Clinical Course of Patients with Ig A Nephropathy between Combined Treatment of Immunosuppressive Agents and ACE Inhibitor and ACE Inhibitor alone

You-Cheol Hwang; Tae-Won Lee; Myung-Jae Kim; Moon-Ho Yang; Chun-Gyoo Ihm

doi:10.3904/kjim.2001.16.2.105

Abstract

Background:

It has not been clear whether immunosuppressive therapy favorably influences renal function and proteinuria in IgA nephropathy (IgAN). Angiotensin converting enzyme inhibitor (ACEi) has an anti-proteinuric effect in IgAN. A retrospective study was done to see whether the addition of immunosuppressive therapy to ACEi produces a more excellent anti-proteinuric effect and preserves better renal function than ACEi alone.

Methods:

A total of 49 patients with proteinuria >1.0 g/day and serum creatinine concentrations<1.5 mg/dL were followed-up from at least 1 year to 9 years. Among them, 25 patients were treated with the combination of cyclophosphamide, prednisolone and ACEi while the other 24 were treated with ACEi alone.

Results:

The combination therapy or ACEi alone both reduced proteinuria with significant value (the combination group: from 5.74 ± 5.08 to 2.29 ± 2.77 g/day, ACEi group: from 3.85 ± 2.54 to 1.68 ± 1.91 g/day), while no significant differences in reduction of proteinuria were noticed between the two groups. There was no significant elevation of serum creatinine in both groups during follow-up (the combination group: from 0.91 ± 0.20 to 1.03 ± 0.38 mg/dL, ACEi group: from 0.93 ± 0.27 to 0.99 ± 0.37 mg/dL). This study showed no significant differences in the change in slope of 1/serum creatinine levels during the follow-up period between the two groups.

Conclusion:

We conclude that immunosuppressive therapy may not be beneficial in patients with proteinuric IgAN. ACEi may be a valuable therapeutic agent avoiding serious side effects of immunosuppressive agents.

INTRODUCTION

IgA nephropathy (IgAN) is the most common primary glomerular disease and is now recognized as one of the leading glomerular diseases that progress to end-stage renal failure¹⁾. In long-term follow-up studies of adult patients with IgAN, 20–50% have been found to develop progressive renal insufficiency 20 years after the initial discovery of the disease^2,3).

Although the etiology or pathogenesis are still unknown, many therapeutic challenges, including corticosteroids or cytotoxic drugs have been tried in the treatment of IgAN, but there is no treatment of proven value for IgAN.

Angiotensin converting enzyme inhibitor (ACEi) has an anti-proteinuric effect and is widely regarded as one of the renoprotective agents^4–6). Long-term studies have also demonstrated that proteinuria is an independent risk factor for renal function in patients with primary renal diseases⁷⁾.

Therefore, we observed the effect of ACEi in IgAN patients with proteinuria, and furthermore examined whether the addition of prednisolone and cyclophosphamide to ACEi produces a more excellent anti-proteinuric effect and preserves better renal function than ACEi alone.

MATERIALS AND METHODS

Between 1985 and 1997, 49 biopsy-proven IgAN patients visiting the Division of Nephrology, Kyung-Hee University Hospital were enrolled in the study. The inclusion criteria were proteinuria > 1.0 g/day and serum creatinine concentrations < 1.5 mg/dL.

The patients with HBsAg (+) or Anti-HCV(+) and those who showed histologic findings of minimal change nephrotic syndrome or crescentic glomerulonephritis were excluded from this study.

This study was designed to compare the effects of the combination therapy with prednisolone (30–60 mg/day), cyclophosphamide (1.2–2.0 mg/kg/day), and ACEi to that with ACEi alone on remission of proteinuria and change in renal function.

We defined 1) complete remission (CR) as proteinuria of less than 0.5 g/day, 2) non-nephrotic range proteinuria (NN) as 0.5–3.0 g/day and 3) nephrotic range proteinuria (NP) as over 3.0 g/day. According to the change of renal function, worsening of renal function was defined as an increase in serum creatinine concentration of at least 50% over the baseline value and serum creatinine concentration over 1.5 mg/dL, chronic renal failure (CRF) as serum creatinine concentration over 3.0 mg/dL, and end-stage renal disease as cases in need of renal replacement therapy.

The results were reported as mean ± standard deviation of the mean, range and percentage. Comparisons of data were made by Mann-Whitney test. A p value of less than 0.05 was regarded as statistically significant.

RESULTS

A total of 49 patients were followed-up periodically from at least 1 year to 9 years. Among them, 25 patients were treated with the combination of cyclophosphamide, prednisolone and ACEi while the other 24 were treated with ACEi alone. The duration of prednisolone treatment was 12.9 ± 13.0 months and that of cyclophosphamide 4.7 ± 3.1 months. The demographic and initial laboratory data of both groups are summarized in Table 1. The mean age of the combination and ACEi groups at the time of diagnosis was 33.5 yrs (range 15 to 66 yrs) and 31.0 yrs (range 16 to 56 yrs), respectively. The amount of urinary protein excretion at the time of diagnosis varied considerably ranging from 1.2 to more than 10.0 g/day. Each group showed a mean value of 5.74 ± 5.08 g/day and 3.85 ± 2.54 g/day, respectively, and there was no significant difference between the two groups.

The level of proteinuria was analyzed in each of the combination and ACEi alone group 6 months after the starting point of treatment and at the end of the follow-up (Table 2). Five of the 25 (20.0%) in the combination group and 5 of the 24 (20.8%) in ACEi alone group showed complete remission 6 months after treatment. At the last follow-up, each group showed complete remission rates of 28.0% and 20.8%, respectively. The percentage of non-nephrotic range proteinuria and nephrotic range proteinuria was not different between the two groups.

Table 3 summarizes the change in renal function and proteinuria during the follow-up period. The mean follow-up duration was 32 months in the combination group and 48 months in ACEi group. Proteinuria decreased significantly in both groups after treatment (the combination group: from 5.74 ± 5.08 to 2.29 ± 2.77 g/day, ACEi only group: from 3.85 ± 2.54 to 1.68 ± 1.91 g/day; p<0.05).

The final serum creatinine levels at the end of follow-up were not different between the two groups (the combination group: 1.03 ± 0.38 mg/dL Vs ACEi group 0.99 ± 0.37 mg/dL). The change in renal function according to the change in slope of 1/serum creatinine levels during the follow-up period showed no significant difference between the two groups. Most of the patients preserved their renal function, but worsening of renal function developed in two in the combination group and one in the ACEi group, and no one showed features of chronic renal failure or end-stage renal disease.

Those showing proteinuric levels over 3 g/day were analyzed separately. Proteinuria decreased significantly in both groups after treatment (the combination group: n=12, from 5.24 ± 1.69 to 2.75 ± 2.66 g/day, ACEi group: n=10, from 4.89 ± 1.43 to 1.38 ± 1.21 g/day).

Finally, there were no significant side effects in combination and ACEi alone group during the follow-up periods.

DISCUSSION

In this study, we observed the effect of ACEi to reduce proteinuria, as reported before. We focused on whether the addition of prednisolone and cyclophosphamide together to ACEi produces a more excellent antiproteinuric effect and preserves renal function more efficiently than treatment with ACEi alone in patients with IgAN. ACEi alone or the combination therapy both reduced proteinuria in patients with IgAN with significant value. This study, however, showed no significant difference in the change of renal function or reduction of proteinuria between the two groups.

Although IgAN is regarded as an immune-complex mediated glomerular disease, there still remains controversy as to the effects of immunosuppressive therapy. Also, there is no consensus as to which patients with IgAN should be treated. The previous studies revealed risk factors of IgAN for progression, such as proteinuria, hypertension and renal insufficiency at the time of diagnosis. We enrolled IgAN patients with proteinuria > 1.0 g/day and normal renal function.

Prednisolone therapy has had variable results in IgAN. In a controlled study, daily steroids for 18 months showed a protective effect on renal function and a reduction in proteinuria 10 years after therapy in patients with early stage of progressive IgAN⁸⁾. Another multicenter randomized controlled trial showed that a 6-months steroid treatment, including methylprednisolone pulse therapy, protected against deterioration of renal function of IgAN⁹⁾. Recently, it was reported that early treatment with corticosteroid for one year ameliorated proteinuria and mesangial proliferative lesions in adult patients with IgAN who had mild proteinuria (mean 754.6 mg/day)¹⁰⁾. On the other hand, contradictory outcomes have been reported. In a prospective randomized controlled trial for alternative-day prednisolone treatment for IgAN patients with clinical features suggesting a poor prognosis, steroid-treated group has not shown benefit on renal function or proteinuria¹¹⁾. A prospective randomized control trial showed that 4 months of prednisone treatment resulted in a high rate of remission of nephrotic syndrome, but had no significant effect on renal function¹²⁾. Furthermore, it has been suggested that short-term, low-dose steroid therapy does not exert any particular benefit, whereas a large dose over a long period of therapy may preserve the renal function in progressive IgAN⁸⁾.

We treated our combination group with prednisolone and cyclophophamide in addition to ACEi. The combination therapy reduced proteinuria with significant value, but failed to have an additional effect on renal function and a reduction in proteinuria compared to ACEi alone. It is still controversial whether cytotoxic drugs, such as cyclophosphamide or azathioprine may be effective in the treatment of IgAN. One study showed combined therapy, including prednisolone and azathioprine, reduced proteinuria and glomerulosclerosis in children with severe IgAN²⁾. The therapy, using the combination of cyclophosphamide, dipyridamole and warfarin, provided reduction of proteinuria but no difference in renal function was noticed between the treatment and control groups^13,14). A retrospective study showed beneficial effects of the combination of prednisolone and azathioprine in slowing the progression of IgAN in patients with renal impairment, but not in reducing proteinuria¹⁵⁾.

Our study showed ACEi therapy significantly reduced proteinuria in the patients with IgAN. The rate of decline of renal function was also not different between ACEi alone and the combination therapy. ACEi alone therapy had no serious side effect compared to the combination therapy with immunosuppressive drugs and ACEi. In a placebo-controlled study with patients who showed normal range blood pressure and normal renal function, a significant reduction in proteinuria was noticed in the ACEi group, compared to the placebo group¹⁶⁾. The antiproteinuric effect of ACEi has been mainly attributed to 1) a decrease in glomerular capillary hydraulic pressure through hemodynamic dilatation of efferent arterioles or 2) an increase in basement membrane barrier permselectivity^16,17). However, controversy exists as to whether ACEi may be useful in preserving renal function, compared to placebo or other treatment. A prospective study in hypertensive patients with IgAN showed no difference on the rate of decline of renal function between ACEi and nifedipine groups, whereas ACEi had a favorable effect on proteinuria¹⁸⁾. Other studies showed that ACEi therapy is superior to other antihypertensive agents, such as beta blocker, in preserving renal function and reducing proteinuria in patients with IgAN^5,19).

On the other hand, there is a suggestion that the rate of decline of renal function in the ACEi-treated patients was greater than that in the fish oil-treated patients²⁰⁾. In our study, most of the patients preserved their renal function, but worsening of renal function developed in two in the combination group and one in the ACEi group, and no one showed the features of chronic renal failure during the follow-up period.

There are some limitations in our study. One significant limitation is that this is not a prospective double-blind study. IgAN is a slowly progressive disease, so further long-term follow-up observation will be necessary to reach final conclusions. Another limitation of our study is the lack of evaluation of histological findings.

According to our results, ACEi may be a valuable therapeutic agent due to its effectiveness in severe proteinuric adult patients with IgAN. And the addition of immunosuppressive drugs may have no additional therapeutic effect compared with ACEi alone.

Acknowledgments

This abstract was presented at the 31st Annual Meeting of the American Society of Nephrology, Miami, 1999.

Table 1.

Characteristics of the patients in the combination and ACEi groups at baseline

	Combination (N=25)	ACEi (N=24)
Age (yrs)	33.5(15–66)	31.0 6(16–56)
Sex (Male:Female)	11:14	7:17
Hypertension	4/25	5/24
Serum creatinine (mg/dL)	0.91 ± 0.20	0.93 ± 0.27
Proteinuria (g/day)	5.74 ± 5.08	3.85 ± 2.54
Proteinuria (No. of patients)
1–2	5	6
2–3	4	6
3–10	12	10
≥10	4	2

Table 2.

Remission of proteinuria

	Combination (N=25)		ACEi (N=24)
	6th Month	Final	6th Month	Final
CR^a	5 (20.0)^*	7 (28.0)	5 (20.8)	5 (20.8)
NN^b	12 (48.0)	12 (48.0)	16 (66.7)	16(66.7)
NP^c	8 (32.0)	6 (24.0)	3(12.5)	3 (12.5)

^* No. of patients (%)

^a; Complete remission

^b; Non-nephrotic proteinuria

^c; Nephrotic range proteinuri

Table 3.

Change in proteinuria and renal function

	Combination	ACEi
Proteinuria (g/day)
Baseline	5.74 ± 5.08	3.85 ± 2.54
Final	2.29 ± 2.77^*	1.68 ± 1.91^*
−Δ	3.44 ± 4.17	2.17 ± 2.38
Serum creatinine (mg/dL)
Baseline	0.91 ± 0.20	0.93 ± 0.27
Final	1.03 ± 0.38	0.99 ± 0.37
1/serum creatinine/month (dL/mg/mo)	−0.0053 ± 0.0171	−0.0024 ± 0.0123
Follow-up (months)	32.0(12–72)	47.5(12–108)

^* p<0.05 vs Baseline

REFERENCES

1. D’Amico G. The commonest glomerulonephritis in the world: IgA nephropathy. QJM 245:709–7271987.

2. Yoshikawa N, Ito H. Combined therapy with prednisolne, azathioprine, heparin-warfarin and dipyridamole for pediatric patients with severe IgA nephropathy. Is it relevant for adult patients? Nephrol Dial Transplant 14:1097–10991999.

3. Koyama A, Igarashi M, Kobayashi M. Members and Coworkers of the Research Group on Progressive Renal Diseases. Natural history and risk factors for immunoglobulin A nephropathy. Am J Kidney Dis 4:526–5321997.

4. Heeg JE, De Jong PE, Van der Hem GK, De Zeeuw D. Reduction of proteinuria by angiotensin converting enzyme inhibition. Kidney Int 32:78–831987.

5. Cattran DC, Greenwood C, Ritchie S. Long-term benefits of angiotensin-converting enzyme inhibitor therapy in patients with severe immunoglobulin A nephropathy: comparison to patients receiving treatment with other antihypertensive agents and to patients receiving no therapy. Am J Kidney Dis 23:247–2541994.

6. Maschio G, Alberti D, Janin G, Locatelli F, Mann JFE, Motolese M, Ponticelli C, Ritz E, Zucchelli P. Effect of the angiotensin-converting enzyme inhibitor benazepril on the progression of chronic renal insufficiency. N Engl J Med 334:939–9451996.

7. Peterson JC, Adler S, Burkart JM, Greene T, Hebert LA, Hunsicker L, King A, Khlar S, Massry SG, Seifter JL. Blood pressure control, proteinuria and the progression of renal diseases. Ann Intern Med 123:754–7621995.

8. Kobayashi Y, Fujii K, Hiki Y, Kokubo T, Horii A, Tateno S. Steroid therapy during the early stage of progressive IgA nephropathy: a 10-year follow-up study. Nephron 72:237–2421996.

9. Pozzi C, Bolasco PG, Fogazzi GB, Andrulli S, Altieri P, Ponticelli C, Locatelli F. Corticosteroids in IgA nephropathy: a randomized controlled trial. Lancet 353:883–8871999.

10. Shoji T, Nakanishi I, Suzuki A, Hayashi T, Togawa M, Okada N, Imai E, Hori M, Tsubakihara Y. Early treatment with corticosteroids ameliorates proteinuria, proliferative lesions and mesangial phenotypic modulation in adult diffuse proliferative IgA nephropathy. Am J Kidney Dis 35:194–2012000.

11. Julian B, Barker C. Alternative-day prenisone therapy in IgA nephropathy: preliminary analysis of a prospective randomized controlled trial. Contrib Nephrol 104:198–2061993.

12. Lai KN, Lai FM, Ho CP, Chan KW. Corticosteriod therapy in IgA nephropathy with nephrotic syndrome: a long-term controlled trial. Clin Nephrol 26:174–1801986.

13. Woo KT, Lee GS, Lau YK, Chiang GS, Lim CH. Effects of triple therapy in IgA nephritis: a follow-up study 5 years later. Clin Nephrol 36:60–661991.

14. Walker RG, Yu SH, Owen JE, Kincaid-Smith P. The treatment of mesangial IgA nephropathy with cyclophosphamide, dipyridamole and warfarin: A two-year prospective trial. Clin Nephrol 34:103–1071990.

15. Goumenos D, Ahuja M, Shortland JR, Brown CB. Can immunosuppressive drugs slow the progression of IgA nephropathy? Nephrol Dial Transplant 10:1173–11811995.

16. Maschio G, Cagnoli L, Claroni F, Fusaroli M, Rugiu C, Sanna G, Sasdelli M, Zuccala A, Zucchelli P. ACE inhibition reduces proteinuria in normotensive patients with IgA nephropathy: a multicentre, randomized, placebo-controlled study. Nephrol Dial Transplant 9:265–2691994.

17. Remuzzi A, Perticucci E, Ruggenenti P, Mosconi L, Limonta M, Remuzzi G. Angiotensin converting enzyme inhibition improves glomerular size-selectivity in IgA nephropathy. Kidney Int 39:1267–12731991.

18. Bannister KM, Weaver A, Clarkson AR, Woodruffe AJ. Effect of angiotensin-converting enzyme and calcium channel inhibition on progression of IgA nephropathy. Contrib Nephrol 111:184–1931995.

19. Rekola S, Bergstrand A, Bucht H. Deterioration rate in hypertensive IgA nephropathy: comparison of converting enzyme inhibitor and β-blocking agents. Nephron 59:57–601991.

20. Donadio JV, Grande JP. Immunoglobulin A nephropathy: A clinical perspective. Am Soc. Nephrol 8:1324–13321997.