Acute eosinophilic hepatitis from trovafloxacin

TNFα enhances trovafloxacin-induced in vitro hepatotoxicity by inhibiting protective autophagy

Trovafloxacin (TVX) is associated with idiosyncratic drug-induced liver injury (iDILI) and inflammation-mediated hepatotoxicity. However, the inflammatory stress-regulated mechanisms in iDILI remain unclear. Herein, we elucidated the novel role of tumor-necrosis factor alpha (TNFα), an inflammatory stress factor, in TVX-induced in vitro hepatotoxicity and synergistic toxicity. TVX specifically induced synergistic toxicity in HepG2 cells with TNFα, which inhibits autophagy. TVX-treated HepG2 cells induced protective autophagy by inhibiting the expression of mTOR signaling proteins, while ATG5 knockdown in HepG2 cells, responsible for the impairment of autophagy, enhanced TVX-induced toxicity due to the increase in cytochrome C release and JNK pathway activation. Interestingly, the expression of mTOR signal proteins, which were suppressed by TVX, disrupted the negative feedback of the PI3K/AKT pathway and TNFα rebounded p70S6K phosphorylation. Co-treatment with TVX and TNFα inhibited protective autophagy by maintaining p70S6K activity, which enhanced TVX-induced cytotoxicity. Phosphorylation of p70S6K was inhibited by siRNA knockdown and rapamycin to restore TNFα-inhibited autophagy, which prevented the synergistic effect on TVX-induced cytotoxicity. These results indicate that TVX activates protective autophagy in HepG2 cells exposed to toxicity and an imbalance in negative feedback regulation of autophagy by TNFα synergistically enhanced the toxicity. The finding from this study may contribute to a better understanding of the mechanisms underlying iDILI associated with inflammatory stress.

Quinolone antibiotics

The quinolone antibiotics arose in the early 1960s, with the first examples possessing a narrow-spectrum of activity with unfavorable pharmacokinetic properties. Over time, the development of new quinolone antibiotics has led to improved analogues with an expanded spectrum and high efficacy. Nowadays, quinolones are widely used for treating a variety of infections. Quinolones are broad-spectrum antibiotics that are active against both Gram-positive and Gram-negative bacteria, including mycobacteria, and anaerobes. They exert their actions by inhibiting bacterial nucleic acid synthesis through disrupting the enzymes topoisomerase IV and DNA gyrase, and by causing breakage of bacterial chromosomes. However, bacteria have acquired resistance to quinolones, similar to other antibacterial agents, due to the overuse of these drugs. Mechanisms contributing to quinolone resistance are mediated by chromosomal mutations and/or plasmid gene uptake that alter the topoisomerase targets, modify the quinolone, and/or reduce drug accumulation by either decreased uptake or increased efflux. This review discusses the development of this class of antibiotics in terms of potency, pharmacokinetics and toxicity, along with the resistance mechanisms which reduce the quinolones' activity against pathogens. Potential strategies for future generations of quinolone antibiotics with enhanced activity against resistant strains are suggested.

Ameliorative effects of Moringa oleifera leaf extract on levofloxacin-induced hepatic toxicity in rats

Fluoroquinolones are some of the most common antibiotics used by clinicians all over the world. Levofloxacin, a fluoroquinolone, is used therapeutically in numerous countries; however, it can cause an increase in liver function tests and liver dysfunction. The current study was designed to determine the effect of Levofloxacin (40 mg/kg body weight (b.wt.) daily for 2 weeks) on rat liver function and oxidative stress markers as well as to evaluate the potential hepatoprotective effects of Moringa oleifera leaf extract as a known antioxidant herb. M. oleifera leaf extract was found to improve the hepatic dysfunction induced by Levofloxacin by recovering liver enzymatic activities (alanine aminotransferase [ALT], aspartate aminotransferase [AST] and gamma-glutamyl transferase [GGT]) to normal levels. The extract also reversed the antioxidant imbalance as measured by catalase and superoxide dismutase activities as well as by reduced glutathione and malondialdehyde levels. Moreover, M. oleifera leaf extract induced anti-inflammation by improving the production of interleukin (IL)-10. Additionally, its presence attenuated the downregulation of IL-1 induced by Levofloxacin alone from hepatic tissue. It can be concluded that M. oleifera extract can help reduce the side effects caused by Levofloxacin administration.

Evolution of the Food and Drug Administration approach to liver safety assessment for new drugs: current status and challenges

Prompted by approval in 1997 of troglitazone and bromfenac, two drugs that promptly began to show serious and sometimes fatal liver toxicity, we began at the Food and Drug Administration (FDA) a series of annual conferences in 1999 to consider issues of drug-induced liver injury (DILI). First inviting reviewers of new drug applications we opened the audiences in 2001 to pharmaceutical industry and academic consultants to industry and FDA, and slides shown at the meetings were posted on the internet to be available at the website of the American Association for the Study of Liver Diseases (AASLD)–go to (http://www.aasld.org/dili/Pages/default.aspx). Observations by Dr. Hyman J. Zimmerman that “drug-induced hepatocellular jaundice is a serious lesion” with possible mortality formed a basis for developing a computer program to plot peak serum values for alanine aminotransferase (ALT) and total bilirubin (TBL) in an x–y log–log graph for all subjects enrolled in clinical trials. This program had the capability to show the time course of all liver tests for individuals who had both hepatocellular injury and reduced whole liver function, plus clinical narratives to diagnose the severity and most likely cause of the abnormalities. We called the program eDISH (for evaluation of Drug-Induced Serious Hepatotoxicity), and began in 2004 to use it to assess DILI in clinical trial subjects. From 2008, comments made by the presenters at the conferences about their slides and ensuing discussions have been added to the website. All this has raised awareness of the problem, and since 1997, the FDA has not had to withdraw a single drug because of post-marketing hepatotoxicity. Many issues still remain to be resolved; among the most controversial is the best method to estimate likelihood that a given liver injury was actually caused by the drug in question. On November 9, 2012, a workshop was convened to discuss the best practices for the assessment of drug-induced liver injury (DILI) in clinical trials.

Efficacy and safety of levofloxacin in the context of other contemporary fluoroquinolones: a review

BACKGROUND

In recent years, fluoroquinolone research has focused on achieving several goals, including (1) enhanced potency against gram-positive cocci, notably Streptococcus pneumoniae, and anaerobes, while (2) maintaining potency against gram-negative pathogens, (3) optimizing pharmacokinetics and pharmacodynamics (PK/PD), and (4) minimizing potential adverse drug reactions through recognition and avoidance of structural configurations that have characterized earlier, reactive compounds.

OBJECTIVE

This review examines the efficacy and safety of fluoroquinolones and the specific clinical evidence regarding levofloxacin.

METHODS

Using published literature collected over time by the author, a review was conducted, focusing on the efficacy and safety profile of levofloxacin and other fluoroquinolones.

RESULTS

The newer fluoroquinolones have fulfilled many of the research goals described above. Levofloxacin has improved anti-gram-positive potency, PK/PD properties, a proven clinical trial record (particularly for communityacquired pneumonia [CAP]), and an excellent safety profile-in the context of the treatment of >250 million patients worldwide in the past decade. It is licensed for management of drug-resistant S pneumoniae infections in the United States and has gained widespread formulary acceptance and guideline inclusion. Studies assessing levofloxacin for CAP therapy show significant advantages over standard therapy, such as trends toward reduced IV therapy and length of hospitalization, reduced mortality, and significant associated cost reduction. In addition, levofloxacin has proved highly effective in acute exacerbations of chronic bronchitis (AECB), with excellent clinical and bacteriologic results, typical of the class, and significant advantages-in terms of clinical response, overall pathogen eradication, extension of the symptom-free period, and trends toward a reduction in the number of consultation visits and hospitalizations-over standard agents, such as the oral cephalosporins.

CONCLUSIONS

Levofloxacin offers a combination of documented efficacy and tolerability, and provides an important option for the treatment of bacterial infections, including CAP and AECB, compared with standard agents used in the management of lower respiratory tract infections.

Hepatotoxicity of antibiotics: a review and update for the clinician

Collectively, the various classes of antibiotics are a leading cause of drug-induced liver injury (DILI). However, acute antibiotic-associated DILI can be difficult to diagnose, as the course of therapy is usually brief, and other confounding factors are often present. In addition to the broad clinicopathologic spectrum of hepatotoxicity associated with the antimicrobials, the underlying infectious disease being treated may itself be associated with hepatic dysfunction and jaundice. This review provides summarized information on several classes of antimicrobial agents, highlighting new agents causing DILI and updating information on older agents.

Eosinophils mediate the pathogenesis of halothane-induced liver injury in mice

Drug-induced liver injury (DILI) is a major health issue, as it remains difficult to predict which new drugs will cause injury and who will be susceptible to this disease. This is due in part to the lack of animal models and knowledge of susceptibility factors that predispose individuals to DILI. In this regard, liver eosinophilia has often been associated with DILI, although its role remains unclear. We decided to investigate this problem in a murine model of halothane-induced liver injury (HILI). When female Balb/cJ mice were administered halothane, eosinophils were detected by flow cytometry in the liver within 12 hours and increased thereafter proportionally to liver damage. Chemokines, eotaxin-1 (CCL11) and eotaxin-2 (CCL24), which are known to attract eosinophils, increased in response to halothane treatment. The severity of HILI was decreased significantly when the study was repeated in wildtype mice made deficient in eosinophils with a depleting antibody and in eosinophil lineage-ablated ΔdblGata(-/-) mice. Moreover, depletion of neutrophils by pretreating animals with Gr-1 antibody prior to halothane administration failed to reduce the severity of HILI at antibody concentrations that did not affect hepatic eosinophils. Immunohistochemical staining for the granule protein, major basic protein, revealed that eosinophils accumulated exclusively around areas of hepatocellular necrosis.

CONCLUSION

Our findings indicate that eosinophils have a pathologic role in HILI in mice and suggest that they may contribute similarly in many clinical cases of DILI.

Clinical and histopathologic features of fluoroquinolone-induced liver injury

BACKGROUND & AIMS

Fluoroquinolone-induced liver injury is rare; no prospective studies of well-characterized case series have been published. We studied patients with fluoroquinolone-induced hepatotoxicity from the Drug-Induced Liver Injury Network (DILIN) to characterize injury patterns, outcomes, and associated features.

METHODS

We identified subjects with fluoroquinolone hepatotoxicity enrolled in the DILIN from September 2004 to January 2010. Demographic, clinical, and laboratory data were analyzed by descriptive statistical methods.

RESULTS

Of the 679 registrants in the DILIN prospective study, 12 had fluoroquinolone hepatotoxicity (6 ciprofloxacin, 4 moxifloxacin, 1 levofloxacin, and 1 gatifloxacin). Seven were women; median age was 57 years (range, 23-80 years), and median time from fluoroquinolone start to symptoms was only 4 days (range, 1-39 days). Nine patients developed symptoms on medication; 3 did so 2, 8, and 32 days after stopping the medication. Cases were equally distributed among hepatocellular injury (predominantly increased levels of alanine aminotransferase), cholestatic injury (predominantly increased levels of alkaline phosphatase), and both. Seven patients had immunoallergic features. Patients with mixed hepatocellular and cholestatic injury had mild disease without jaundice; all recovered. In contrast, 2 of 4 patients with hepatocellular injury and jaundice died, 1 of acute liver failure. One patient with cholestatic injury developed vanishing bile duct syndrome and required liver transplantation; another had a persistently increased serum level of alkaline phosphatase.

CONCLUSIONS

Fluoroquinolone liver injury is rapid in onset and often has immunoallergic features, indicating a hypersensitivity reaction. The pattern of injury can be hepatocellular, cholestatic, or mixed; mixed cases are the least severe. Acute and chronic liver failure can occur.

The internist's literature on chronic rhinosinusitis: an evaluation of the amount and quality of published information

Most patients with chronic rhinosinusitis (CRS) are treated by internists, yet the information available to internists about CRS is rarely assessed. The author undertook a study to evaluate the amount and quality of information about CRS that is available to internists. Four information sources were analyzed: (1) five journals routinely read by internists, published over a 10-year period and searched on PubMed for the "exploded" terms chronic and sinusitis; (2) seven representative general and outpatient medicine texts, searched on MD Consult and STAT!Ref; (3) the 14th edition of the Medical Knowledge Self-Assessment Program (MKSAP 14), a review of internal medicine; and (4) four commonly used Internet databases. The five journals contained a total of 37,250 cited articles of various types over the study period; CRS was mentioned in only 19 of them. The standard medical texts offered little information about CRS, and MKSAP 14 did not mention CRS at all in the text, although it included some information in the questions and answers. Finally, among the online sources, UpToDate, a proprietary Internet database, offered an excellent discourse on CRS; in contrast, the Physicians' Information and Education Resource, maintained by the American College of Physicians, contained no information about CRS in its 436 subject modules. The author concludes that, with few exceptions, the literature routinely available to internists offers little information about CRS.

Idiosyncratic drug-induced liver injury and the role of inflammatory stress with an emphasis on an animal model of trovafloxacin hepatotoxicity

Idiosyncratic adverse drug reactions (IADRs) occur in a minority of patients yet account for the majority of postmarketing use restrictions by the Food and Drug Administration. Despite the impact of these toxicities, the underlying mechanisms are still poorly understood. Animal models of IADRs would be beneficial in understanding mechanisms and in developing assays with predictive potential. Recent work exploring the interactions between inflammatory stress and drugs associated with human idiosyncratic drug-induced liver injury (IDILI) has led to the development of the first animal models that apply to a range of drugs. Here, we discuss hypotheses for the mechanisms of IDILI and focus on a murine model of trovafloxacin-induced hepatotoxicity as an example related to the inflammatory stress hypothesis.

Drug-induced hepatotoxicity or drug-induced liver injury

Drug-induced hepatotoxicity is underreported and underestimated in the United States. It is an important cause of acute liver failure. Common classes of drugs causing drug-induced hepatotoxicity include antibiotics, lipid lowering agents, oral hypoglycemics, psychotropics, antiretrovirals, acetaminophen, and complementary and alternative medications. Hepatotoxic drugs often have a signature or pattern of liver injury including patterns of liver test abnormalities, latency of symptom onset, presence or absence of immune hypersensitivity, and the course of the reaction after drug withdrawal.

Tumor necrosis factor alpha is a proximal mediator of synergistic hepatotoxicity from trovafloxacin/lipopolysaccharide coexposure

The use of trovafloxacin (TVX), a fluoroquinolone antibiotic, was severely restricted because of an association of TVX therapy with idiosyncratic hepatotoxicity in patients. The mechanisms underlying idiosyncratic toxicity are unknown; however, one hypothesis is that an inflammatory stress can render an individual sensitive to the drug. Previously, we reported that treatment of mice with TVX and lipopolysaccharide (LPS) induced tumor necrosis factor (TNF) alpha-dependent liver injury, whereas TVX or LPS treatment alone was nontoxic. The goal of this study was to elucidate the role of TNFalpha in TVX/LPS-induced liver injury. TNF receptor (TNFR) 1 p55(-/-) and TNFR2 (p75(-/-)) mice were protected from hepatotoxicity caused by TVX/LPS coexposure, suggesting that TVX/LPS-induced liver injury requires both TNF receptors. TNFalpha inhibition using etanercept significantly reduced the TVX/LPS-induced increases in the plasma concentrations of several cytokines around the time of onset of liver injury. However, despite the reduction in chemokines, etanercept treatment did not affect the TVX/LPS-induced hepatic accumulation of neutrophils. In addition, etanercept treatment attenuated TVX/LPS induction of plasminogen activator inhibitor-1, and this was associated with a reduction in hepatic fibrin deposition. Mice treated with TVX and a nontoxic dose of TNFalpha also developed liver injury. In summary, TNFalpha acts through p55 and p75 receptors to precipitate an innocuous inflammatory cascade. TVX enhances this cascade, converting it into one that results in hepatocellular injury.

An overview of harms associated with beta-lactam antimicrobials: where do the carbapenems fit in?

The US Institute of Medicine's focus on patient safety has motivated hospital administrators to facilitate a culture of safety. As a result, subcommittees of the pharmacy and therapeutics committee have emerged in many hospitals to focus on adverse events and patient safety. Antimicrobial harms have gained the attention of practicing clinicians and hospital formulary committees, because they top the list of drugs that are associated with adverse events and because of certain serious harms that have ultimately led to the withdrawal of some antimicrobial agents. In the near future, several antimicrobials in the late phase of development will become available for clinical use (ceftobiprole, ceftaroline, and telavancin), and others (doripenem and dalbavancin) have recently joined the armamentarium. Because new antimicrobials will become part of the treatment armamentarium, it is important to discuss our current understanding of antimicrobial harms in general. Although not thought of as traditional adverse events, Clostridium difficile infection and development of resistance during therapy are adverse events that occur as a result of antimicrobial exposure and therefore are discussed. In addition, a distillation of our current understanding of β-lactam specific adverse events will be provided. Finally, new methods of administration are being evaluated that may influence peak concentration-related antimicrobial adverse events.

Post-Marketing Surveillance of the Safety of Levofloxacin in Japan

BACKGROUND

Central nervous system reactions to new quinolones, such as convulsions due to interaction with nonsteroidal anti-inflammatory drugs (NSAIDS), have attracted increased attention in Japan.

METHODS

The safety of levofloxacin (LVX) was investigated in Japan by post-marketing surveillance and reviewing spontaneous reports.

RESULTS

Post-marketing surveillance was performed in 16,117 patients between 1994 and 1996. The incidence of adverse reactions was 1.3% (203/16,117), being comparable with that for ofloxacin or that shown by phase II/III studies. Among 4,977 patients receiving concomitant NSAID treatment, the overall incidence of adverse reactions and the incidence of neurological reactions (including convulsions) did not significantly differ from those in patients without anti-inflammatory therapy. Review of the spontaneous reports on convulsions showed that patients with nephropathy, patients over 75 years and patients with a history of convulsive diseases were more likely to develop convulsions during LVX therapy.

CONCLUSION

LVX should be used cautiously in patients with the above risk factors.

Quinolones in 2005: an update

Quinolones are one of the largest classes of antimicrobial agents used worldwide. This review considers the quinolones that are available currently and used widely in Europe (norfoxacin, ciprofloxacin, ofloxacin, levofloxacin and moxifloxacin) within their historical perspective, while trying to position them in the context of recent and possible future advances based on an understanding of: (1) their chemical structures and how these impact on activity and toxicity; (2) resistance mechanisms (mutations in target genes, efflux pumps); (3) their pharmacodynamic properties (AUC/MIC and Cmax/MIC ratios; mutant prevention concentration and mutant selection window); and (4) epidemiological considerations (risk of emergence of resistance, clonal spread). Their main indications are examined in relation to their advantages and drawbacks. Overall, it is concluded that these important agents should be used in an educated fashion, based on a careful balance between their ease of use and efficacy vs. the risk of emerging resistance and toxicity. However, there is now substantial evidence to support use of the most potent drug at the appropriate dose whenever this is required.

A new respiratory fluoroquinolone, oral gemifloxacin: a safety profile in context

Gemifloxacin is a broad-spectrum quinolone antibacterial with enhanced potency against Gram-positive bacteria, including multi-drug resistant Streptococcus pneumoniae, and retained potency against Gram-negative bacilli and bacterial strains resistant to other antibiotics. It has proven particularly effective in respiratory and urinary tract infection. This review presents safety data from 6775 patients included in clinical trials, receiving either the recommended 320 mg once daily oral dose of gemifloxacin, or standard dose of other quinolones, macrolides or beta-lactams (n = 5248). Studies in healthy volunteer and special populations are also reported. Adverse experiences (AEs) were observed in 44.7% of gemifloxacin-treated patients and 47.5% of those who received comparator drugs. Mild gastro-intestinal adverse drug reactions (ADRs) (diarrhoea 5.1%, nausea 3.9%) predominated. Rash, usually maculo-papular and in no case proceeding to more severe eruptions, was observed in 3.6% of those receiving gemifloxacin. A higher incidence of rash (>20%) was observed in young women and was the subject of further study. Adverse drug reactions suspected or probably related to treatment occurred in 17.4% of patients receiving gemifloxacin and in 20% of those receiving comparator antibiotics. Diarrhoea and nausea were experienced by 3.6 and 2.7%, respectively, of gemifloxacin-treated patients (4.6 and 3.2% of comparators), rash by 2.8% (0.6% of comparators) and headache by 1.2% (1.5% of comparators). Gemifloxacin-related vomiting (0.9%), dizziness (0.8%) and taste perversion (0.3%) were uncommon. Treatment discontinuation followed one or more adverse drug reactions in 2.2% of gemifloxacin-treated patients (0.9% due to rash) and 2.1% of comparator-treated patients. A total of 63 deaths (33 receiving gemifloxacin) occurred in the trial population: none were considered related to treatment. A slight prolongation in QT interval (2.56 ms (S.D. +/-24.5)) was observed in gemifloxacin-treated patients: no cardiac arrhythmias were reported. There was a low incidence of liver function tests (LFTs) classified as of potential clinical concern: gemifloxacin (0.4-1.2%), comparators (0.2-1.3%). Serious adverse events (SAEs), occurring during but not necessarily related to therapy, occurred in 3.6% of gemifloxacin-treated patients (4.3% of comparators). SAEs related to treatment agents were rare (0.4% in each group) and included rash (0.1%) and elevated liver enzymes (<0.1%). Gemifloxacin was well tolerated by the elderly, those with renal or hepatic impairment and when co-administered with omeprazole, digoxin, theophylline, warfarin (with which there were no significant interactions) and Maalox. In conclusion, gemifloxacin 320 mg once daily demonstrated a favourable safety and tolerability profile similar to that of comparator antibiotics, including other quinolones.

Safety profile of oral and intravenous moxifloxacin: Cumulative data from clinical trials and postmarketing studies

BACKGROUND

The established safety profile of the fluoroquinolones has been disrupted in the past decade by the detection of low-frequency but potentially serious adverse events that have led to the license suspension, voluntary withdrawal, or restricted use of specific members of the class. Moxifloxacin is a broad-spectrum, advanced-generation fluoroquinolone that has potent activity against respiratory tract infections in adults in both oral and IV formulations.

OBJECTIVE

The goal of this article was to provide an overview of the cumulative safety data on both oral and IV moxifloxacin, including data from the most recent clinical trials and postmarketing studies.

METHODS

Data from clinical trials of moxifloxacin were captured from an electronic database maintained by the manufacturer. Safety data for oral moxifloxacin were obtained from 30 Phase II/III comparator studies (n = 7,368 moxifloxacin, n = 5,687 comparators), 1 Phase IV study (n = 18,374), and 4 postmarketing observational studies (n = 27,756). Safety data for IV moxifloxacin were obtained from 2 Phase III comparator studies (n = 550 maxifloxacin, n = 579 comparators). In addition, pharmacokinetic data were reviewed.

RESULTS

In Phase II/III comparator studies, gastrointestinal complaints were the most common adverse drug reactions (ADRs) associated with both formulations of moxifloxacin, with nausea occurring in 7.1% and 3.1% of patients receiving oral and IV moxifloxacin, respectively, and diarrhea occurring in 5.2% and 6.2% of patients. Discontinuation rates due to ADRs with oral and IV moxifloxacin were 2.7% and 6.0%, and mortality rates were 0.3% and 4.0%. Similar rates of withdrawal and mortality were observed in the comparator groups. There was no evidence that moxifloxacin caused disturbances in glucose metabolism in patients with or without diabetes mellitus, and there was no evidence of an increased risk for cardiovascular adverse events. Pharmacokinetic analyses indicated that dose adjustment of moxifloxacin does not appear to be necessary in elderly patients, those with renal dysfunction, or those with mild to moderate hepatic impairment. The pharmacokinetics of moxifloxacin have not been studied in patients with severe hepatic insufficiency. Moxifloxacin does not interact with a number of commonly prescribed drugs, although its absorption is decreased by concomitant administration of iron and cationic antacids.

CONCLUSIONS

Based on evidence from >7000 patients in clinical trials and >46,000 patients in postmarketing studies, moxifloxacin is generally well tolerated. Its lack of significant drug interactions in target groups makes it an option in diabetic patients or the elderly, as well as in those with renal impairment.

Crucial role of IL-4/STAT6 in T cell-mediated hepatitis: up-regulating eotaxins and IL-5 and recruiting leukocytes

T cell-mediated immune responses are implicated in the pathogenesis of a variety of liver disorders; however, the underlying mechanism remains obscure. Con A injection is a widely accepted mouse model to study T cell-mediated liver injury, in which STAT6 is rapidly activated. Disruption of the IL-4 and STAT6 gene by way of genetic knockout abolishes Con A-mediated liver injury without affecting IFN-gamma/STAT1, IL-6/STAT3, or TNF-alpha/NF-kappaB signaling or affecting NKT cell activation. Infiltration of neutrophils and eosinophils in Con A-induced hepatitis is markedly suppressed in IL-4 (-/-) and STAT6(-/-) mice compared with wild-type mice. IL-4 treatment induces expression of eotaxins in hepatocytes and sinusoidal endothelial cells isolated from wild-type mice but not from STAT6(-/-) mice. Con A injection induces expression of eotaxins in the liver and elevates serum levels of IL-5 and eotaxins; such induction is markedly attenuated in IL-4(-/-) and STAT6(-/-) mice. Finally, eotaxin blockade attenuates Con A-induced liver injury and leukocyte infiltration. Taken together, these findings suggest that IL-4/STAT6 plays a critical role in Con A-induced hepatitis, via enhancing expression of eotaxins in hepatocytes and sinusoidal endothelial cells, and induces IL-5 expression, thereby facilitating recruitment of eosinophils and neutrophils into the liver and resulting in hepatitis.

Quinolone hypersensitivity

PURPOSE OF REVIEW

Quinolones are potent antibacterial agents that can cause drug hypersensitivity reactions affecting different organs. A better understanding of the underlying mechanism and the level of crossreactivity within different quinolones is needed to handle and prevent these diseases.

RECENT FINDINGS

The adverse side-effects caused by quinolones are the result of different immunological mechanisms and cause quite different diseases. The development of an assay detecting quinolone-specific IgE revealed specific antibodies in more than 50% of patients with immediate-type reactions, and the majority of sera also reacted with related compounds. In maculopapular drug exanthemas caused by ciprofloxacin, specific T cells could be detected and cloned. They reacted with ciprofloxacin directly, and crossreactivity to related compounds was detected in approximately 50% of the clones.

SUMMARY

Quinolones can cause drug hypersensitivity reactions by different immunological mechanisms. In-vitro analysis suggests that crossreactivity is common.

Hepatotoxicity of antibiotics and antifungals

Hepatotoxicity associated with any antibiotic is rare. With the wide-spread use of antimicrobial agents, however, hepatic injury is not an infrequent occurrence. Penicillins remain a widely used class of antimicrobials with a well defined record of low hepatotoxicity. The combination of clavulanate with amoxicillin may be associated with the greatest risk for liver injury from any antimicrobial agent. Significant hepatotoxicity also may occur with sulfamethoxazole/ trimethoprim and combination regimens used to treat tuberculosis. An autoimmune-like hepatitis may result from minocycline or nitrofurantoin exposure and most often resolves with cessation of therapy. Treatment with high doses of tetracycline and oxacillin may be associated with severe hepatotoxicity. Early suspicion of hepatocellular injury in the setting of antimicrobial exposure should prompt cessation of therapy and avoidance of rechallenge.

Fulminant liver disease

Fulminant liver disease, acute liver failure (ALF), is one of the most intriguing and challenging conditions in the entire field of internal medicine. ALF is defined as the onset of hepatic encephalopathy and coagulopathy in patients with no known underlying liver disease within 8 to 26 weeks of onset of illness. Many cases develop within a few days, dramatically transforming an otherwise healthy individual to a patient with a high risk for developing multi-organ failure and death.

Structure toxicity relationships--how useful are they in predicting toxicities of new drugs?

This chapter provides just a few newer examples of structural moieties found in drugs that have been associated with reactive metabolite formation and toxicities. For a discussion of several other structures in drugs that undergo metabolic activation to reactive intermediates, the reader is directed to previous volumes in this series and other chapters in this book, as well as a previous condensed review (Nelson, 1982). Since that review, some new knowledge allows us to better predict that some structural moieties are more likely than others to form drug reactive metabolites that may be involved in causing toxic effects in humans. For example, most aniline-, thiophene-, and nitroaromatic-containing drugs have had a relatively high incidence of adverse effects, and it would be prudent in the drug discovery process to avoid these substructures if possible. However, as illustrated by the case of olanzapine, these structures may be important for potent activity, and could therefore be beneficial in some cases. The glitazones represent a new class of drugs with a unique thiazolidinedione structure. This raises two important points. First, it demonstrates how limited our knowledge base is in regard to structure toxicity relationships when new structures are introduced. Our approaches must be very empirical and are far from quantitative for the reasons outlined in the introduction. Secondly, the glitazones point out the importance of benefit/risk considerations. This was a new structural class of drugs with a unique spectrum of action that is very beneficial in the treatment of a major disease. Despite some suspected risk of toxicity, based on early trials, troglitazone was approved for use with careful monitoring. This author believes that was the right decision, as was the decision to withdraw the drug when the risk became unacceptable, especially with the introduction of safer alternatives. If this were just another NSAID (e.g., bromfenac), there would be little reason for approval. In summary, as I pointed out previously (Nelson, 1982), with our limited knowledge of structure toxicity relationships, we can only make reasonable judgments as to risk assessment of a new drug in humans, and hope that we neither release a dangerous chemical entity nor, as importantly, abort an effective one.

Possible gatifloxacin-induced fulminant hepatic failure

OBJECTIVE

To report a case of fulminant hepatic failure associated with the use of gatifloxacin.

CASE SUMMARY

A 76-year-old white man was found to have an approximate 1-week history of worsening jaundice on the last day of a 10-day course of gatifloxacin for treatment of impetigo while at his skilled nursing facility. Liver function tests including aspartate aminotransferase (AST), alanine aminotransferase (ALT), international normalized ratio, activated partial thromboplastin time, and ammonia concentrations were found to be markedly elevated, consistent with hepatocellular necrosis commonly seen with fluoroquinolones. Screening for other causes of hepatotoxicity, including alcoholic or viral hepatitis, obstruction, or autoimmune-mediated processes, were negative. Other potential medication causes were less likely. The patient's liver function steadily declined, eventually resulting in multiple organ failure. The patient died 25 days after completing the course of gatifloxacin.

DISCUSSION

This case of hepatotoxicity was associated with gatifloxacin. Other fluoroquinolones, most notably trovafloxacin, have been observed to cause variable degrees of hepatotoxicity, ranging from asymptomatic elevations of liver enzymes to fulminant hepatic failure. Fluoroquinolones are thought to cause hepatocellular necrosis, which results in elevated ALT and AST concentrations with a normal alkaline phosphatase concentration. A variable degree of hyperbilirubinemia is often seen, with the presence and degree of jaundice often correlating to a poorer prognosis. Hepatic encephalopathy and coagulopathy are also commonly present.

CONCLUSIONS

Fluoroquinolones, including trovafloxacin, ciprofloxacin, ofloxacin, enoxacin, norfloxacin, and, in this case report, gatifloxacin, have been associated with hepatotoxicity. It is important that these medications be considered a possible cause when the patient being treated has liver disease.

Critical role of interleukin 5 and eosinophils in concanavalin A-induced hepatitis in mice

BACKGROUND & AIMS

Eosinophils are observed in several liver diseases, but their contribution in the pathogenesis of these disorders remains poorly investigated. Concanavalin A (Con A)-induced hepatitis is an experimental model of immune-mediated liver injury in which natural killer T (NKT) cells play a critical role through the production of interleukin (IL)-4 and the expression of Fas ligand (FasL). Because activated NKT cells also produce IL-5, a critical cytokine for eosinophil maturation and function, the role of IL-5 was investigated in this model.

METHODS

IL-5-deficient mice, eosinophil depletion in wild-type (WT) mice, and NKT cell transfer from WT- or IL-5-deficient mice into NKT cell-deficient mice were used to assess the role of IL-5 and eosinophils.

RESULTS

Liver eosinophil infiltrate and IL-5 production were observed after Con A challenge. Liver injury was dramatically reduced in IL-5-deficient or eosinophil-depleted mice. In addition, residual hepatitis observed in Fas-deficient mice was abolished after IL-5 neutralization. Finally, we showed that NKT cells constituted a critical source of IL-5. Indeed, transfer of WT NKT cells to mice lacking NKT cells restored liver injury, whereas transfer of IL-5-deficient NKT cells did not.

CONCLUSIONS

These observations highlight the pathologic role of IL-5 and eosinophils in experimental immune-mediated hepatitis.

Safety of fluoroquinolones: An update

The fluoroquinolone class of antimicrobials has been in clinical use for over 13 years. During that period, some representatives of the class have been extensively prescribed, such as ciprofloxacin and levofloxacin, while others have seen minimal use and have been restricted or withdrawn, namely, trovafloxacin and grepafloxacin. Manipulation of the fluoroquinolone structure by substituting a range of moieties around the core has yielded enhanced antibacterial activity, but in some cases this has come at a price. Specific substitutions are discussed in relation to particular recognized adverse events. In the present paper, newly introduced fluoroquinolones, such as moxifloxacin and gatifloxacin, are examined in terms of anticipated class effects and recent clinical experience. These antimicrobials are associated with reactions such as diarrhea, nausea, headache and other typical antimicrobial phenomena at rates less than 5%. New fluoroquinolone agents should be examined carefully in light of structural findings until adequate clinical data are amassed.

Gatifloxacin-associated acute hepatitis

Gatifloxacin, a fluoroquinolone with extended gram-positive activity, has become extensively used in both the community and hospital environments. Unfortunately, concerns have been raised about the use of certain fluoroquinolones because of adverse drug reactions. A 44-year-old woman developed acute hepatitis while receiving gatifloxacin for chronic sinusitis. After 5 days of receiving antibiotics, the patient developed nausea, lethargy, and abdominal pain, all of which progressed over the next few days. Liver function tests were elevated, with bilirubin peaking at 9.4 mg/dl. The patient also became jaundiced. A percutaneous liver biopsy showed acute hepatitis with eosinophilic infiltrates consistent with drug-induced hepatitis. All other drugs and disease processes were ruled out as likely causes of the patient's hepatitis. Clinicians should be alerted to the possibility that hepatitis may occur with gatifloxacin administration.

Drug-induced liver disease

This year's review is divided into several sections: the first describes drug withdrawals and new general reviews of drug-induced liver disease (DILD), including a review of a classification of drug injury. We review agents newly described as causing DILD, and new reports of DILD from established agents appearing in the year 2000. New aspects regarding the treatment of acetaminophen toxicity are included, and in the final section we deal with prevention of DILD as well as issues surrounding the use of potentially hepatotoxic medications in patients with underlying chronic disease.

Acute liver failure

Worldwide, viral hepatitis is the leading cause of acute liver failure, whereas acetaminophen hepatotoxicity is the most commonly identified cause in Western countries. Restricting the quantity of acetaminophen tablets dispensed has been shown to reduce morbidity and mortality in countries with a high incidence of acetaminophen overdose. Troglitazone and bromfenac are two recently approved medications that were withdrawn from the market due to an unacceptably high incidence of severe hepatotoxicity. In addition, trovafloxacin, nefazodone, and ritonavir were reported to be associated with severe hepatitis and acute liver failure. Moderate hypothermia is a simple and potentially effective means of reducing intracranial pressure in patients with acute liver failure and cerebral edema. However, controlled clinical trials are needed to determine proper patient selection and optimize treatment. Extracorporeal bioartificial liver support devices remain an exciting but as yet unproven means of supporting acute liver failure patients with advanced encephalopathy. Living donor liver transplantation has recently been reported for adults and children with acute liver failure. However, ethical concerns regarding donor safety and the ability to obtain informed consent without coercion have been raised. Lastly, advances in the identification and isolation of pluripotent liver stem cells in human bone marrow provides hope for a simple and effective means of enhancing native liver regeneration.

Trovafloxacin hepatotoxicity

A 19-year-old woman was treated for recurrent sinusitis with oral trovafloxacin and developed acute hepatitis and peripheral eosinophilia, with hepatosplenomegaly and ascites. Laparoscopic liver biopsy showed extensive centrilobular hepatocyte necrosis, likely causing venooclusive disease-like signs and symptoms. Clinical and laboratory abnormalities resolved completely after prolonged treatment with steroids. The temporal relationship between trovafloxacin and the onset of hepatitis favors this drug as a culprit.

Drug-Induced Liver Disease

Drug-induced liver disease can result from dosage-dependent hepatotoxicity or from adverse reactions to drugs used in therapeutic dosage. The latter idiosyncratic hepatotoxins can cause clinical syndromes that mimic all known liver diseases, so that drugs must be considered as the possible causal agent for all unexplained cases of liver disease. The only specific antidote for dosage-dependent hepatotoxicity is n-acetylcysteine (and some other sulfhydryl donors), which is highly effective for the prevention of significant hepatotoxicity after acetaminophen overdose. Early diagnosis and prompt withdrawal of the offending drug is the key to successful management of most drug-induced liver diseases. The mainstay of treatment is supportive care, with careful monitoring for signs of acute liver failure or progression to chronic liver disease. In cases of liver failure, close liaison with a liver transplant center is crucial; referral for liver transplantation should be considered if standard transplant criteria are fulfilled. Pruritus is a major symptom of drug-induced cholestasis; protracted cases may respond to ursodeoxycholic acid. Corticosteroids can be considered for cases of drug-induced hepatitis, especially those with evidence of immune hypersensitivity, if no improvement is seen in 8 to 12 weeks. Although there are no controlled trials, some patients may respond favorably.