EC:2.6.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.6.1.2 (alanine aminotransferase)
26,722 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Impairment of various functions of the liver and concomitantly increased levels of parameters of liver damage, a clinical entity termed liver failure, is commonly seen after partial hepatectomy. We investigated in a rat model whether damage of the remnant liver was due to local inflammatory responses, and related to endotoxin or interleukin-1 (IL-1). To address this question, the effects of partial hepatectomy on infiltration of immunocompetent cells and expression of major histocompatibility complex (MHC) class II antigen of macrophages in the remnant liver was studied using immunohistochemical techniques. Specific intervention with recombinant N-terminal bactericidal/permeability-increasing protein (rBPI23) to neutralize endotoxin and with IL-1 receptor antagonist (IL-1ra) to block IL-1 activity was used to examine the respective roles of endotoxin and IL-1. After partial hepatectomy, we found an influx of neutrophils, an increased expression of MHC class II antigens, and morphologic changes of Kupffer cells consistent with activation. These inflammatory events coincided with increased serum levels of markers of liver damage (aspartate aminotransferase, alanine aminotransferase, ammonia). Both neutralization of endotoxin and blocking of IL-1 activity reduced hepatic inflammation and reduced serum levels of aminotransferases and ammonia. In addition, liver cell proliferation as assessed by staining for proliferating cell nuclear antigen (PCNA) expression was significantly enhanced when either endotoxin or IL-1 effects were blocked. Thus, our results suggest that local hepatic inflammatory responses inhibit liver cell proliferation and promote liver failure, presumably by affecting the functional capacity of the remnant liver.
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PMID:Endotoxin and interleukin-1 related hepatic inflammatory response promotes liver failure after partial hepatectomy. 759 Jun 69

The authors established a new experimental model of fulminant hepatic failure (FHF) with prolonged hepatocellular necrosis and impaired liver regeneration, and evaluated the immunological mechanisms related to the impaired liver regeneration in this model. A novel lipid A analogue, FS-112, was injected intravenously into male Balb/c mice, followed by a 70% partial hepatectomy 2 days later. Serum levels of T.Bil. and ALT rose 7 days after the partial hepatectomy, as compared with controls. In mice pretreated with FS-112, labeling indices of both BrdU and PCNA 36 hrs after the partial hepatectomy were significantly lower than those in the controls. Splenic lymphocytes harvested from the FHF mice 1-5 days after the partial hepatectomy showed a cytotoxic activity against regenerating hepatocytes with a peak effect on day 5. Cytotoxic activity against YAC-1 cells was also found up to 5 days after the partial hepatectomy, and resembled that directed against the regenerating hepatocytes. On the 5th day of FS-112 administration, there was a marked rise in the production of IFN-gamma from splenocytes. When FK-506, an immunosuppressive agent, was given intracutaneously daily for 7 days, serum levels of T.Bil. and ALT significantly decreased, as compared with controls. Furthermore, the PCNA-labeling index 36 hrs after the partial hepatectomy was enhanced by the administration with FK-506 in the FHF mice. These results strongly suggest that the NK cells activated by IFN-gamma may be involved in killing the regenerating liver cells, and thus play a role in the pathogenesis of the impaired liver regeneration in FHF.2+ recovery from the impaired liver regeneration in FHF.
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PMID:Natural killer cell may impair liver regeneration in fulminant hepatic failure. 768 19

The purpose of the present study was to establish a dose-response relationship for thioacetamide (TA), where tissue regeneration as well as liver injury were two simultaneous but opposing responses. Male Sprague-Dawley rats were injected intraperitioneally with a 12-fold dose range of TA, and both liver injury and tissue repair were measured. Liver injury was assessed by serum enzyme elevations. Serum alanine aminotransferase (ALT) elevation did not show any dose response over a 12-fold dose range up to 24 hr. A dramatic ALT elevation was evident after 24 hr and only for the highest dose (600 mg/kg). Tissue regeneration response was measured by 3H-thymidine (3H-T) incorporation into hepatocellular DNA and by proliferating cell nuclear antigen (PCNA) procedure during a time course (6, 12, 24, 36, 48, 72, and 96 hr). Tissue regeneration, as indicated by 3H-T incorporation, peaked at 36 hr after administration of a low dose of TA (50 mg/kg). With increasing doses, a greater but delayed stimulation of cell division was observed until a threshold was reached (300 mg/kg). Above the tissue repair threshold (600 mg/kg), because stimulated tissue repair as revealed by 3H-T incorporation in hepatonuclear DNA was significantly delayed and attenuated, injury assessed by serum enzyme elevations was remarkably accelerated, indicating unrestrained progression of injury leading to animal death. These findings suggest that, in addition to the magnitude of tissue repair response, the time at which this occurs is critical in restraining the progression of injury, thereby determining the ultimate outcome of toxicity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tissue repair response as a function of dose in thioacetamide hepatotoxicity. 776 27

Acetaminophen (APAP) is a widely used analgesic and antipyretic drug that causes massive centrilobular hepatic necrosis at high doses, leading to death. The objectives of this study were to test our working hypothesis that preplaced cell division and hepatic tissue repair by prior thioacetamide (TA) administration provides protection against APAP-induced lethality and to investigate the underlying mechanism. Male Sprague-Dawley rats were treated with a low dose of TA (50 mg/kg, intraperitoneally [i.p.]) before challenge with a 90% lethal dose (1,800 mg/kg, i.p.) of APAP. This protocol resulted in a 100% protection against the lethal effect of APAP. Because TA caused a 23% decrease of hepatic microsomal cytochromes P-450, the possibility that TA protection may be caused by decreased bioactivation of APAP was examined. A 30% decrease in cytochromes P-450 induced by cobalt chloride failed to provide protection against APAP lethality. Time course of serum enzyme elevations (alanine aminotransferase, aspartate aminotransferase, and sorbitol dehydrogenase) indicated that actual infliction of liver injury by APAP peaked between 12 to 24 hours after the administration of APAP, whereas the ultimate outcome of that injury depended on the biological events thereafter. Although liver injury progressed in rats receiving only APAP, it regressed in rats pretreated with TA. Acetaminophen t1/2 was not altered in TA-treated rats, indicating that significant changes in APAP disposition and bioactivation are unlikely. Moreover, hepatic glutathione was decreased to a similar extent regardless of TA pretreatment, suggesting that decreased bioactivation of APAP is unlikely to be the mechanism underlying TA protection. [3H]Thymidine incorporation studies confirmed the expected stimulation of S-phase synthesis, and proliferating cell nuclear antigen studies showed a corresponding stimulation of cell division through accelerated cell cycle progression. Intervention with TA-induced cell division by colchicine antimitosis ended the TA protection in the absence of significant changes in the time course of serum enzyme elevations during the inflictive phase of APAP hepatotoxicity. These studies suggest that hepatocyte division and tissue repair induced by TA facilitate sustained hepatic tissue repair after subsequent APAP-induced liver injury, producing recovery from liver injury and protection against APAP lethality.
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PMID:Stimulated hepatic tissue repair underlies heteroprotection by thioacetamide against acetaminophen-induced lethality. 784 22

Despite numerous studies on the effects of bile salts therapy in chronic liver disease, there are no reports on the influence such therapy has on hepatocyte proliferation. The aim of this preliminary study was to evaluate the effect of TUDCA on hepatocyte proliferation in 5 patients with HCV-correlated chronic liver disease. All patients were treated with TUDCA (10-13 mg/day) for three months and the determination of PCNA (Proliferating Cell Nuclear Antigen) expression was used to assess the proliferative activity of hepatocytes at the beginning and at the end of treatment. TUDCA reduced both ALT and Knodell's score in the 5 patients in whom a significant increase of PCNA-LI (p < 0.05) was observed after treatment. TUDCA administration seems to stimulate hepatocyte proliferation in man.
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PMID:Does tauroursodeoxycholic acid (TUDCA) treatment increase hepatocyte proliferation in patients with chronic liver disease? 854 78

It is often assumed that at a younger age populations are at higher risk of toxic effects from exposure to toxic chemicals. Recent studies have demonstrated that neonate and postnatally developing rats are resilient to a wide variety of structurally and mechanistically dissimilar hepatotoxicants such as galactosamine, acetaminophen, allyl alcohol, and CCl4. Most interestingly, young rats survive exposure to the lethal combination of chlordecone (CD) + CCl4 known to cause 100% mortality in adult male and female rats. In a study where postnatally developing (20- and 45-day), and adult (60-day) male Sprague Dawley rats were used, administration of CCl4 (100 microliters/kg, i.p.) alone resulted in transient liver injury regardless of age as indicated by plasma alanine transaminase (ALT), sorbitol dehydrogenase (SDH) levels and histopathological lesions. In CD-pretreated rats, CCl4-induced toxicity progressed with time culminating in 25 and 100% mortality by 72 h after CCl4 in 45- and 60-day rats, respectively, in contrast to regression of CCl4-induced toxicity and 0% mortality in 20-day rats. [3H]Thymidine (3H-T) incorporation and proliferating cell nuclear antigen (PCNA) studies revealed an association between delayed and diminished DNA synthesis, unrestrained progression of liver injury, and animal death. Time-course studies revealed that the loss of resiliency in the two higher age groups might be due to inability to repair the injured liver rather than due to infliction of higher injury. Intervention of cell division in 45-day CD rats by colchicine (CLC, 1 mg/kg, i.p.) 30 h after CCl4 challenge increased mortality from 25 to 85%, confirming the importance of stimulated tissue repair in animal survival. In contrast, efficient and substantial DNA synthesis observed in 20-day rats allows them to limit further progression of liver injury, thereby leading to full recovery of this age group with 0% mortality. Examination of growth factors and proto-oncogene expression revealed a 3- and 3.5-fold increase in transforming growth factor-alpha (TGF-alpha) and H-ras mRNA expressions, respectively, coinciding with maximal hepatocyte DNA synthesis in 20-day normal diet (ND) rats, as opposed to only 2- and 2.5-fold increases observed in 60-day ND rats, respectively. Increased expression of c-fos (10-fold) in 20-day rats occurred 1 h after CCl4 compared to less than a 2-fold increase in 60-day rats. These findings suggest that prompt stimulation of tissue repair permits efficient recovery from injury during early postnatal development of rats.
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PMID:Efficient tissue repair underlies the resiliency of postnatally developing rats to chlordecone + CCl4 hepatotoxicity. 871 44

A novel experimental model of submassive liver necrosis with impaired regeneration has been established. A novel lipid A analogue, FS-112, was injected intravenously into male BALB/c mice, followed 2 days later by a 70% partial hepatectomy. Over the next 9 days, mice became severely jaundiced, with a peak total bilirubin (TBil) concentration of (mean +/- s.d.) 12.9 +/- 2.1 mg/dL 7 days postoperatively. In contrast, the TBil concentration in vehicle-treated mice remained less than 2 mg/dL. Significant elevations of L-alanine:2-oxoglutarate aminotransferase (ALT) were also observed 3-7 days after the operation in mice pretreated with FS-112, compared with mice pretreated with the vehicle. Submassive liver necrosis was observed with extensive mononuclear cell infiltration in mice treated with FS-112 and subjected to partial hepatectomy. Furthermore, both the BrdU and the proliferating cell nuclear antigen (PCNA) labelling index (LI) 1 day following partial hepatectomy in mice pretreated with FS-112 (8.6 +/- 4.3 and 7.9 +/- 4.2%, respectively) were significantly lower than levels in vehicle-treated mice (25.8 +/- 3.8 and 26.5 +/- 10.5%, respectively). The time course of changes in the BrdU LI in liver specimens from mice treated with both FS-112 and partial hepatectomy did not increase, even 3, 5, and 7 days postoperatively. Excellent liver regeneration with a PCNA LI 10-fold higher than the resting level was observed in mice treated with D-galactosamine hydrochloride. These results strongly suggest that this animal model of submassive liver necrosis may be suitable for clarifying the mechanisms of impaired liver cell regeneration often seen in fulminant hepatitis.
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PMID:Treatment with a novel lipid A analogue, FS-112, and partial hepatectomy causes submassive liver necrosis and impaired liver regeneration in mice. 874 20

Published reports on the alcohol potentiation of CCl4 toxicity indicate that in spite of enhanced hepatotoxicity there is no increase in lethality. The objective of this study was to investigate the mechanism involved in animal survival despite significantly enhanced liver injury. Male Sprague-Dawley rats (175-225 g) were treated with isopropanol (ISOP, 2.5 ml/kg, 25% aqueous solution, po) 24 hr prior to CCl4 (1 ml/kg, ip) administration. Plasma enzymes (ALT and SDH), hepatic glycogen levels, and [3H]thymidine (3H-T) incorporation into hepatonuclear DNA were measured during a time course (0-96 hr) after CCl4 administration. Liver sections were examined for histopathology and cell cycle progression by proliferating cell nuclear antigen (PCNA) immunohistochemistry. Maximum injury was observed at 36 hr in both the groups as indicated by elevated plasma enzyme levels and by histopathology. The extent of injury in the ISOP + CCl4 group was higher than that in the H2O + CCl4 group. Plasma enzyme activity returned to control levels by 60 hr, indicating recovery from injury in both groups. Maximum 3H-T incorporation occurred at 48 hr in both groups (ISOP + CCl4; vehicle + CCl4), indicating maximum stimulation of S-phase synthesis. PCNA studies revealed a corresponding stimulation of cell cycle progression. The wave of S-phase synthesis and cell cycle progression returned to control levels in the H2O + CCl4 group by 60 hr but continued up to 72 hr in the ISOP + CCl4 group. These findings support the hypothesis that in response to increased infliction of CCl4 injury by isopropanol, augmented stimulation of cell division and tissue repair restrain the progression of injury and restore hepatic structure and function, thereby allowing the rats to survive. Further, antimitotic intervention with colchicine (1 mg/kg, ip) led to decreased S-phase synthesis, followed by 60% lethality in the isopropanol-pretreated group in contrast to 40% lethality in the group receiving CCl4 alone (H2O + CCl4). These findings suggest that greater stimulation of tissue repair restrains the progression of ISOP-enhanced infliction of CCl4 liver injury and accounts for recovery from enhanced liver injury and animal survival. The findings are consistent with a two-stage model of toxicity wherein liver injury is linked by progression or regression of injury, which is governed by the extent of tissue repair to the final outcome.
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PMID:Stimulated tissue repair prevents lethality in isopropanol-induced potentiation of carbon tetrachloride hepatotoxicity. 888 39

Fischer 344 (F344) rats are reportedly 75-fold more sensitive than Sprague Dawley (S-D) rats to 1,2-dichlorobenzene (o-DCB) hepatotoxicity. Lethality studies were conducted since no information was available regarding the ultimate consequence of this sensitivity in terms of animal survival in the two strains. LD50S for o-DCB (1.66 ml/kg and 1.76 ml/kg in male F344 and S-D rats, respectively) did not differ. Several studies have shown the importance of tissue repair on animal survival following exposure to toxic chemicals. The objective of this study was to investigate if differential rates of cell division and tissue repair might explain the lack of difference in LD50 dose between the two strains despite higher hepatotoxic injury in F344 rats. Age-matched male S-D and F344 rats were administered o-DCB (0.2, 0.6, 1.2 ml/kg, i.p.); injury and tissue repair occurring as two dynamic but opposing events were measured over time. Liver injury was assessed by measuring plasma alanine aminotransferase (ALT) and sorbitol dehydrogenase (SDH) activities and by liver histopathology. Higher plasma ALT elevations were observed in F344 rats following administration of 0.2 and 0.6 ml o-DCB/kg. Using SDH as a marker of liver injury, the strain difference was evident only at 0.2 ml o-DCB/kg. Liver regeneration was estimated by 3H-thymidine incorporation into hepatonuclear DNA and via proliferating cell nuclear antigen (PCNA) assay. Prompt and significantly higher hepatocellular regeneration beginning at 36 h was evident in F344 rats following administration of 0.2 and 0.6 ml o-DCB/kg. The significantly higher depletion of hepatic glycogen observed in F344 rats following administration of 0.2 and 0.6 ml o-DCB/kg occurred without significant changes in plasma glucose and is consistent with highly stimulated tissue repair seen in these rats at the corresponding doses. However, increasing the dose further to 1.2 ml o-DCB/kg results in a delayed (S-phase synthesis begins at 48 h) and diminished response to o-DCB. These findings suggest that a significantly higher rate of tissue repair in F344 rats helps them overcome higher liver injury inflicted by o-DCB. This differential in tissue repair in the two strains may play a vital role in equalizing the ultimate outcome of toxicity in the two strains.
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PMID:Strain differences in tissue repair response to 1,2-dichlorobenzene. 889 17

Although, hepatotoxic injury of 1,2-dichlorobenzene (o-DCB) is greater in Fischer 344 (F344) as compared to Sprague-Dawley (S-D) rats, this interstrain difference does not transcend into any difference in lethal effects of o-DCB. Interstrain difference in compensatory tissue repair has been suggested as the underlying mechanism for the lack of strain differences in lethality (S.G. Kulkarni, H. Duong, R. Gomila, and H.M. Mehendale, Strain differences in tissue repair response to 1,2-dichlorobenzene. Archives of Toxicology 1996; 70: 714-723). If higher tissue repair in F344 rats compensates for more severe liver injury, then antimitotic intervention after infliction of o-DCB-induced liver injury should lead to lethality in F344 rats. Colchicine (CLC, 1 mg/kg) functions as an effective antimitotic agent and does not cause any side effects apart from suppressing cellular proliferation. Two groups of male F344 rats (160-190 g) received a single dose of 0.6 ml o-DCB/kg: 30 h later one group of rats received CLC (1 mg/kg; i.p.) and the other received distilled water (1 ml/kg; i.p.). Liver injury was assessed by measuring plasma ALT and SDH activity, liver histopathology, and liver regeneration was estimated by [3H]thymidine incorporation into hepatonuclear DNA and proliferating cell nuclear antigen (PCNA) assay in both groups. Similar liver injury was noted in both the o-DCB + vehicle and o-DCB + CLC treated F344 rats at 36 h indicating that CLC does not interfere with the uptake, bioactivation and causation of injury by o-DCB. S-phase synthesis which occurred at 36 h in the o-DCB + vehicle group was blocked in the o-DCB + CLC group. CLC administration 6 h prior to S-phase stimulation selectively abolished S-phase stimulation at 36 h, and led to 50% lethality. Since the effect of CLC antimitosis was transient, S-phase synthesis occurring at 48 h was not blocked and was sustained up to 72 h thereby allowing the other 50% of rats to overcome liver injury induced by o-DCB and survive the lethal outcome. These findings suggest that a significantly higher rate of compensatory tissue repair in F344 rats enables them to overcome more severe liver injury inflicted by o-DCB.
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PMID:Antimitotic intervention with colchicine alters the outcome of o-DCB-induced hepatotoxicity in Fischer 344 rats. 918 94

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