Tenofovir nephrotoxicity among Asians living with HIV: review of the literature
Abstract: Tenofovir disoproxil fumarate (TDF), prodrug of tenofovir (TFV), is one of the most widely used nucleotide reverse transcriptase inhibitors (NRTIs) for the treatment of HIV infection in resource-rich and resource- limited settings with proven efficacy and safety, and also for the treatment of hepatitis B infections. However, TDF can cause renal proximal tubular dysfunction and also reduces estimated glomerular filtration rate (eGFR) more than other NRTIs. To date, TDF-associated renal dysfunction is generally regarded as mild and tolerable. However, it is notable that low body weight is one of the risk factors for TFV nephrotoxicity and that Asians are generally of smaller body stature and can be susceptible to such nephrotoxicity, as shown in several cohort studies. Until tenofovir alafenamide (TAF), another prodrug of TFV with minimal renal toxicity, becomes widely accessible for people living with HIV and replaces TDF, it is warranted that physicians who prescribe TDF have a good understanding of TFV nephrotoxicity. This paper reviews recent literature on TFV nephrotoxicity among people living with HIV especially focusing on Asians who might be susceptible to TFV nephrotoxicity due to their lower body weight and discusses implications for clinical care and future directions.
Introduction
The advent and evolution of antiretroviral therapy (ART) substantially improved the prognosis of people living with HIV (PLHIV) (1). As life expectancy of PLHIV increases and patients age, the importance of the management of non-communicable diseases (NCDs) has increased (1,2). Both chronic kidney disease (CKD) and end-stage renal disease (ESRD) are important NCDs that affect morbidity and mortality (3,4). Maintaining renal function is particularly important among PLHIV, as HIV infection is currently not curable and patients need lifelong ART. Tenofovir disoproxil fumarate (TDF), prodrug of tenofovir (TFV), is one of the most widely used nucleotide reverse transcriptase inhibitors (NRTIs) for the treatment of HIV infection in resource-rich and resource-limited settings (5,6) with proven efficacy and safety (7-9), and also for the treatment of hepatitis B infections (5,6). However, TDF can cause renal proximal tubular dysfunction (10-13) and also reduces estimated glomerular filtration rate (eGFR) more than other NRTIs (14-16). To date, TDF-associated renal dysfunction is generally regarded as mild and tolerable (17,18), and one meta-analysis published in 2010 recommended that TDF use should not be restricted even when regular monitoring of renal function and serum phosphate levels is impractical (17). But it is notable that low body weight is one of the risk factors for TFV nephrotoxicity and that Asians are generally of smaller body stature and have a lower median body weight than Whites and Blacks (19,20), who mostly comprise the cohorts of studies published to date. This report reviews recent literature on TFV nephrotoxicity among PLHIV especially focusing on Asians who might be susceptible to TFV nephrotoxicity due to their smaller body stature and discusses implications for clinical care and future directions. Although tenofovir alafenamide (TAF), a new prodrug of TFV, which is safer for kidney than TDF, has been licenced and is available in some resource rich countries (21), the main focus of this review will be on TDF- associated nephrotoxicity, since TDF has been and will be used by the vast majority of PLHIV especially in low and middle income countries including many Asian countries.
Compared with abacavir (ABC) or other NRTIs, TDF is highly potent with a high genetic barrier (22). TDF was first licensed for use in 2001 (23), and soon after, a series of cases which developed tubulopathy such as Fanconi syndrome or acute tubular necrosis, oracute renal failure have been reported (10-13). TFV, a metabolite of TDF, is excreted through glomerular filtration and via active tubular secretion at the proximal tubules of the kidney (24). TDF-associated tubulopathy is considered to be a result of accumulation of TFV, which causes mitochondria toxicity in tubular cells through inhibition of mitochondrial DNA polymerase-γ (25-27) (Figure 1). Renal biopsy of cases, which presented with TFV tubulopathy showed mitochondrial enlargement, depletion, and dysmorphic changes in proximal tubular cells (28). The use of TDF is also associated with increased bone turnover and bone demineralization, and although the mechanism is not fully understood, renal phosphate loss due to proximal tubulopathy is considered to be a primary cause (29,30).A post-marketing report for Australia, Europe and US in 2007 showed that cases, which developed tubulopathy or acute renal failure were rare; among 10,343 patients, acute and chronic renal failure was reported in 0.3% and Fanconi syndrome in < 0.1%. Also other renal events, such as nephrogenic diabetes insipidus, nephritis, and proteinuria were reported in ≤ 0.1% of patients (8). In tenofovir-induced nephrotoxicity, tubulopathy is considered to precede the decline in GFR (31,32). In 2010, a meta-analysis, which analyzed 17 randomized trials and cohort studies on renal safety of TDF in PLHIV(17) was published and it concluded that, although TDF use was associated with a statistically significant loss ofrenal function (mean difference compared with control subjects in calculated creatinine clearance, 3.92 mL/ min, 95% CI: 2.13-5.70 mL/min), the clinical magnitude of this effect was modest and they do not support the need to restrict TDF use in jurisdictions where regular monitoring of renal function and serum phosphate levels is impractical. However, it is notable that only one study from Asia (33) was included in this meta-analysis and that this study from Japan showed largest decrement in eGFR in TDF users compared to other NRTI users among 17 studies (mean difference: -17 mL/min (95%CI: -31.35, -2.65)) (17).Many risk factors for TFV nephrotoxicity have been identified; including HIV specific factors, such as concomitant use of didanosine or ritonavir-boosted protease inhibitors (PI/r), advanced HIV infection, and classic risk factors for renal dysfunction, such as older age, impaired baseline renal function, diabetes mellitus, hypertension, coinfection with hepatitis C virus, and concurrent use of nephrotoxic medication (8,34). Low body weight is one of the risk factors for TFV nephrotoxicity; the animal model study reported that tenofovir tubulopathy occurs dose-dependently (35) and also a post-marketing report showed association between low body weight and renal dysfunction(8). Patients with low body weight are potentially at higher risk for larger drug exposure and, thus, more severe toxicity (19,20,36). However, most evidence on tenofovir nephrotoxicity has been from Europe and US, where body stature is generally larger than that of Asians. For example, whereas the mean body weight for the Japanese male 30-39 years old is 71 kg (37), that for US male 30-39 is 90.2kg (38); the mean body weight for American males is approximately 20kg heavier than that of the Japanese male. It is notable that the body weight of PLHIV is even lighter; median 60 kg in West India (39), median 56.5 kg in Thailand (19), and mean 55 kg for Vietnam (40).The reported degree of TDF-associated renal function decrement in Asians is not negligible. Among treatment- experienced 405 Thai patients with median baseline body weight of 56.5 kg who initiated TDF, 19.3% experienced a 25% decrement in GFR with an incidence rate of 16.2 per 100 person-years (19). Also among 495 treatment-naïve Japanese patients with median weight of 63kg who initiated TDF-containing ART, 19.6% developed ≥ 25% decrement in eGFR (36).Among the 792 treatment-naïve Japanese patients with a median weight of 63kg who either initiatedTDF- or ABC-containing ART, those who initiated TDF-containing ART were twice as likely to develop> 10 mL/min/1.73 m2 decrement in eGFR and ≥ 25% decrement in eGFR than those who initiated ABC- containing ART (20). Among patients with body weight of < 70 kg, the effect of TDF use on the risk of > 10 mL/min/1.73m2 decrement in eGFR was more evident (adjusted OR: 2.5, 95% CI: 1.55-4.00, p < 0.001) thanthat among the entire study population (adjusted OR: 2.1, 95% CI: 1.45-3.14, p < 0.001) (20).Although evidence is still limited to draw any firm conclusions, it is interesting that two observational studies from Asia showed that the loss in eGFR among the patients who started TDF-containing ART relative to that in those who started non-TDF-containing ART continued to increase over time (20,41), whereas one cohort study from Canada did not show such finding and concluded that most of the loss in eGFR was acquired during the first year of exposure and stabilized after that (15) (Figure 2). In the Japanese cohort study, the loss in eGFR in the TDF group relative to the ABC group continuously increased over time, and reached-10.3 mL/min/1.73 m2 at 5 years of TDF exposure (20) (Figure 2). Another multi-country observational study from East and South-East Asia reported that among 2547 patients with median body weight of 56 kg (703 on TDF-containing ART, 1844 on non-TDF-containing ART), the loss in eGFR in the TDF group relative to the non-TDF group increased over time and reached -7.1 mL/min/1.73 m2 at 5 years of TDF exposure (41). It is notable that whereas in the Japanese study 85% of the study patients were on PI/r, one of the risk factors for TFV nephrotoxicity, it was only 18.7% for the multi-country study and it still showed the increasing loss in eGFR in the TDF group compared to the non-TDF group (41). On the other hand, a single-center study from Montreal, Canada reported that among 1043 patients mostly comprised of Whites, there was no trend between the years of exposure and the loss in eGFR in the TDF group relative to non-TDF group (15). Body weight for this study was not available.Because tenofovir tubulopathy precedes actual decrement in GFR, renal tubular markers are considered to be more sensitive than creatinine based eGFR (31,42). Among the renal tubular markers, urinary β2 microglobulin (β2M) has been most studied (31,42- 46). β2M has been shown to be a sensitive marker for TFV nephrotoxicity (31), and can predict TDF-related GFR decrement in PLHIV who initiate TDF containing antiretroviral therapy (42). Whether new tubular markers, such as kidney injury molecule 1 (KIM-1), liver type fatty acid binding protein (L-FABP), and neutrophil gelatinase-associated lipocalin (NGAL) are useful in diagnosing or predicting TDF-related GFR decrement remains to be elucidated.Many antiretroviral agents increase serum creatinine by inhibiting excretion of creatinine at the renal tubule, which can complicate interpretation of eGFR decrement shortly after initiation of TDF containing ART (Figure 3). Dolutegravir, an integrase inhibitor, which is a component of preferred ART regimen in many treatment guidelines including the WHO guidelines (5,47,48), is one such agent (49). Measurement of urinary tubular markers, such as β2M, might help distinguishing causes of eGFR decrement, which is due to inhibition of creatinine by antiretroviral agents or due to TFV nephrotoxicity, although evidence is limited.Tenofovir alafenamide (TAF), a new prodrug of TFV is stable within plasma and metabolized to TFV mostly within target cells, enabling a small amount of dosing (25mg), which results in low plasma TFV levels and is thus safer to the kidney (50) (Figure 1). High efficacy and tolerability, especially minimal renal toxicity, of TAF have been shown in phase 3 trials and other studies including those which examined treatment- naïve patients, treatment-experienced patients, and patients with renal impairment (51-54). The phase 3 study, which randomly compared the efficacy and tolerability of elvitegravir/cobicistat/emtricitabine/TAF and elvitegravir/cobicistat/emtricitabine/TDF among treatment-naïve patients showed that a median change from baseline in creatinine clearance was significantly lower with TAF (-1.6 mL/min) than TDF (-7.7 mL/min)at week 144 (55). Furthermore, a recent pooled analysis of 26 trials showed the renal safety of TAF over TDF by examining a total of 12,519 person-years of exposure to TAF; there were no cases of proximal renal tubulopathy or Fanconi syndrome, and significantly fewer discontinuations due to renal adverse events in the TAF group than the TDF group (51). A sub-analysis of phase 3 clinical trials, which investigated efficacy and safety of elvitegravir/cobicistat/emcticitabine/TAF extracted the data of Asians and showed comparable efficacy and safety data between Asians and non-Asians(56). TAF is included as one of the components of the preferred ART regimens in the treatment guidelines in many high income countries (5,48,57,58).TDF has been one of the most widely used NRTIs for the treatment of HIV infection with proven efficacy and safety (7-9) and will remain as the main NRTI especially in resource-limited settings (5,6). It will take time for TAF, another prodrug of TFV with minimal renal toxicity, to be widely accessible for people living with HIV to replace TDF. In the meantime, it is warranted that physicians who prescribe TDF have a good understanding of TFV nephrotoxicity.Prior to initiating TDF, it is suggested that renal function is monitored with use of at least serum creatinine and a urine dipstick test, and they should be regularly monitored. Risk factors for renal dysfunction or chronic kidney diseases, such as diabetes mellitus, hypertension, hepatitis B or C infection, should be also screened. If eGFR is < 50 mL/min/1.73m2 or there is persistent proteinuria, TDF should be switched to TAFor if TAF is not available, the dose of TDF should be adjusted or TDF should be switched to abacavir or zidovudine, if available. Measurement of renal tubular markers, such as β2M, is useful to EKI-785 diagnose TDF- associated tubulopathy (59).To date, TFV nephrotoxicity is generally regarded as mild and tolerable (17,18); severe tubulopathy such as Fanconi syndrome or acute tubular necrosis is rare (8), and a TDF-related eGFR decrement is generally modest(17). However, it is notable that low body weight is one of the risk factors for TFV nephrotoxicity and that Asians are generally of smaller body stature and can be susceptible to such nephrotoxicity, as shown in several cohort studies (19,20,41).