Acute Kidney Injury with Epstein Barr Virus-Associated Hemophagocytic Syndrome ()
Received 16 June 2016; accepted 22 July 2016; published 25 July 2016
1. Introduction
Hemophagocytic syndrome (HPS) is a rare disorder of the immune system that is synonymous with macrophage activation syndrome [1] . Natural killer (NK)/T cells that, for hereditary or acquired reasons, are unable to lyse target cells, such as infected or malignant cells, proliferate and release a large amount of interferon-γ. This induces the proliferation of macrophages, invasion into the liver, spleen, and lymph nodes, and the release of further inflammatory cytokines including TNF-α [2] . HPS causes a cytokine storm.
HPS may be caused by infections, malignancies, or rheumatic diseases [3] . Infection accounts for 50% of all cases of HPS, and viral infection for 69% of all cases of infection-related HPS. Moreover, Epstein Barr Virus (EBV) accounts for 43% of viral infections [4] . EBV-associated HPS is an EBV-lymphoproliferative disorder (EBV-LPD) of NK/T cells [5] - [7] . EBV typically invades B cells via the B cell-specific CD21 antigen and infects latently; however, EBV infects NK/T cells incidentally, resulting in HPS as well as infectious mononucleosis [5] [8] [9] .
We herein report a case of EBV-associated HPS receiving immunosuppressive therapy. We also discuss the pathophysiology of acute kidney injury (AKI) and the clinical symptoms preceding HPS.
2. Case Report
A 59-year-old man, who had been treated for schizophrenia and psoriasis vulgaris with the oral administration of 1 mg risperidone and 300 mg cyclosporine, presented to another hospital with high fever and myalgia. He was diagnosed with neuroleptic malignant syndrome, and was admitted to the hospital for treatment; however, these symptoms persisted for more than two weeks. Moreover, renal and liver dysfunction developed; therefore, he was admitted to our hospital. A physical examination revealed a body temperature of 38.8˚C, pulse rate of 110 beats per minute, respiratory rate of 30 breaths per minute, and blood pressure of 80/55 mmHg. He was drowsy and had leg edema. Laboratory data showed pancytopenia, metabolic acidosis, and liver and kidney dysfunction (Table 1). Urinary findings were mild hematuria and proteinuria (Table 1). Chest and abdominal computed tomography (CT) showed that there were no obvious inflammatory findings, except for mild swelling of the superficial lymph nodes (Figure 1). In order to treat circulatory failure and multiple organ dysfunction, he underwent continuous hemodiafiltration and endotoxin adsorption using catecholamine and antibiotics under artificial ventilation. In spite of intensive care, he died after two days. Autopsy showed that hemophagocytosis was present in bone marrow (Figure 2(a)). Macrophages had infiltrated the lymph nodes and liver (Figures 2(b)-(e)), and EBV-reactivated cells were detected in bone marrow, the lymph nodes, and spleen by staining for the
Table 1. Laboratory data on admission.
Figure 1. Findings for chest and abdominal CT on admission. (a) Chest CT revealed mildly swollen axillary lymph nodes (arrowhead); (b) Abdominal CT showed mildly swollen inguinal lymph nodes (arrowhead).
Figure 2. Findings for bone marrow, lymph nodes, liver and spleen in autopsy samples. (a) Hemophagocytosis was detected in bone marrow (HE stain, arrowhead). (b) (c) Macrophages infiltrated the lymph nodes ((b) HE stain, (c) CD68 stain). (d) (e) Macrophages infiltrated the liver ((d) HE stain, (e) CD68 stain). (f) The EBV-ZEBRA stain shows that EBV-reactivated cells were present in bone marrow (arrowhead). (g) (h) These cells were also detected in the lymph nodes and spleen.
Figure 3. Findings for glomeruli and tubulointerstitium in renal autopsy samples. (a) (b) (c) There was no obvious glomerulonephritis or interstitial tubulitis in renal histology ((a) (b) Periodic acid-Schiffstain, (c) Periodic Schiff-Methe- namine Silver stain). (d) There was no obvious fibrosis in renal histology (phosphotungstic acid hematoxylin stain).
EBV-ZEBRA protein, which is an EBV immediate-early transcription factor that triggers the switch from latent to lytic infection (Figures 2(f)-(h)). Despite serological renal dysfunction, glomerulonephritis, interstitial tubulitis, and fibrosis were not present in renal histology (Figures 3(a)-(d)).
3. Discussion
HPS often has a very poor prognosis with acute progression and a mortality rate of 41% [4] ; therefore, it is important to consider the preceding symptoms for an earlier diagnosis and treatment. In our case, HPS developed due to the reactivation of EBV preceded by myalgia under immunosuppressive therapy. In addition, despite clinical renal dysfunction, autopsy showed that there was no obvious renal injury. We herein discuss myalgia preceding HPS and AKI without obvious histological injury.
Common symptoms in HPS include high fever that does not respond to antibiotics, liver dysfunction, hepatosplenomegaly, and coagulopathy, which occur with HPS, but do not precede it [1] . Myalgia was detected in the present case, and had not previously been identified as a symptom of HPS. On the other hand, myalgia is a common symptom of EBV infection, and rhabdomyolysis associated with EBV infection has been reported [10] [11] . In the development of EBV-associated HPS, latent EBV in B cells is reactivated under immunosuppression, proliferates, and infects NK/T cells through the viremia of EBV. Therefore, myalgia may be a symptom of the viremia of reactivated EBV preceding HPS; however, it was initially considered to be induced by neuroleptic malignant syndrome because of psychometric medical treatment.
AKI is the most frequent renal manifestation, accounting for 62% of renal involvement cases in HPS [12] . HPS-induced AKI has been attributed to various pathophysiologies including acute tubular necrosis and glomerulopathy such as minimal change disease, focal segmental glomerulosclerosis, and thrombotic microangiopathy [4] ; however, renal histology revealed that there was no obvious damage to the glomerulus, interstitium, or tubules in our case. Concerning the cytokine storm including TNF-α in HPS, AKI in our case may resemble sepsis-induced AKI.
Sepsis is characterized by an excessive inflammatory response to infection through the interaction of biochemical mediators and amplification cascades, and induces the release of inflammatory cytokines such as TNF-α [13] [14] . Sepsis-induced AKI is known as septic AKI, in which efferent arteriolar vasodilatation decreases glomerular filtration pressure and urine production by several cytokines without obvious damage in the histology [15] [16] . Therefore, the pathophysiology of no obvious histological damage and the cytokine storm in HPS appear to support the hypothesis of a similarity with septic AKI and HPS-induced AKI in our case.
4. Conclusion
In conclusion, HPS-induced AKI in our case may have resembled septic AKI due to the cytokine storm. In addition, myalgia under immunosuppressive therapy and psychometric medical treatment may be due to the viremia of reactivated EBV as well as neuroleptic malignant syndrome. Since HPS has a severely poor prognosis with acute progression, it is important to consider the preceding symptoms for an earlier diagnosis and treatment.