Renal papillary adenoma--a putative precursor of papillary renal cell carcinoma

The precursor lesions of renal cell carcinoma (RCC) are unknown. The purpose of this study is to determine the incidence, histomorphological features, and immunohistochemical features of papillary adenoma and elucidate its potential relationship to RCC. We reviewed 542 consecutive nephrectomy specimens over an 8-year period. Immunohistochemistry was carried out with antibodies specific for alpha-methyl-coenzyme A racemase (AMACR) and glutathione S-transferase alpha (clear-cell RCC marker). Thirty-eight (7%) nephrectomy specimens showed histologic evidence of papillary adenoma. Of these 38 cases, 18 (47%) arose in the setting of papillary RCC (PRCC). Seven papillary adenomas (18%) occurred in the setting of acquired polycystic kidney disease (APKD), 6 in clear-cell RCCs, 3 in chromophobe RCCs, 2 in end-stage kidney disease, 1 in oncocytoma, 1 in angiomyolipoma, and 1 in renal schwannoma. Furthermore, papillary adenomas were more commonly found in kidneys removed for PRCC (25%, 18/71) than in kidneys harboring clear-cell RCC (1.9%, 6/318). Histomorphologically, papillary adenomas were characterized by varying proportions of papillae and tubules formed by cuboidal cells with scant basophilic cytoplasm similar to those in type 1 PRCC. Adenomas associated with PRCC tend to be multiple in number (61% [11/18] of cases had >2 adenomas; mean, 5). In contrast, 100% of papillary adenomas arising in other conditions had less than 2 adenomas. Most of the adenomas (82%, 31/38) stained strongly for AMACR in a fashion similar to that of PRCC. The 7 AMACR-negative cases all arose in the setting of APKD. In this study of surgical specimens, the high coincidence, multifocality, and histologic and immunohistochemical similarities between papillary adenoma and PRCC suggest that the 2 are strongly associated and may represent a continuum of 1 biologic process. In contrast, adenomas associated with APKD exhibit distinct morphological and immunohistochemical features and, therefore, may have an entirely different pathogenesis.     

Triple synchronous neoplasms in one kidney: report of a case and review of the literature

We report the case of a patient with three synchronous but histologically different primary renal tumors that were all in the same kidney. Two tumors were different subtypes of renal cell carcinoma (RCC), and the third was a variant form of angiomyolipoma. The patient was a 62-year-old man who was receiving antihypertensive drugs and came to our hospital for a regular check-up. Ultrasonography performed during the visit revealed a left renal mass, but the patient had no related symptoms. Subsequent computed tomography revealed two round, high-density masses, one in the mid-portion and the other in the lower pole of the left kidney, and multiple cysts in the right kidney and the liver. The mass in the mid-portion measured 3.3 x 3.0 x 2.8 cm, and the mass in the lower pole measured 1.7 x 1.1 x 0.9 cm. A left radical nephrectomy was performed. On gross examination, an additional ovoid nodule (0.6 cm in the greatest dimension) was found in the lower pole. Microscopically, the largest tumor consisted of a broad alveolar arrangement of large round cells with abundant eosinophilic or clear cytoplasm, distinct cell borders, and perinuclear halos, features consistent with chromophobe RCC. The smallest tumor was a conventional (clear-cell) RCC. The third tumor was composed solely of atypical epithelioid cells with prominent nucleoli and yellowish-brown to black pigments. The tumor cells were positive for melanin (Fontana-Masson stain), the melanoma marker HMB45, vimentin, smooth-muscle actin, and the macrophage marker CD68 and were negative for cytokeratin. This tumor was considered a pigmented epithelioid type of angiomyolipoma. The histologic, histochemical, and immunohistochemical features in this case confirmed the presence of three synchronous primary tumors, a chromophobe and a clear-cell type RCC and a pigmented epithelioid angiomyolipoma, all of which were in the same kidney. This case is the first of its type reported in the literature.     

Atypical epithelial proliferations in acquired renal cystic disease harbor cytogenetic aberrations

Acquired renal cystic disease (ARCD) complicating end-stage renal failure confers an increased risk for renal cell carcinoma, and atypical epithelial proliferation in the cysts may represent the precursor lesion. In this report we used an interphase cytogenetic technique to analyze the karyotypic features of various forms of atypical epithelial proliferations in a patient with ARCD. Both kidneys harbored numerous simple and atypical cysts. In addition, papillary tufts and a hitherto undescribed cribriform epithelial proliferation were found in the right kidney. The left kidney contained a 10-mm renal cell carcinoma with features indeterminate between clear cell and papillary types. There was gain of chromosome 7 in the papillary tufts; gain of chromosomes 7 and 17 in the cribriform lesion; gain of chromosomes 7, 12, 17, 20, and Y in the atypical cysts; and gain of chromosomes 7, 12, 17, and 20 in the renal cell carcinoma. These chromosomal aberrations suggest that atypical epithelial proliferations in ARCD represent early neoplastic lesions.     

Ipsilateral synchronous renal cell carcinoma and transitional cell carcinoma.

The simultaneous occurrence of renal cell carcinoma(RCC) and transitional cell carcinoma(TCC) in the same kidney is unusual. We report a 53-year-old man with ipsilateral synchronous renal adenocarcinoma and renal pelvic transitional cell carcinoma with severe hypercalcemia and a huge staghorn calculus in the opposite kidney. The patient was admitted to the hospital because of left flank pain and intermittent fever which he had had for 2 months. Computerized tomography revealed a huge stone in the right kidney and a mass in the upper pole with an irregular calcified pelvis in the left enlarged kidney. Left radical nephrectomy was done. A section of the specimen revealed a renal cell carcinoma located at the upper pole and a papillary transitional cell carcinoma arising from the renal pelvis. This is a rare case of combined renal malignancies.     

Recent classification of renal epithelial tumors

The recent classification of renal tumors is based on genetic evidence as well as on histologic features. Malignant tumor includes clear cell renal carcinoma (RCC), multilocular cystic RCC, papillary RCC, chromophobe RCC, carcinoma of the collecting duct of Bellini, renal carcinoma associated with Xp11.2 translocations/TFE3 gene fusions and mucinous tubular and spindle cell carcinoma. Benign tumor is subdivided into papillary adenoma, renal oncocytoma and metanephric adenoma. Recently, new disease entities such as acquired cystic disease-associated RCC, clear cell papillary RCC and renal carcinoma with t(6;11)(p21:q12) have been discovered. In this article, we briefly review and introduce the clinical, morphological and genetic features of these tumor entities.     

De novo concurrent papillary renal cell carcinoma and angiomyolipoma in a kidney allograft: evidence of donor origin

In the general population, renal cell carcinoma (RCC) is a relatively common neoplasm; however, the papillary RCC subtype is infrequent and represents only 10 to 15% of all RCC. Angiomyolipoma is a well-known common benign tumor. The occurrence of RCC in association with angiomyolipoma is a rare event, with only approximately 50 cases reported in the nontransplantation setting. In transplant recipients, RCC can develop in native kidneys, but its occurrence "de novo" in the renal allograft is very rare with an estimated incidence of less than 0.5%. We report here the case of a 39-year-old woman who underwent cadaveric renal transplantation in 1990. No lesion was observed in the allograft during the pre- and perioperative period or on early postoperative ultrasounds. No graft rejection occurred under a standard triple immunosuppressive therapy. Thirteen years later, during a routine ultrasonography, 2 solid masses were discovered in the allograft, both of them richly vascularized. She underwent allograft nephrectomy and the histologic findings revealed that one of the tumors was a chromophilic (type 1) papillary RCC (2.5 cm in diameter) and the other, an angiomyolipoma (1.5 cm). Microsatellite analysis of the allograft, as compared with the recipient peripheral blood leukocytes, demonstrated that the 2 tumors (1 malignant and 1 benign) were of donor origin. To our knowledge, this is the first report of de novo concurrent papillary RCC and angiomyolipoma in a renal allograft.     

Tubulocystic renal cell carcinoma with poorly differentiated foci is indicative of aggressive behavior: clinicopathologic study of two cases and review of the literature

Tubulocystic renal cell carcinoma (TCRCC) is a rare, recently characterized RCC subtype with distinctive clinicopathologic and genetic characterizations as well as typical behaviors in an indolent fashion. However, sporadic case reports in the literature have indicated that TCRCC with sarcomatoid differentiation or poorly differentiated (PD) foci could behave aggressively. Herein, we reported two cases of TCRCC with PD foci indentified from our consultative service. Both patients were male and aged 66 y and 47 y, respectively. The first patient experienced radical nephrectomy while the other was treated by partial nephrectomy. Macroscopically, both tumors were described as partly cystic and solid with the greatest diameter measuring of 12-cm and 4.5-cm, respectively. Histologically, both lesions had classic areas of TCRCC occupying most part of the tumor with small papillary RCC component. In case one, PD foci were scatteredly distributed and mixed with TCRCC and papillary RCC components, while in the other case the PD foci were adjacent to the areas of TCRCC. In both tumors, the PD foci were composed of irregular, often angulated, small tubules lined by atypical eosinophilic cells and surrounded by desmoplastic stroma, resembling collecting duct carcinoma. Immunohistochemistry, in both tumors, both TCRCC component and PD foci showed the similar immunoprofiles, i.e., labeling strongly and diffusely with PAX8, AMACR and Vimentin, and focally with CK34βE12 but not with renal cell carcinoma marker or P63. In case one, the tumor invaded extensively into the adjacent renal parenchyma and focally into both renal sinusal and perirenal adipose tissues. The patient had metastasis in the pelvic cavity at the time of diagnosis and succumbed to the disease without further treatment 3 months later. The other case was organ confined but with focal positive renal parenchymal margin. The patient subsequently underwent radical nephrectomy and was in a good status without evidence of tumor recurrence or metastasis at a follow-up of 8 months.     

Hypercalcaemia due to hyperparathyroidism in a patient with chronic renal failure and renal carcinoma.

A 65-year-old woman with a history of a left heminephrectomy for renal carcinoma developed hypercalcaemia 11 years after the operation. The same kidney was found to contain a recurrent renal carcinoma. After the radical nephrectomy of the left kidney, hypercalcaemia remitted but reappeared 11 months later. The right kidney was small but functioned at a level of creatinine clearance of 10--15 ml/min. Metastatic work-up was negative, and secondary causes of hypercalcaemia were excluded. A neck exploration revealed a parathyroid adenoma. With parathyroid resection the serum calcium declined to normal, and the risk of hypercalcaemic nephropathy in the remaining kidney was precluded.     

Surgical treatment for isolated multiple pancreatic metastases from renal cell carcinoma: report of a case

A 70-year-old man was admitted to our hospital for evaluation of multiple pancreatic tumors. Twelve years earlier he had undergone left radical nephrectomy for renal cell carcinoma (RCC). Computed tomography revealed two well-defined mass lesions in the head and tail of the pancreas, with strong contrast enhancement in the arterial phase. Fluorine-18 fluorodeoxyglucose positron emission tomography detected an elevated uptake within the lesions but no extrapancreatic uptake. The preoperative diagnosis was isolated multifocal metastatic pancreatic tumors from RCC. The patient underwent total pancreatectomy with splenectomy. Both of the tumors were well-demarcated, gray-white, and firm on gross observation. Microscopic examination, meanwhile, revealed solid tumors consisting of clear oval cells with severe nuclear atypia. These pathologic findings were consistent with the preoperative diagnosis of pancreatic metastasis from RCC. Radical resection improves the long-term survival of patients, and total pancreatectomy may be an appropriate procedure.     

Acquired cystic disease-associated renal cell carcinoma with gain of chromosomes 3, 7, and 16, gain of chromosome X, and loss of chromosome Y

Acquired cystic disease (ACD)-associated renal cell carcinoma (RCC) has been recently described. To date, there are no reports on genetic findings of G-band karyotype of ACD-associated RCC. In this article, we report the first report of G-band karyotype of ACD-associated RCC. A 66-year-old Japanese man was found to have a left renal tumor during the follow-up of hemodialysis consequent to chronic renal failure. Left nephrectomy was performed. Histological examination of three tumors in the left kidney showed the cribriform or microcystic growth pattern of neoplastic cells with eosinophilic cytoplasm, and many oxalate crystals were observed. The G-band karyotype of ACD-associated RCC showed 49, X, +X, −Y, +3, +7, +16. These chromosomal abnormalities resemble those of sporadic papillary RCC that has been previously reported. Finally, we suggest that this tumor may show a close relationship between ACD-associated RCC and papillary RCC, but a large-scale study will be needed to clarify the relationship between ACD-associated RCC and papillary RCC.     

Fluorescence in situ hybridization as an adjunct tool in the diagnosis of primary and metastatic renal cell carcinoma in fine needle aspiration specimens

We investigated the role of fluorescence in situ hybridization (FISH) in the diagnosis of primary renal neoplasms and lesions suspicious for metastatic renal cell carcinoma. Consecutive fine‐needle aspiration biopsies (FNAB) of 39 renal masses and 41 metastatic tumours suspicious for renal cell origin were assessed with an immunohistochemical panel for CK7, RCC antigen, CD10, AMACR, PAX8, vimentin, and CD117. In addition, FISH was performed using probes for chromosomes 1p, 3p, 7, 17, X, and Y. A total of 31 of 39 primary renal masses and 33 of 41 metastatic tumors suspicious for renal origin demonstrated typical cytological and immunohistochemical (IHC) features of subtypes of renal neoplasms (40 clear cell renal cell carcinoma (RCC), 20 papillary RCC, and 4 renal oncocytomas). FISH analysis of 15 randomly selected cases each of primary and metastatic lesions revealed chromosomal abnormalities consistent with the diagnosis in 73% of these cases. Of 8 primary renal masses demonstrating atypical microscopic features and noncontributory IHC profiles, FISH was helpful in subtyping 5 (62%) of these lesions (2 clear cell RCC, 1 solid variant of oncocytic papillary RCC, 1 mixed clear cell and papillary RCC, and 1 chromophobe RCC with papillary architecture). Of 8 metastatic tumors clinically suspicious for renal cell origin and supportive, but nondiagnostic IHC, FISH revealed supportive chromosomal changes in 6 (75%) cases. In conclusion FISH analysis on FNAB material, even with limited tissue, may be contributory to the diagnosis and subtyping of RCC in diagnostically challenging biopsies. Diagn. Cytopathol. 2014;42:1013–1023. © 2014 Wiley Periodicals, Inc.     

Recent advances of immunohistochemistry for diagnosis of renal tumors

The recent classification of renal tumors has been proposed according to genetic characteristics as well as morphological difference. In this review, we summarize the immunohistochemical characteristics of each entity of renal tumors. Regarding translocation renal cell carcinoma (RCC), TFE3, TFEB and ALK protein expression is crucial in establishing the diagnosis of Xp11.2 RCC, renal carcinoma with t(6;11)(p21;q12), and renal carcinoma with ALK rearrangement, respectively. In dialysis‐related RCC, neoplastic cells of acquired cystic disease‐associated RCC are positive for alpha‐methylacyl‐CoA racemase (AMACR), but negative for cytokeratin (CK) 7, whereas clear cell papillary RCC shows the inverse pattern. The diffuse positivity for carbonic anhydrase 9 (CA9) is diagnostic for clear cell RCC. Co‐expression of CK7 and CA9 is characteristic of multilocular cystic RCC. CK7 and AMACR are excellent markers for papillary RCC and mucinous tubular and spindle cell carcinoma. CD82 and epithelial‐related antigen (MOC31) may be helpful in the distinction between chromophobe RCC and renal oncocytoma. WT1 and CD57 highlights the diagnosis of metanephric adenoma. The combined panel of PAX2 and PAX8 may be useful in the diagnosis of metastatic RCC.     

Spectrum of renal pathology in adult patients with congenital renal anomalies—a series from a tertiary cancer center

Congenital renal anomalies (CRAs) detected in adults include horseshoe kidney (HK), crossed renal ectopia, and malrotation. Congenital renal anomalies are rare, and renal lesions associated with CRA are rarer. Thirteen patients (11 men and 2 women) were referred to our center with renal masses in the context of CRAs, which included HK (10 cases), crossed renal ectopia (2 cases), and a pelvic kidney (1 case). The mean age at diagnosis was 60 years (37-76 years). All patients were treated with open surgery; 10, partial nephrectomies; 4, radical nephrectomies; and 1, nephroureterectomy with division of the renal isthmus. Pathology ranged from benign (simple cortical cysts, chronic pyelonephritis with secondary hydronephrosis) to malignant (12 cases of renal cell carcinomas [RCCs] and 1 case of urothelial carcinoma). Two patients of HKs presented with bilateral renal masses. The size of the RCC ranged from 2.5 to 13 cm. There were 11 cases of clear cell RCC, 1 case of papillary RCC (type 1), and 1 case of urothelial carcinoma. All the cases of RCC had negative surgical margins. Follow-up available in all patients ranged from 1 month up to 49 months. None of the patients developed any locoregional recurrences or distant metastases. In this patient cohort, the most common congenital anomaly associated with RCC is HK. All tumors behaved in an indolent fashion with prognosis related to pathologic tumor stage. Partial nephrectomy is a safe and effective procedure in appropriately selected patients.     

Renal cell carcinoma arising in a long pre-existing angiomyolipoma

Angiomyolipoma (AML) is a mixed mesenchymal tumor belonging to the family of perivascular epithelioid cell tumors. Concurrent development of AML and adult renal cell carcinoma (RCC) is very rare. Herein is presented a unique case in which RCC arose within a previously detected AML tumor mass. A 40-year-old woman had been diagnosed with AML of the right kidney. Fifteen years later, during a regular radiographic examination, a new lesion was detected at the lower pole of the right kidney adjacent to the previously described AML. Because RCC was clinically suspected, the patient underwent right nephrectomy. Macroscopically, the tumor had a yellowish, transparent, fatty area and an opaque yellowish area with cystic features. Microscopically, the former tumor, consisting of an admixture of mature adipose tissue with smooth muscle and vascular tissue, was diagnosed as AML. The latter tumor was diagnosed as RCC (clear cell type). RCC was not completely enclosed within the AML, but overlapped it. No fibrous capsule was found between these tumors. Although this situation is very rare, from a clinical and pathological point of view it is important to consider the possibility that RCC might arise within AML. The relationship between the two lesions is discussed with a review of the literature.     

New and emerging renal tumour entities

In this review, we discuss new and emerging renal cell carcinoma (RCC) entities, including anaplastic lymphoma kinase (ALK) RCC, oncocytic variant of chromophobe RCC, atrophic kidney-like renal tumour, biphasic alveolosquamoid RCC, tubulocystic RCC, thyroid-like follicular carcinoma of the kidney, succinate dehydrogenase-deficient RCC, Birt–Hogg–Dubé syndrome-associated renal tumour, hereditary leiomyomatosis/renal cell carcinoma associated RCC, tuberous sclerosis-associated RCC, PTEN hamartoma tumour syndrome, clear cell papillary RCC, acquired cystic disease-associated RCC, Xp11.2 RCC, t(6;11) RCC and renal hemangioblastoma. These tumours have clinical, pathological and genetic features distinct from other common RCCs and therefore are important to recognize. Some of them have been recognized as distinct histological subtypes in the 2016 World Health Organization Classification. However, further studies are needed to elucidate their clinicopathologic features and molecular mechanisms.     

Spectrum of nontumoral renal pathologies in tumor nephrectomies: nontumoral renal parenchyma changes

Non-neoplastic changes are not rarely seen in renal parenchyma of nephrectomy specimens removed for primary renal neoplasms. These changes often involve both kidneys, thus causing impairment of renal function, reducing patient's quality of life and sometimes threatening it. Renal tissue accompanying the tumor provides an opportunity in order to evaluate these changes. However, the clinician should make available clinical and laboratory findings involving renal functions of the patient to the pathologist. It is also important that the pathologist must have appropriate knowledge and experience in nephropathology. In this study, we aimed to correlate these changes with the clinical data and make inquiries regarding our experience with nonneoplastic kidney pathology. Consecutive 403 nephrectomy specimens with primary renal neoplasms submitted to our department between 2003 and 2009 were re-examined. Twenty-three nephrectomy materials from 21 patients had non-neoplastic changes, 2 of which were bilateral. Patient follow-up data were obtained from electronic medical records. Of all cases, eight had diabetic nephropathy; 2, amyloidosis; 5, segmental proliferative and/or sclerotic glomerulonephritis; and 6, cystic renal changes. These findings were seen in 5% of nephrectomy specimens diagnosed as clear cell renal cell carcinoma (RCC), chromophobe cell RCC and oncocytoma, whereas this rate was two times higher in nephrectomy specimens with papillary RCC. Most patients with renal failure who were diagnosed with clear cell carcinoma died within the first two years. Despite limited number of cases in our series, prognosis of cases with clear cell RCC were poorer. Consequently, we think that non-neoplastic changes should be reported along with the details regarding the tumor in order to achieve best treatment planning.     

Numerical chromosomal aberrations in papillary renal cortical tumors: relationship with histopathologic features

Previous studies have indicated that a combined trisomy of chromosomes 7 and 17 is a constant finding in papillary renal cortical adenomas and that papillary renal cell carcinomas are marked by additional trisomies such as trisomy 12, 16, and 20. The aim of our study was to compare this cytogenetic classification of papillary renal cortical tumors with conventional histopathologic classification. We performed interphase cytogenetics with enumeration probes for chromosomes 7, 12, 16, 17, and 20 on 41 papillary tumors found in 21 nephrectomy and 10 autopsy kidneys. A total of 38 tumors harbored gains of chromosomes 7 or 17, and most of these showed a trisomic signal distribution. The three tumors with normal copy numbers for chromosomes 7 and 17 were a papillary grade-2 carcinoma, a small adenoma (both with distinctive oxyphilic cytoplasm), and a papillary carcinoma with focally clear cells. Gains for chromosomes 12, 16, or 20 were found in 21 tumors and were significantly associated with the presence of histologic criteria of malignancy ( P<0.0001). Histopathologic and cytogenetic features of malignancy were found in eight tumors smaller than 10 mm. There is a good agreement of cytogenetic and histopathologic criteria of malignancy in papillary renal cell tumors. Interphase cytogenetics might give useful additional information in cases of doubt or when only small biopsy specimens are available.     

The Heidelberg classification of renal cell tumours

This paper presents the conclusions of a workshop entitled ‘Impact of Molecular Genetics on the Classification of Renal Cell Tumours’, which was held in Heidelberg in October 1996. The focus on ‘renal cell tumours’ excludes any discussion of Wilms' tumour and its variants, or of tumours metastatic to the kidneys. The proposed classification subdivides renal cell tumours into benign and malignant parenchymal neoplasms and, where possible, limits each subcategory to the most commonly documented genetic abnormalities. Benign tumours are subclassified into metanephric adenoma and adenofibroma, papillary renal cell adenoma, and renal oncocytoma. Malignant tumours are subclassified into common or conventional renal cell carcinoma; papillary renal cell carcinoma; chromophobe renal cell carcinoma; collecting duct carcinoma, with medullary carcinoma of the kidney; and renal cell carcinoma, unclassified. This classification is based on current genetic knowledge, correlates with recognizable histological findings, and is applicable to routine diagnostic practice. © 1997 John Wiley & Sons, Ltd.     

Chromophobe renal cell carcinoma,eosinophilic variant with papillary growth: a case report

We report the case of an 80-year-old man who presented with pathologically diagnosed chromophobe renal cell carcinoma composed of eosinophilic cells with partial papillary growth. The patient had a 2.5 cm diameter renal mass incidentally detected by abdominal ultrasound examination. Laparoscopic left partial nephrectomy was performed under a diagnosis of left renal tumor. Histopathology demonstrated uniform eosinophilic cuboidal cells growing with a partially papillary pattern: differential diagnosis of oncocytoma, papillary renal cell carcinoma, or oncocytic papillary renal cell carcinoma was necessary. Immunohistochemical staining with anti-monoclonal antibody 31 and -CD82 antibody, and choroid iron staining, were positive. Cytogenetic analysis by comparative genomic hybridization showed gains of chromosomes 1p, 9q, 19q, 20, and 21q, and losses of chromosomes 1p and q, 2q, 6q and 7q, leading to diagnosis of chromophobe RCC. We describe differential diagnosis for chromophobe renal cell carcinoma, eosinophilic variant, growing in a papillary fashion in the kidney.     

Clinical features of renal cell carcinoma (RCC) found in 110 nephrectomized Japanese, of which 24 (22%) RCC cases showed 31 double or triple cancers

The causes of renal cell carcinoma (RCC) were investigated in 115 nephrectomized Japanese. Among them, 110 nephrectomized Japanese had RCC as follows: 86 clear cell RCC, 8 papillary RCC, 8 chromophobe RCC, 7 dialytic–multicystic RCC, and 1 liposarcoma, while 5 nephrectomized Japanese had benign renal tumors of oncocytoma (1), angiomyolipoma (2), and hemangioma (2). In the eight chromophobe RCC, three cases that resulted in death involved medullary RCC showing extensive oncogenic features. Double or triple cancers were found in 17 clear cell RCC, 5 papillary RCC, 1 chromophobe RCC, and 1 dialytic–multicystic RCC. Among 31 non-RCC found in 24 RCC cases, 23(74%) non-RCC were removed prenephrectomy. Prenephrectomy adenocarcinoma and postnephrectomy squamous cell carcinoma were their characteristic findings. Compared with those of clear cell RCC, double (triple) cancers of papillary RCC showed more aggressive malignancy. One clear cell RCC had triple cancer of thymoma and rectum cancer. One chromophobe RCC developed thymoma, while one oncocytoma had insulinoma >10 years before. A patient in his sixties with clear cell RCC, who had a past history of pneumothorax, had developed adenocarcinoma of colon polyps and liver adenocarcinoma almost at the same time as triple cancer. His lactate dehydrogenase (LDH) levels were under 300 IU/l. He was suspected of having Birt–Hogg–Dube syndrome. One patient with papillary RCC of Paget’s disease of the bone developed colon polyp adenocarcinoma, osteosarcoma, and additionally exhibited p97/valosin-containing protein downregulation in his sixties. His LHD was increased to 4,289 IU/l with cell lysis reactions. His radical nephrectomy accompanied by adrenalectomy reinforced clinical manifestations of p97 downregulation. For p97 functions, the kidney and adrenal gland had important roles. It was concluded that oxygen stress was stronger in RCC, especially in papillary RCC. Nonsense mutations of protein tyrosine phosphatase receptor delta might be one cause of double (triple) cancers in RCC.