Renal-limited thrombotic microangiopathy after switching from bevacizumab to ramucirumab: a case report

Vascular endothelial growth factor (VEGF) inhibitors are increasingly applied to treat a number of malignancies such as metastatic or recurrent colorectal, non-small cell lung, breast, and renal cell cancers. Bevacizumab, a humanized monoclonal antibody targeted against VEGF, is broadly used as the first- or second-line therapy to various malignancies [1]. The drug often causes proteinuria in treated patients [2], but it is rare bevacizumab-induced proteinuria reaches to a nephrotic range [3]. In such cases, renal pathology shows thrombotic microangiopathy (TMA) and, at the molecular level, inactivating VEGF signaling leads to damage of glomerular endothelial cells [4]. Other drugs, such as VEGF Trap (anti-VEGF ligand inhibitor) [5] or multi-tyrosine kinase inhibitors (including sunitinib, sorafenib and pazopanib) [6] may cause proteinuria and TMA.

Ramucirumab, anti-VEGF receptor 2 (VEGFR2) monoclonal antibody, is approved for treating gastric, non-small-cell lung, and metastatic colorectal cancers as the second-line therapy. Ramucirumab also potentiates proteinuria [7], but it is unknown whether ramucirumab use is associated with development of TMA. Here, we report a case in which TMA occurred immediately after switching chemotherapy from bevacizumab to ramucirumab.

A 75-year-old woman was diagnosed as having stage IV transverse colon cancer in our hospital and began to receive chemotherapy in another hospital. As the first therapy, mFOLFOX6 (modified fluorouracil, leucovorin and oxaliplatin) plus bevacizumab (anti-VEGF-A antibody) was administered for 23 courses over 1 year with few side effects (Fig. 1). Since her cancer status was progressive disease after the above treatment, the secondary therapy, FOLFILI (fluorouracil, leucovorin and irinotecan) plus ramucirumab (anti-VEGFR2 antibody) was started. After 2 courses of therapy (on days 1 and 22), she gradually developed anasarca and nephrotic syndrome and was referred to our nephrology clinic. On immediate admission on day 44, her blood test showed thrombocytopenia (platelets 57,000/μL), slight normocytic anemia (hemoglobin 11.3 g/dL), mild hypoalbuminemia (3.0 g/dL), and mild increase of lactate dehydrogenase level (433 IU/L) (Table 1). Schistocytes were not found on the peripheral blood smear. Haptoglobin level was not measured. Urinary protein was 5.1 g/g-creatinine and dysmorphic erythrocytes were found in the urine. Renal biopsy on day 45 showed fibrin thrombi within capillary loops, mesangiolysis and double contour of the basement membrane of glomeruli (Fig. 2 a, b, c). Immunofluorescence showed weak deposition of IgM, fibrinogen and C1q in mesangio-capillary regions (Fig. 2d). Electron micrograph showed diffuse endothelial swelling with obliteration of capillary lumina (Fig. 3). Pathology was diagnosed as renal-limited TMA. Other causes of nephrotic syndrome, such as focal segmental glomerulosclerosis, membranous nephropathy and membranoproliferative glomerulonephritis, were denied. Ramucirumab was discontinued after the biopsy. By 6 weeks (day 69) after the last ramucirumab injection, thrombocytopenia (101,000/μL) and hypoalbuminemia (3.2 g/dL) showed improvement.

It is well known that VEGF inhibitors, especially bevacizumab, can induce proteinuria and TMA [4]. A meta-analysis comprising 12,268 patients showed that bevacizumab use was associated with 13.3% incidence of all-grade proteinuria [relative risk (RR) 2.8], 2.2% incidence of grade 3 proteinuria (≥3.5 g/24 h, RR 4.8), and 0.8% incidence of nephrotic syndrome [3]. On the other hand, a recent meta-analysis of 4996 subjects revealed that ramucirumab treatment was associated with 9.4% incidence of all-grade proteinuria (RR 3.4), 1.1% incidence of grade 3 proteinuria (RR 8.3), and 0.04% incidence of nephrotic syndrome [7]. These findings suggest that severe renal side effects may be less common in ramucirumab use compared to bevacizumab use.

The underlying mechanism of VEGF inhibitor-induced proteinuria is based upon a fact that a strict amount of VEGF expressed by podocytes is required to maintain the integrity of glomerular endothelial function and glomerular filtration barrier through VEGFR2 expressed upon endothelial cells [3, 4, 8, 9]. The regulation of susceptibility to VEGF inhibition is not understood well, and it is unknown why a patient who tolerated long-term bevacizumab therapy developed TMA soon after switching to ramucirumab.

Double contour of the glomerular basement membrane is regarded as a chronic lesion [10]. Therefore, before administration of ramucirumab, repeated injection of bevacizumab may have already predisposed the glomeruli of the case presented here to develop nephrotic syndrome easily. Indeed, a recent work by our colleagues has shown that doubling in glomerular filtration of albumin causes only mild increase in albuminuria [11].

As to findings by immunofluorescence, the present case showed weak glomerular deposition of IgM, fibrinogen and C1q, consistently with some cases in a previous report of VEGF inhibitor-induced TMA [6]. In that report, most cases showed renal dysfunction, but serum creatinine levels were less than 1 mg/dl in 20% of the cases. Of note, the current case exhibited normal renal function despite having severe occlusion of glomerular capillaries in some glomeruli of renal biopsy samples.

Cancer drug-induced TMA is divided into 2 distinct categories: types I and II [12]. Type I cancer drug-induced TMA develops dose-dependently, typically, at 6 months or later after starting therapy, and is usually permanent and irreversible (which may be caused by mitomycin C, gemcitabine or oxaliplatin). It is usually associated with acute renal failure. The pathological finding is both arteriolar and glomerular capillary thrombosis. On the contrary, type II cancer drug-induced TMA is not dose-related, may occur any time after initiation of and in the course of treatment (1 dose to 29 months later), and has a high likelihood of recovery by stopping the drug (potentially caused by anti-VEGF agents). Glomerular capillary thrombosis lesions are exclusively found [12]. In our case, oxaliplatin was administered as the first therapy. It was considered that TMA was not caused by this drug, since she had relatively minor kidney failure and her renal pathology showed no arteriolar thrombosis. Therefore, we concluded that this case had type II cancer drug-induced TMA due to anti-VEGF agent(s) and it was clinically indicated that the culprit was ramucirumab. To our knowledge, this is the first biopsy report of ramucirumab-induced TMA.

In summary, we present a metastatic colorectal cancer patient who developed TMA after switching from bevacizumab to ramucirumab. Cessation of ramucirumab led to a gradual recovery from TMA. However, we cannot definitively exclude a possibility that previous treatments by bevacizumab and oxaliplatin had a causative or additional role.