. In rats receiving the protective dose, a significantly greater elevation of labelling index as well as mitotic index occurred 48 hr after the administration of the same lethal dose of CCl4. These results suggest that hepatocellular regeneration stimulated by the protective dose, as a biological response recruited to overcome the accompanying limited injury, may augment and sustain tissue repair processes to permit tissue restoration even after the massive liver injury elicited by the subsequent large dose of CC14.     

Protection of hepatotoxic and lethal effects of CCl4 by partial hepatectomy

CCl4 is a hepatotoxic haloalkane, capable of producing hepatocellular fatty degeneration and centrilobular necrosis. Previous reports indicate induction of liver regeneration after 36-48 hr of CCl4 treatment, which is considered as a secondary effect. The present investigation was undertaken to evaluate the primary effects of CCl4 on hepatic DNA synthesis and to correlate liver regeneration with CCl4 toxicity. These studies were conducted in normal and actively regenerating livers using male Sprague-Dawley rats undergoing sham operation (SH), or partial (70%) hepatectomy (PH). Incorporation of 3H-thymidine (3H-T) in hepatocellular nuclear DNA and autoradiographic analyses of liver sections served as indices for hepatocellular regeneration. Initial experiments established that peak regeneration occurs at 2 days post-PH (PH2) and liver regeneration phases out by 7 days post-PH (PH7). SH and PH rats were challenged with a single ip dose of either corn oil vehicle or CCl4 at either 0.1 ml/kg (to represent subtoxic dose) or 2.5 ml/kg (to represent toxic dose). The low dose of CCl4 was not toxic and did not alter 3H-T incorporation and percentage labelled cells at 6 or 24 hours after administration to SH, PH2 or PH7 groups, indicating that there was no interference with PH-stimulated hepatocellular regeneration. The high dose of CCl4 was significantly hepatotoxic and lethal in SH rats, while in PH2 rats both hepatotoxic and lethal effects were significantly decreased. 3H-T incorporation as well as percentage labelled cells, highly stimulated by PH, were significantly decreased by high dose of CCl4. However, hepatocellular regeneration in PH2 rats treated with high dose of CCl4 was still significantly higher than SH or PH7 groups by virtue of the stronger stimulatory effect of PH. In PH7 rats, where hepatocellular regeneration had returned to the SH level, the hepatotoxic and lethal effects of the large dose of CCl4 were also restored. These findings show that the progressive phase of a single high dose of CCl4 injury which normally culminates in hepatotoxic and lethal effects is significantly mitigated by previously stimulated hepatocellular regeneration. High dose of CCl4 suppresses hepatocellular regeneration at early time points after administration in contrast to the smaller subtoxic dose of CCl4. By virtue of the much stronger stimulatory effect, PH results in the protection against the hepatotoxic and lethal effects of CCl4 despite the obtunding effects of the high dose on hepatocellular regeneration.     

The effects of insulin replacement and withdrawal on hepatic ultrastructure and biochemistry

This study examines the early hepatic biochemical and ultra-structural responses to insulin replacement in streptozotocin-diabetic rats and insulin withdrawal from insulin-maintained diabetic rats. Insulin administration rapidly lowered plasma glucose and the elevated glucose-6-phosphatase (G-6-Pase) specific activity of the diabetic rats. However, hepatic glycogen did not increase until after 3 hr of insulin treatment. Hepatic ultrastructure responded to insulin replacement after the decline in glucose and G-6-Pase. This was seen in periportal hepatocytes as a reduction in the close association between smooth endoplasmic reticulum (SER) and glycogen particles in the diabetic animals. The treated rats showed hepatic SER restricted to the periphery of glycogen masses, as is characteristic of these cells from normal rats, in many cells by 6 hr and all cells by 18 hr. Insulin withdrawal from insulin-treated diabetic rats elicited nearly a total reversal of the above events. Plasma insulin declined to a value half that of the normal rats by 6 hr after withdrawal; concurrently, plasma glucose rose sharply to hyperglycemic values as hepatic glycogen content dropped. Following the rise in plasma glucose and fall in glycogen content, G-6-Pase specific activity increased and by 16 hr reached the high values characteristic of the diabetic animal. Hepatic ultra-structure was also changed as evidenced by an intrusion of elements of the SER into the dense glycogen masses; the result was dispersed glycogen closely associated with SER as seen in the diabetic animal. It is concluded that the hepatic response to insulin replacement in diabetic animals and diabetic onset in insulin-withdrawn animals is rapid and occurs through defined stages.     

Transplantation of fetal liver tissue suspension into the spleens of adult syngenic rats: effects of different cytotoxins on cytochrome P450 mediated monooxygenase functions and on oxidative state.

Syngenic fetal liver tissue suspensions were transplanted into the spleens of adult male Fisher 344 inbred rats. Four months after surgery, transplant recipients and age matched control rats were treated with different cytotoxins (allyl alcohol [AAL], bromobenzene [BBZ], carbon tetrachloride [CCl4], or thioacetamide [TAA]) or the respective solvents 24 or 48 hours before sacrifice. Effects of the cytotoxins on P450 mediated monooxygenase functions in liver and spleen 9,000 g supernatants were assessed by measuring the model reactions ethoxyresorufin O-deethylation (EROD), ethoxycoumarin O-deethylation (ECOD), pentoxyresorufin O-depentylation (PROD), and ethylmorphine N-demethylation (EMND). Additionally, the influence on the oxidative state was investigated by assessing the liver and spleen tissue content of lipid peroxidation (LPO) products and of reduced and oxidized glutathione (GSH;GSSG). The livers of both solvent treated transplant recipients and control rats displayed regular EROD, ECOD, PROD and EMND activities. After AAL treatment EROD and EMND activities within the livers were not affected, but ECOD and PROD activities were increased. BBZ administration caused a decrease in EROD and EMND activities, ECOD activity remained unaffected, and PROD activity was even increased. CCl4 and TAA administration caused a strong reduction in the activity of all four model reactions. Spleens of control rats displayed almost no P450 mediated monooxygenase functions, independent whether the rats had been treated with the cytotoxins or not. In the transplant containing spleens, however, significant EROD and ECOD, but hardly any PROD or EMND activities were seen. After AAL administration EROD activity was not affected in the transplant containing spleens, but ECOD activity was increased. BBZ treatment led to a decrease in EROD and an elevation in ECOD activity. CCl4 and TAA strongly reduced the activity of both of these model reactions. The tissue content of LPO products within livers and transplant containing spleens was significantly increased after BBZ and CCl4 treatment. An elevation in LPO products was also seen in the spleens of the control rats due to CCl4 administration. Tissue GSH and GSSG content in both livers and transplant containing spleens were strongly reduced after BBZ treatment. After CCl4 administration only a significant decrease in liver GSSG contents was seen. TAA treatment caused a reduction in the GSH and GSSG content in the spleens of both transplant recipients and control rats, but not in the livers. From these results it can be concluded, that the effects of cytotoxins like AAL, BBZ, CCl4 or TAA on P450 dependent monooxygenase functions and on oxidative state are exerted in the ectopic intrasplenic liver cell transplants in a similar way as in normal orthotopic liver.     

Action of metabolic hormones on the fine structure of rat liver cells. I. Effects of fasting on the ultrastructure of hepatocytes

This report provides information on the ultrastructure of liver parenchymal cells from rats fasted 2, 15–21, and 21–40 hours. Fasting rats from 2 through 40 hours provokes alterations in the quantity and patterns of glycogen, amounts and forms of the rough endoplasmic reticulum, and the quantity of smooth endoplasmic reticulum in hepatocytes. After two hours of fasting glycogen occurs as clumps of α particles in restricted areas of the cytosome, the smooth endoplasmic reticulum is relatively sparse, and the rough endoplasmic reticulum is displayed as parallel cisternae comprising the characteristic basophilic bodies of the hepatocyte. Fasting the rat for 15 hours and longer decreases the amount of hepatic glycogen which appears predominantly as β particles in restricted regions of the liver cell. The prolonged fast provokes a dramatic proliferation of smooth endoplasmic reticulum in the liver parenchymal cell. The tubules of this organelle are continuous with the cisternae of rough endoplasmic reticulum and extend deep into the glycogen areas of the hepatocyte. Arguments are presented to support the concept that the smooth endoplasmic reticulum develops from rough endoplasmic reticulum and that its membranes provide a site for the location of enzymes involved in glycogen metabolism.