The Case

A 39-year-old Caucasian male with a history of biopsy-proven minimal change disease with nephrotic syndrome, at one year of age, without recurrences after 6 months of steroid treatment, had been of regular follow-up for 37 years.  Three days after administration of the first dose of the BioNTech/Pfizer SARS-CoV-2 vaccine (BNT162b1®) he  developed  weakness, fatigue, and lower limb edema. On the eighth day after vaccination, he was admitted to our Nephrology Unit with acute kidney injury (AKI) (serum creatinine 1.8 mg/dl vs baseline 0.9 mg/dl, creatinine clearance 44 ml/min) and full-blown nephrotic syndrome (proteinuria 8 g/24 h, unremarkable urine sediment, albuminemia 2.7 g/dl, total cholesterol 470 mg/dl, generalized peripheral edema). Diuresis was unaffected. Common causes of renal failure (nephrotoxic agents, dehydration, autoimmune and infectious diseases) were excluded. No infectious event or other relevant condition occurred in the weeks prior to the onset of nephrotic syndrome, except for the administration of the vaccine. Abdominal ultrasonography was unremarkable. A renal biopsy was diagnostic for minimal change disease (MCD) (Fig. 1). Oral prednisone (1 mg/kg for 4 weeks) was prescribed. The clinical picture rapidly improved with complete regression of proteinuria. Renal function was normal at the follow-up visit at the end of therapy. The steroid was discontinued after standard tapering. To date, the patient has not received the second dose of the vaccine. An interesting remark: he had been vaccinated against seasonal influenza (split inactivated vaccine) 6 months earlier without side effects.

Fig. 1
figure 1

Minimal change disease on the renal biopsy. a Light microscopy, b transmission electron microscopy (× 800): diffuse effacement of foot processes. Immunofluorescence was negative

Lessons for the clinical nephrologist

Messenger RNA (mRNA) vaccines against coronavirus disease 2019 (COVID-19) have emerged with exceptional speed, as a flagship of the innovation process in medicine [1]. As mRNA is a non-infectious, non-integrating platform, there is no risk of insertion-induced mutagenesis or infection [2]. Target immunogenic epitopes can be easily inserted and removed to adapt to a mutated or newly emerged virus strain quickly. Compared to traditional vaccines, they are expected to produce a higher antibody response and a stronger CD8+ T- and CD4+ T-cell response, including higher production of chemokines and cytokines [1, 3]. A consequent dysregulation of permeability factors could result in relapsing glomerulonephritis. In this sense, a crosslink between the mRNA vaccine and relapsing glomerulonephritis should be considered [4].

To the best of our knowledge, very rare cases of biopsy-proven relapsing glomerulonephritis following COVID-19 vaccination have been previously reported including a  paper by Rovin et al. who described two cases of known IgA nephropathy showing gross hematuria following the second dose of the Moderna vaccine [5].

The interest in our case is that it depicts biopsy-proven relapsing glomerulonephritis (namely MCD) arising after the first dose of BNT162b1®. MCD had been silent for 37 years and was once again fully responsive to short-term steroid therapy, despite a severe onset with AKI and full-blown nephrotic syndrome.

Further data are emerging. Labedev and colleagues [6] described another case of MCD after BNT162b1® first dose. In this case, the patient had never had any previous episodes of glomerulopathy. As in our case, the patient developed AKI and nephrotic syndrome a few days after the first dose of the BioNTech/Pfizer SARS-CoV-2 vaccine. The close temporal association suggests that the mRNA vaccine may have been the trigger for T-cell mediated podocytopathy. The prompt performance of a renal biopsy and the start of standard steroid therapy led to complete remission of AKI and nephrotic syndrome, as in our case.

Although the pathogenesis of MCD remains unclear, the immunological dysregulation of T lymphocytes appears to be decisive [7, 8]. The therapeutic efficacy of steroid-based immunosuppression strongly reinforces these findings. Clinical studies have shown an imbalance in T-cell subpopulations during the active phase of minimal change disease, with a prevalence of circulating CD8+ suppressor T-cells, aggravating the nephrotic syndrome in mouse models through cytokine-induced damage (Th2; IL4, IL5, IL9, IL10, and IL13) [9].

The global use of mRNA vaccines underlines the importance of collecting information on their potential role of triggers of glomerular diseases. In patients with glomerular diseases, and above all, in patients with onset or relapse of glomerular diseases it is probably not safe to administer second doses of mRNA vaccine or future boosters. Special attention in the follow-up post-vaccine anti COVID-19 of patients with glomerular diseases  is  highly needed.