Background
IgA nephropathy is the most common primary glomerular disease worldwide. A wide variety of treatments have attempted to reduce kidney burden and the high risk of kidney failure events in this population. IgAN is an autoimmune kidney disease, indicating that immunosuppressive therapy may be helpful. Immunosuppressive therapy is supposed to reduce the deterioration in kidney function as well as a reduction in proteinuria. The core I β3-Gal-T-specific molecular chaperone (Cosmc) gene expression was decreased in IgAN patients. Immunosuppressive therapy can up-regulate the Cosmc expression in peripheral lymphocytes of IgAN patients. It might be the underlying mechanism of immunosuppressive therapy used in treating IgAN [
1,
2]. It has been proven that calcineurin inhibitors (CNIs) which include cyclosporine A (CsA) and tacrolimus (TAC), can suppress the immune response by downregulating the transcription of various genes in T cells.
There are only a few small studies available using CNIs for the treatment of IgAN ten years ago [
3], mainly affected by the very first report that discouraged the use of this medication in IgAN due to an increase in serum creatinine (SCr), although the complication was reversible [
4]. From then on, due to the lack of controlled clinical trials, the benefit and risk of CNIs in the treatment of IgAN remained uncertain [
5‐
8]. Recently, several randomized controlled trials (RCTs) suggested that CNIs might be effective for IgAN. Moreover, there are a few other studies that have successfully used CNIs in resistant IgAN patients, which demonstrated that CNIs could decrease proteinuria in IgAN patients who showed resistance to steroids and/or other immunosuppressants [
9]. We therefore conducted this meta-analysis of all available RCTs to comprehensively ascertain the benefits and risks of CNI treatment in comparison with steroids or placebos in patients with IgAN.
Methods
Identification of eligible studies
Two researchers (GYC and YHS) performed a systematic literature search using the PubMed, Embase, Science Citation Index, Ovid evidence-based medicine, Chinese Biomedical Literature (CBM) and Chinese science and technology periodicals (CNKI, VIP, and Wan Fang) databases without any language restriction. All of the relevant studies were published between 1986 and July 2016. The following key words and subject terms were used in the search: ‘IgA nephropathy’, ‘immunoglobulin A nephropathy’, ‘IgA nephritis, ‘IgA glomerulonephritis’, ‘Berger’s disease’, ‘cyclosporine A’, ‘CsA’, ‘tacrolimus’, ‘FK506’, and their derivative words.
Inclusion and exclusion criteria
Two authors independently selected information from the studies and disagreement was resolved by consensus. The titles and abstracts were scanned to exclude any trials that were clearly irrelevant in the first stage. The full texts of the relevant articles were read in order to determine whether they contained information on the topic of interest in the second stage. The baseline data of patients, proteinuria level, doses and duration of CNIs use, follow-up duration, clinical parameters and adverse events were included in the extracted information.
Inclusion criteria consisted of: (1) the study design was a RCT; (2) the study focused on patients with biopsy-proven IgA nephropathy; (3) the study compared TAC or CsA with corticosteroid or placebo in the induction therapy of IgAN; and (4) at least one of the following outcomes was reported: the complete remission (CR) or partial remission (PR) of proteinuria, changes of clinical outcomes (including proteinuria, serum creatinine or eGFR) and adverse events.
CR was defined as proteinuria less than 0.5 or 0.3 g/d and a normal serum creatinine (Scr) level. PR are among those patients who did not have a CR, was defined as proteinuria reduced to at least half of the baseline measurement and an absolute value of >0.5 or 0.3 g/d and as well as a relatively stable Scr level (variation less than 25%).
Exclusion criteria were: (1) did not including English abstract; (2) studies including minors; (3) did not describe the numbers of patients who recovered, deteriorated, or had renal replacement treatment clearly.
Assessment of trial quality
We assessed the quality of RCTs using a standard scoring system proposed in the Jadad scale criteria [
10]. These included: (1) whether the randomization method was appropriately performed; (2) whether double-blindness was used in the RCT and whether it was appropriate; (3) whether the report (the patient number and reasons) of withdrawal and drop-outs was stated clearly. We classified the RCTs as high quality if they scored >2. Otherwise, assessed them as low quality [
11].
Statistical analysis
Cochrane RevMan 5.3 was used to perform statistical analyses. The results were stated as relative risks (RR), for dichotomous outcomes, and weighted mean differences, for continuous outcomes, with 95% confidence intervals (95% CI). The heterogeneity Q statistic test was used to analyze heterogeneity among the included trials. If it indicated heterogeneity (p < 0.05) across trials, the DerSimonian and Laird method in the random effect model was selected. Otherwise, the Mantel-Haenszel method in the fixed-effect model was used.
Discussion
IgAN is the most common type of glomerulonephritis worldwide [
18,
19]. It is now known to slowly progress to end-stage renal disease (ESRD) [
20‐
23]. Proteinuria is one of the strongest independent prognostic factors [
24,
25]. IgAN with severe proteinuria are conventionally subjected to treatment with various immunosuppressive regimens with conflicting results [
26,
27]. Studies showed that immunosuppressive therapy for IgAN may reduce the risk of ESRD by 70% compared with supportive therapy after > 5-year follow-up [
28,
29]. CNIs are widely used as immunosuppressive drugs. Studies suggest that CNIs are effective in decreasing proteinuria in a variety of glomerular diseases, including IgAN [
30,
31].
So far, few RCTs have analyzed the role of CNIs in patients with IgAN. The current meta-analysis of seven trials involving 374 patients with IgAN revealed that the combination of CNIs and medium/low-dose steroid was more effective in reducing proteinuria compared with the steroid group alone, suggesting a synergistic effect between CNIs and steroid. Similar to our findings, several studies also indicated that patients with IgAN could experience significant improvement in proteinuria and hypoalbuminemia during CNI treatment [
32]. In addition, the risk of developing elevated blood sugar appeared lower in patients treated with CNIs in comparison with placebo or steroid. Moreover, this meta-analysis concluded that there was no significant difference in the risk of renal impairment or rate of decline of eGFR between two groups.
CNIs were associated with a higher incidence of experiencing gastrointestinal discomfort or liver function disorder, and neurological or musculoskeletal symptoms than placebo or steroid. They were also associated with a higher incidence of experiencing hirsutism or gingivitis. This was consistent with the results of studies containing CNIs [
33].
IgA patients who achieved remission had far better outcomes than those who never achieved remission [
34,
35]. These findings suggest that achieving remission, whether CR or PR, is important in IgA patients to improve renal survival, irrespective of glomerular disease type. In current systematic review, CNIs group increased the rates of CR compared with steroid alone or placebo.
There are a few other studies that have successfully used CsA or TAC in resistant IgAN patients. In one retrospective case series of 13 adult patients with IgAN and significant proteinuria, more than half of the patients did respond to CsA therapy with or without steroids, with long-term remission. A rise in Scr was observed in only two patients, and was mild and reversible in these cases [
36]. In a non-randomized study, Chabova and colleagues administered 5 mg/kg/day of CsA plus alternate day 5–10 mg prednisolone to 6 IgAN patients with nephrotic-range proteinuria and normal Scr, who were resistant to three months of glucocorticoid therapy [
37]. They aimed for a trough serum cyclosporine level of 70–150 ng/mL and continued the regimen for one year. After one month of treatment, proteinuria reduced from 4.66 ± 0.43 g/day to 1.38 ± 0.29 g/day, and after one year to 0.59 ± 0.14 g/day. GFR did not differ significantly from the baseline in two years. In a retrospective study by Shin and colleagues on 14 children with IgAN, a significant decrease in proteinuria and increase in serum albumin concentration without any rise in Scr level was observed [
38]. A decrease in histologic grade of IgAN was seen in a follow-up biopsy of 50% of the patients. These researchers suggested that CsA has a significant role in decreasing proteinuria and reversing kidney pathology in children with IgAN. In another interesting recent study, remission of nephrotic-range proteinuria could be induced in 9 of 11 IgAN patients with the use of TAC, which was explained through the effect of the drug in podocyte cytoskeleton stabilization through inhibition of calcineurin expression [
39].
However, there is still a strong debate regarding the use of CNIs, especially CsA for the treatment of proteinuria in IgAN, mainly due to concerns about the possible increase in Scr caused by CsA, although it is being used as one of the main immunosuppressive agents in various other proteinuric glomerulonephritides. It concluded that there was no significant difference in the risk of ESRD or rate of decline of GFR in patients treated with CsA or placebo in a meta-analysis.
Our meta-analysis had four limitations. First, the proteinuria outcomes were measured while on CNI, whether a reduction in proteinuria while on a CNI will be sustained or will rebound after the CNI is stopped is not certain. We should also address the limitation of using proteinuria as a surrogate outcome measure, and the implication of rebounding proteinuria after stopping CNI. Second, the renal outcomes that were assessed were over likely too short a time period to see any beneficial or detrimental effects from chronic CNI use. Our meta-analysis do not show significant benefit on kidney function, as serum creatinine or eGFR. Long-term, large sample, multicenter RCTs are needed to confirm the efficacy and safety of CNIs in the treatment of IgAN. Third, the number of subjects included in this analysis was not particularly great. Finally, there appears to be lack of published small studies with negative outcomes. The risk of publication bias in which studies with negative results is also a limitation.
The current meta-analysis was generally consistent with these reviews [
7,
8]. Thus, we believe that the results of our studies can help to prevent the discouragement of the use of this medication for an idiopathic immunologic disease without many therapeutic choices. The fear of increase in Scr seems to have prevented the researchers from designing clinical trials to study this valuable immunosuppressive agent in the treatment of IgAN, and we suggest starting such trials for a better long-term judgment.
Acknowledgments
We thank all of the investigators who responded to our inquiries regarding their original studies. This study was supported by 863 program (2012AA02A512), Twelfth Five-Year Plan (2011BAI10B03, 2013BAI09B05, 2015BAI12B06), 973 program (2013CB530800), and the NSFC (81171645). There are no conflicts of interest to declare.