Renal Medullary Carcinoma: A Case Report and Brief Review of the Literature

DISCUSSION

Since Davis et al published the original description of RMC, more than 150 cases have been reported, confirming the clinical and epidemiological associations. Patients with RMC tend to be young with a median age of 19-22 years. Patients are almost always of black race (although RMC has been reported in Hispanics/Brazilians and a few Caucasians).⁵ Nearly all RMC patients have sickle cell trait or, rarely, sickle cell disease.

In adults, a 2:1 male-to-female ratio has been observed in patients with RMC. In children, the male predominance is even greater. Initial clinical presentation varies, but most patients present with symptoms; pain and hematuria are the most common. The right kidney is the affected kidney in more than 75% of cases.⁶ Metastasis at presentation is extremely common. The most common sites of metastases are the regional lymph nodes, adrenal glands, lung, liver, inferior vena cava, and peritoneum.⁷

Pathologically, RMC is a malignant epithelial tumor, arising from the collecting duct epithelium. Grossly, these tumors tend to be solitary grayish-white masses with prominent necrosis and hemorrhage. Microscopically, RMC tumors tend to be infiltrative, encompassing solid sheets of poorly differentiated carcinoma. Poorly formed vacuoles can also be seen, although a variety of microscopic patterns can be seen in individual specimens. Solid, reticular, tubular, trabecular, cribriform, and micropapillary architecture have all been described, as has sarcomatoid morphology. Often inflammatory cells, especially neutrophils and lymphocytes, infiltrate the tumor tissue. RMC tumors usually express cytokeratin AE1/AE3, low molecular weight cytokeratin, vimentin, hypoxia-inducible factors (HIF), and vascular endothelial growth factor (VEGF). Variability in the expression rate of high molecular weight cytokeratin is common.^5,8

RMC is a highly aggressive cancer with an extremely poor prognosis. Mean survival time of less than 1 year is seen in most cases. Treatment is difficult. Neither chemotherapy nor radiation therapy has been found to be particularly efficacious. In a review of 20 cases from 4 major institutions over the last decade, Tannir et al found that targeted therapy has low efficacy when used as monotherapy.⁹ Cytotoxic chemotherapy is a mainstay of treatment, but even this modality provides only modest short-term palliation, with most patients dying within a year of diagnosis.⁹ A variety of chemotherapies has been tried in the past, including cyclophosphamide, doxorubicin, cisplatin, topotecan, methotrexate, and vinblastine. Currently, however, no regimen has significantly improved outcomes.¹⁰

As treatment options are few, several researchers have sought new targets of therapy in RMC. Albadine et al, for example, performed immunoexpression analyses of RMC tissue and found that topoisomerase II alpha was overexpressed in 11 of 13 (85%) RMC cases.¹¹ These authors suggested therefore that topoisomerase II might potentially be an efficacious molecular target for future trials. Likewise, Schaeffer et al showed increases of topoisomerase II in all 4 cases they analyzed by whole-genome expression, and they further reported a case of metastatic RMC in which a complete response was achieved for 9 months using topoisomerase II-inhibitor therapy.¹²

Some renal medullary carcinomas have been associated with the absence of INI1 expression, a factor in the adenosine triphosphate-dependent chromatin-modifying complex. This genetic condition is also seen in renal rhabdoid tumors. An absent INI1 does not appear to predict rhabdoid histopathology, but in RMC, it is associated with more aggressive tumor behavior.¹³

Anaplastic lymphoma kinase (ALK) receptor tyrosine kinase rearrangement has been reported in RMC. Mariño-Enríquez et al reported a case of RMC in which they found a t(2;10)(p23;q22) chromosomal translocation associated with a novel ALK oncoprotein that had the cytoskeletal protein vinculin fused to the ALK kinase domain.¹⁴ Their report suggests a rationale for studying the treatment of RMC with targeted ALK inhibitors.¹⁵

Kondagunta et al conducted a phase 2 trial of bortezomib in metastatic RCC.¹⁶ One patient in this trial had metastatic RMC. The patient in this study received intravenous bortezomib at 1.3 mg/m² on a twice-weekly schedule for 2 weeks followed by 1 week without treatment, continuing for a total of 7 months of bortezomib therapy. The patient achieved a complete remission and remained without evidence of disease after more than 27 months of follow-up.¹⁶ Bortezomib, a drug approved for the treatment of multiple myeloma and mantle cell lymphoma, targets the 26S proteasome of the ubiquitin-proteasome degradation system. In normal cells, the proteasome degradation system regulates protein expression and function by degradation of ubiquitinylated proteins. The system also clears abnormal or misfolded proteins from the cell.

Despite the lack of available prospective evidence, we currently use both targeted therapies and cytotoxic chemotherapy in the treatment of RMC. Our patient was treated with trials of both a VEGF-targeted tyrosine kinase inhibitor (sunitinib) and an mTOR inhibitor (everolimus), as well as various cytotoxic chemotherapy regimens. We also treated her with bortezomib based on the Kondagunta data and used the angiogenesis inhibitor bevacizumab both as a single-agent therapy and in combination with cytotoxic chemotherapy.

Our experience in this case mirrors that of other practitioners, sequencing through multiple modalities of systemic therapy in an attempt to achieve efficacy for the individual patient. Hopefully, improved understanding of the underlying biologic mechanisms of this rare disease will provide guidance for future therapies.