Blood Res 2020; 55(1):
Published online March 31, 2020
https://doi.org/10.5045/br.2020.55.1.49
© The Korean Society of Hematology
Correspondence to : Hui Zhou, M.D.
Department of Lymphoma and Hematology, Hunan Cancer Hospital, 283 Tongzipo Road, Yuelu District, Changsha 410013, China
E-mail: zhouhui@hnca.org.cn
#These authors contributed equally to this work.
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Background
Human immunodeficiency virus (HIV)-negative plasmablastic lymphoma (PBL) is a rare entity of diffuse large B-cell lymphoma (DLBCL). The clinicopathological features of and optimal treatment for HIV-negative PBL remain largely unknown.
Methods
To gain insight into this distinct lymphoma, we summarized the clinicopathologic characteristics of 8 unpublished HIV-negative PBLs and performed a comprehensive review of 394 published cases.
Results
Of the 8 unpublished PBLs, the median patient age was 53.0 years. Four patients presented with stage IV disease. All 8 patients showed a plasma cell-like immunophenotype. Of the six patients who received anthracycline-based chemotherapy, including two who received bortezomib, three patients achieved a continuous complete response, two patients died due to disease progression, and one patient was lost to follow-up. The other two patients achieved continuous complete response after receiving chemotherapy combined with radiotherapy and surgery. Of the 402 patients, the majority were male, with a mean age of 58.0 years. EBV infection was detected in 55.7% of the patients. The median survival times of the patients who received CHOP or CHOP-like regimens and intensive regimens were not reached and 23.0 months, respectively, and the intensive regimen did not improve the survival outcome (P=0.981). Multivariate analysis showed that EBER remained the only independent factor affecting overall survival (OS).
Conclusion
HIV-negative PBL is a distinct entity with a predilection for elderly and immunosuppressed individuals. Intensive chemotherapy had no apparent survival benefits over the CHOP regimen in terms of OS; the prognosis of this disease is poor with current chemotherapy methods, and treatment remains a challenge.
Keywords Clinicopathological features, Plasmablastic lymphoma, HIV negative, Treatment, Prognosis
Plasmablastic lymphoma (PBL) is a HIV-related lymphoma that constitutes less than 3% of all non-Hodgkin's lymphoma [1, 2]. Plasmablastic lymphoma was once considered to occur predominantly in human immunodeficiency virus (HIV)-positive individuals. However, an increasing number of PBLs in immunocompetent patients have been reported in case series around the world. To date, little is known about HIV-negative PBL, including its epidemiology, clinicopathological features, treatment, and outcome. To further investigate this rare entity, we report our 8 patients with HIV-negative PBL and present an extensive literature review of 394 published cases of HIV-negative PBL.
This was a retrospective study. Eight patients with PBL between January 2007 and October 2016 were identified through the pathology databases of Xiangya Hospital of Central South University, the Second Xiangya Hospital of Central South University and Hunan Cancer Hospital. All patients were negative for HIV. The histological diagnosis of PBL was based on hematoxylin and eosin (HE) staining and immunohistochemical results according to the 2008 WHO classification of tumors of hematopoietic and lymphoid tissues [1]. The histology slides and reports of all cases were independently reviewed by a second hematopathologist at Hunan Cancer Hospital to confirm the diagnosis.
We conducted a literature search of the PubMed, Embase, and Cochrane Library electronic databases of English journals and CNKI, Wanfang and VIP databases of Chinese journals using the following search terms: ‘plasmablastic lymphoma and human immunodeficiency virus-negative/HIV-negative’ and ‘PBL’. Each article was acquired in full, and the references of each article were examined in an effort to eliminate previously included cases. After excluding reviews without additional cases, unpublished abstracts, cases of HIV infection and cases associated with human herpesvirus 8 (HHV-8) or large B-cell lymphoma arising in HHV-8-associated multicentric Castleman disease (MCD), 394 individual PBL cases were retrieved. All patients expressed at least one of plasma cell marker (CD138, MUM1, VS38c) and were negative or partially positive for CD20.
Written informed consent to store the patients' blood samples and other medical information in our hospital database was obtained from all of the patients, and we also obtained separate consent to use these data in research. This study was approved by the Institutional Review Board of the National Cancer Institute and the ethics committees of Xiangya Hospital of Central South University, the Second Xiangya Hospital of Central South University and Hunan Cancer Hospital. The study was performed in accordance with the Declaration of Helsinki and the institutional guidelines of the local ethics committee.
Overall survival (OS) was defined as the time from the date of diagnosis to the date of death or the last follow-up visit. Survival analysis was performed using the Kaplan-Meier method, and curves were compared using the log-rank test. Significant factors from univariate analysis (
The clinical data of all 8 patients are summarized in Table 1. All patients were negative for human immunodeficiency virus, and the median age at diagnosis was 53.0 years (27.0–69.0 yr). B symptoms were present in 6 patients. The primary sites included the lymph nodes, nasopharynx, oral cavity, ileocecum, bone and skin. Four patients presented stage IV disease (case 1, case 4, case 6, and case 8), three presented stage II disease and, one presented stage I disease. One patient (case 1) showed clinical characteristics of plasma cell myeloma, such as monoclonal IgA spikes and lytic bone lesions observed by computed tomography (CT) scans, but serum calcium, blood urea nitrogen (BUN) and creatinine were in normal ranges.
All the 8 patients showed morphologic features of diffuse large B-cells, with or without plasmacytic differentiation, and showed a plasma cell-like immunophenotype. In our study, all the patients were positive for MUM1 and negative for CD20 and CD45. CD138 and CD38 were positive in 4 cases and negative in one case. CD79a, Pax5, and EMA were variably positive. The average proliferation index was 90% (range from 80% to 100%). EBER-1 in situ hybridization was performed in all cases, and only one patient had positive results. HHV 8 was negative in all cases (Table 2).
Of the eight patients, six patients received anthracycline-based chemotherapy, including two patients who received bortezomib (case 1, case 3). Three patients achieved complete response (CR) and were still alive without disease, while the other two patients (cases 1, case 4) progressed and died after 3 and 6 months, respectively, due to disease progression. The remaining patient was lost to follow-up four months after diagnosis. One patient (case 2) achieved CR after receiving chemotherapy with GEMOX (gemcitabine, oxaliplatin) and involved-field radiotherapy and was still alive at the time of follow-up. One patient (case 5) underwent right hemicolectomy and did not receive adjuvant chemotherapy. She is alive and asymptomatic and has had no disease progression for 23 months postoperatively.
Data from our 8 cases and the 394 reported HIV-negative PBL cases are summarized in Table 3. HIV-negative PBL occurred in a wide spectrum of patients, aged from 1 to 88 years, with a median age at diagnosis of 58.0 years. As Table 3 shows, patients older than 60 years accounted for 42.7% of all the patients. HIV-negative PBL was more common in males, with a male to female ratio of 2.79. Although most patients (53.5%) presented with advanced stage disease, bone marrow involvement was present in only 15.8% of the patients. The most involved sites were the lymph nodes, gastrointestinal tract and oral cavity. EBV infection was common in HIV-negative PBL, involving 56.0% of the patients. Immunosuppression, including post-transplantation status, immune-related disease and current or previous malignancy, was noted in many patients (37.3%).The immunohistochemical characteristics of the 402 patients are summarized in Table 3.
The treatments for 253 patients are summarized in Table 3, and chemotherapy was administered to 233 patients (92.1%). More than half of the patients (124/233) received a CHOP or CHOP-like chemotherapy regimen. Approximately 17.4% of the patients underwent surgery, and 19.4% of the patients received radiotherapy. Forty-four patients received an intensive regimen, including hyper-CVAD (hyperfractionated cyclophosphamide, vincristine, doxorubicin, and dexamethasone), DA-EPOCH (dose-adjusted etoposide, doxorubicin, vincristine, cyclophosphamide, prednisone), and CODOX-M/IVAC (CODOX-M: cyclophosphamide, vincristine, doxorubicin, high-dose methotrexate; IVAC: ifosfamide, etoposide and high-dose cytarabine). Bortezomib combined with chemotherapy was given to 16 patients in the first-line or salvage treatment setting. Fifteen patients underwent autologous stem cell transplantation (SCT) after achieving CR1 or partial response (PR) 1, and two patients received SCT as salvage therapy after disease progression.
Of the 253 treated patients, 46.2% achieved CR, 26.9% achieved PR, 0.8% achieved stable disease, and 25.7% achieved primary progressive disease. The one-year and two-year OS rates were 55.9% and 44.8%, respectively (Fig. 1A). The median survival time of patients receiving intensive regimens was 23.0 months, however, the median survival time of those who received CHOP or CHOP-like regimen has not yet been reached. The intensive regimen did not improve the survival outcome (Fig. 1B). Bortezomib combined with chemotherapy was given to 14 PBL patients (including two from unpublished cases) without HIV infection as first-line treatment [3, 4, 5, 6, 7, 8, 9, 10, 11, 12]; 10/14 achieved CR or PR, and the median survival time was 11.0 months. A bortezomib-based regimen was also used in two refractory/recurrent patients; however, although dramatic clinical response was achieved, these two patients died shortly after because of disease progression [3, 13, 14]. For stage I patients, the application of radiotherapy did not improve OS, and the one-year OS rate was 80.0% vs. 83.8% for patients with and without radiotherapy (
In this study, univariate analysis revealed that the significant factors affecting OS included disease stage (
The median age of these patients was 60 years. Among the 316 patients, 28 patients had a history of malignancy, and 53 patients were complicated with autoimmune disease. The lymph nodes were the most frequently affected site, followed by the gastrointestinal tract and oral cavity. The EBV+PBL group and EBV-PBL group of non-transplanted patients harbored similar clinical (Table 3) and pathologic (Table 3) characteristics.
The mean and median survival times of non-transplanted patients were 53.0 and 23.0 months, respectively. EBER expression was associated with a better outcome (1-year OS, 66.0% vs. 55.4%;
The median age of HIV-negative post-transplanted patients was younger than that of non-transplanted patients (54 yr vs. 60 yr). The most commonly involved sites were the gastrointestinal tract and lymph nodes. Autoimmune disease occurred in only one patient.
The survival time of transplant recipients was similar to that of non-transplanted patients, with a median survival time of 19.0 months. MYC rearrangement was relatively less detected in transplanted patients than in non-transplanted patients and failed to predict the survival outcome.
PBL is a rare tumor subtype that has a predilection for HIV-positive individuals, accounting for approximately 2.6% of HIV-related lymphoma [15]. In this report, we investigated the clinicopathologic characteristics, treatment, outcome and prognostic factors of 402 patients with HIV-negative PBL (including 8 unpublished cases).
The pathogenesis of HIV-negative PBL remains unclear. EBV infection, MYC gene rearrangements and other genetic alterations are possible pathogenic factors. In situ hybridization for EBV-encoded RNA (EBER) was positive in over half of the HIV-negative PBL patients in our study and was associated with favorable survival outcomes. The overexpression of PD-L1 in EBV+PBL indicated that these tumors may evade immune responses through the PD-1/PD-L1 pathway, which could provide inhibitory signals that downregulate T-cell function [16]. We hypothesize that EBV infections may be important in the tumorigenesis of HIV-negative PBL. Some types of cytogenetic variations, including IG/MYC rearrangements and abnormal expression of p16, MDR-1, and PRDM1, have been detected in HIV-negative PBL [16, 17, 18]. IG/MYC rearrangements are the main cytogenetic alteration in plasmablastic lymphomas and were once proposed as an adverse predictor of PBL [19, 20]. In our study, IG/MYC aberrations were detected in approximately half of the patients and failed to predict the survival outcome of PBL, which is consistent with other reports [15, 20]. MYC rearrangement may be associated with EBV status and PRDM1 and play a significant role in the pathogenesis of PBL [16, 18].
HIV-negative PBL occurred in patients aged 1 to 88 years old, showing a predilection for the elderly population and male patients [21, 22]. It seems that HIV-negative PBLs are more heterogeneous in primary locations than in HIV-positive cases, of which the predominant site of involvement is the oral cavity [23, 24]. HIV-negative PBL can occur in various organs, including the gastrointestinal tract, sinonasal cavity, bone marrow, skin, and lung [22, 25]. In our study, the most commonly involved site was the lymph nodes, followed by the gastrointestinal tract and oral cavity. Our data showed that PBL was present in over half of the patients without HIV, which is similar to HIV-associated PBL [24]. Compared with HIV-negative PBL patients, patients with HIV-associated PBL have a significantly higher expression of EBER (75%) and ki67 (median, 90%) [24]. However, the expression of CD20 (7.2%) was relatively lower and the expression of CD56 (2.2%) was slightly higher in HIV-positive PBL than in HIV-negative patients in our research [24], and this result is inconsistent with a previous study that showed that HIV-positive individuals have a significantly higher expression of CD20 and CD56 [26].
The optimal treatment of PBL has not yet been established. The prognosis of this rare lymphoma is poor with currently available chemotherapy. CHOP (cyclophosphamide, hydroxydaunorubicin, vincristine, and prednisone) or CHOP-like chemotherapy is a common regimen used for HIV-negative PBL, with an overall response rate of approximately 60–70% [27, 28]. More aggressive chemotherapy regimens, including hyper-CVAD, CODOX-M/IVAC and DA-EPOCH, are recommended by the National Comprehensive Cancer Network (NCCN), as these regimens may lead to better outcomes [29]. However, consistent with previous studies [15, 30], our data showed that there was no apparent survival benefit of intensive chemotherapy over CHOP or CHOP-like regimens.
Some novel agents have shown some activity in HIV-negative PBL patients and may play an important role in first-line treatment in the future. Bortezomib is a proteasome inhibitor that may have a potent effect in treating HIV-negative PBL when combined with or without chemotherapy, and it may overcome typical chemoresistance and improve survival outcomes [6, 8, 31]. Bortezomib combined with chemotherapy has achieved good outcomes and was well tolerated in some cases. Recently, a retrospective study including 8 cases of PBL (5 patients were HIV-positive, 2 were HIV-negative, 1 with a history of liver transplantation) demonstrated that bortezomib in combination with etoposide, prednisone, vincristine, cyclophosphamide, and doxorubicin (V-EPOCH) was a safe and effective regimen for PBL, with a complete response rate of 100% and 2-year OS rate of 50% [32]. In our study, the overall response rate of patients treated with bortezomib-containing regimens was 71.4%, and the median overall survival time was 11 months. It seems that bortezomib may be more effective in patients with HIV infection. The relatively small sample size, individual variations, and diversity of chemotherapy may also affect the results. The role of bortezomib in the treatment of HIV-negative PBL needs further investigation. The immunomodulator lenalidomide was also reported to be effective in a patient with HIV-negative PBL [33]. Approximately 30% of PBLs express the activation marker CD30, providing the rationale for the use of an anti-CD30 antibody. Brentuximab vedotin has shown activity against HIV-negative PBL in a patient with relapsed PBL with CD30 expression [34]. The GEMOX (gemcitabine, oxaliplatin) regimen was used in one of our cases and led to long-term remission. Gemcitabine and oxaliplatin were applied to one HIV-associated PBL patient and achieved good results when combined with other chemotherapy drugs [35]. The GEMOX regimen was also reported to be effective in an HIV-negative PBL patient who achieved PR, underwent auto-hematopoietic stem cell transplantation (HSCT) and was still alive after 26 months of follow-up [11]. The GEMOX regimen may be an effective and tolerant chemotherapy regimen for PBL. Although the above regimens have achieved success in some cases, prospective clinical trials with large samples are sparse on account of the rarity of the disease, and the treatment of HIV-negative PBL is still a challenge.
Compared with chemotherapy or radiotherapy, auto-HSCT may produce better outcomes for patients with high-risk disease. Our study demonstrated that HIV-negative PBL patients who received auto-HSCT after achieving CR or PR gained survival benefits. Auto-HSCT might be feasible and beneficial for the consolidation of first-line responses in patients with PBL, especially for those with high-risk disease [25, 36]. Allo-HSCT was reported to successfully induce durable remission for a patient with refractory HIV-negative PBL in a case report [37]. The treatment value of auto-HSCT and allo-HSCT in HIV-negative PBL warrants further prospective clinical trials.
Overall, the prognosis of patients with HIV-negative PBL remains dismal with current treatment, with a median survival time of 6 to 19 months [21, 22, 24, 38, 39]. Our results are similar to those of these studies, with a median survival time of approximately 8 months. Notably, the primary sites did not affect the survival outcome.
Several risk factors for HIV-negative PBL have been identified in previous studies, including clinical stage, immunosuppression status, EBV status, patient CR status, and international prognostic index (IPI) [22, 38, 39]. In our study, a univariate analysis showed that disease stage, B symptoms, LDH level, EBER status, chemotherapy and CR status were significant factors affecting the OS rates. However, only EBER status remained a significant independent factor in the multivariate analysis.
In conclusion, PBL is a rare malignancy with a poor prognosis, and intensive chemotherapy did not provide better survival outcomes for HIV-negative PBL than the CHOP regimen. EBER status may be an independent prognostic factor of survival, and new drugs need to be investigated for PBL.
KLC, JL collected the data, YJL and JWL performed the statistical analysis and drafted the manuscript. MZZ, XLL, HZ and PYY designed the study and helped to revise the manuscript. All authors read and approved the final manuscript.
The authors would like to thank investigators, patients, and their families.
This study was supported by the grants from Natural Science Foundation of Hunan Province National Health Commission (No. 20201659; No. c2015-52) and the grants from the Hunan Provincial Science and Technology Department (No. 2016JJ3083, No. 2017SK2130).
No potential conflicts of interest relevant to this article were reported.
Abbreviations: BM involvement, bone marrow involvement; Bor, bortezomib; CHOP, cyclophosphamide+doxorubicin+vincristine+ prednisolone; CHOPE, cyclophosphamide+doxorubicin+vincristine+prednisolone+etoposide; CR, complete remission; CSF cytology, cerebrospinal fluid cytology; DOD, death of disease; ECOG PS, Eastern Cooperative Oncology Group performance status; GEMOX, gemcitabine+oxaliplatin; IFRT, involved-field radiotherapy; IgA, immunoglobulin A; M protein, monoclonal protein; N/A, not applicable; PBL, plasmablastic lymphoma; PD, progressive disease; PR, partial remission.
Abbreviations: N/A, not applicable; PBL, plasmablastic lymphoma.
Abbreviations: BM, bone marrow; Bor, bortezomib; IC, immunocompetent; LDH, lactate dehydrogenase; LN, lymph node; NA, not available; NR, not reached; PBL, plasmablastic lymphoma; PT, posttransplant.
Blood Res 2020; 55(1): 49-56
Published online March 31, 2020 https://doi.org/10.5045/br.2020.55.1.49
Copyright © The Korean Society of Hematology.
Ya-Jun Li1,2#, Ji-Wei Li3,4,5#, Kai-Lin Chen2,6#, Jin Li1,2, Mei-Zuo Zhong7, Xian-Ling Liu8, Ping-Yong Yi1,2, Hui Zhou1,2
Department of Lymphoma and Hematology, 1Hunan Cancer Hospital, 2The Affiliated Cancer Hospital of Xiangya School of Medicine, Central South University, Changsha, 3Department of Pathology, Fudan University Shanghai Cancer Center, 4Department of Oncology, Shanghai Medical College, Fudan University, 5Institute of Pathology, Fudan University, Shanghai, 6Department of Radiotherapy, Key Laboratory of Translational Radiation Oncology, Hunan Cancer Hospital, 7Department of Oncology, Xiangya Hospital, Central South University, 8Department of Oncology, Cancer Center of the Second Xiangya Hospital, Central South University, Changsha, China
Correspondence to:Hui Zhou, M.D.
Department of Lymphoma and Hematology, Hunan Cancer Hospital, 283 Tongzipo Road, Yuelu District, Changsha 410013, China
E-mail: zhouhui@hnca.org.cn
#These authors contributed equally to this work.
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Background
Human immunodeficiency virus (HIV)-negative plasmablastic lymphoma (PBL) is a rare entity of diffuse large B-cell lymphoma (DLBCL). The clinicopathological features of and optimal treatment for HIV-negative PBL remain largely unknown.
Methods
To gain insight into this distinct lymphoma, we summarized the clinicopathologic characteristics of 8 unpublished HIV-negative PBLs and performed a comprehensive review of 394 published cases.
Results
Of the 8 unpublished PBLs, the median patient age was 53.0 years. Four patients presented with stage IV disease. All 8 patients showed a plasma cell-like immunophenotype. Of the six patients who received anthracycline-based chemotherapy, including two who received bortezomib, three patients achieved a continuous complete response, two patients died due to disease progression, and one patient was lost to follow-up. The other two patients achieved continuous complete response after receiving chemotherapy combined with radiotherapy and surgery. Of the 402 patients, the majority were male, with a mean age of 58.0 years. EBV infection was detected in 55.7% of the patients. The median survival times of the patients who received CHOP or CHOP-like regimens and intensive regimens were not reached and 23.0 months, respectively, and the intensive regimen did not improve the survival outcome (P=0.981). Multivariate analysis showed that EBER remained the only independent factor affecting overall survival (OS).
Conclusion
HIV-negative PBL is a distinct entity with a predilection for elderly and immunosuppressed individuals. Intensive chemotherapy had no apparent survival benefits over the CHOP regimen in terms of OS; the prognosis of this disease is poor with current chemotherapy methods, and treatment remains a challenge.
Keywords: Clinicopathological features, Plasmablastic lymphoma, HIV negative, Treatment, Prognosis
Plasmablastic lymphoma (PBL) is a HIV-related lymphoma that constitutes less than 3% of all non-Hodgkin's lymphoma [1, 2]. Plasmablastic lymphoma was once considered to occur predominantly in human immunodeficiency virus (HIV)-positive individuals. However, an increasing number of PBLs in immunocompetent patients have been reported in case series around the world. To date, little is known about HIV-negative PBL, including its epidemiology, clinicopathological features, treatment, and outcome. To further investigate this rare entity, we report our 8 patients with HIV-negative PBL and present an extensive literature review of 394 published cases of HIV-negative PBL.
This was a retrospective study. Eight patients with PBL between January 2007 and October 2016 were identified through the pathology databases of Xiangya Hospital of Central South University, the Second Xiangya Hospital of Central South University and Hunan Cancer Hospital. All patients were negative for HIV. The histological diagnosis of PBL was based on hematoxylin and eosin (HE) staining and immunohistochemical results according to the 2008 WHO classification of tumors of hematopoietic and lymphoid tissues [1]. The histology slides and reports of all cases were independently reviewed by a second hematopathologist at Hunan Cancer Hospital to confirm the diagnosis.
We conducted a literature search of the PubMed, Embase, and Cochrane Library electronic databases of English journals and CNKI, Wanfang and VIP databases of Chinese journals using the following search terms: ‘plasmablastic lymphoma and human immunodeficiency virus-negative/HIV-negative’ and ‘PBL’. Each article was acquired in full, and the references of each article were examined in an effort to eliminate previously included cases. After excluding reviews without additional cases, unpublished abstracts, cases of HIV infection and cases associated with human herpesvirus 8 (HHV-8) or large B-cell lymphoma arising in HHV-8-associated multicentric Castleman disease (MCD), 394 individual PBL cases were retrieved. All patients expressed at least one of plasma cell marker (CD138, MUM1, VS38c) and were negative or partially positive for CD20.
Written informed consent to store the patients' blood samples and other medical information in our hospital database was obtained from all of the patients, and we also obtained separate consent to use these data in research. This study was approved by the Institutional Review Board of the National Cancer Institute and the ethics committees of Xiangya Hospital of Central South University, the Second Xiangya Hospital of Central South University and Hunan Cancer Hospital. The study was performed in accordance with the Declaration of Helsinki and the institutional guidelines of the local ethics committee.
Overall survival (OS) was defined as the time from the date of diagnosis to the date of death or the last follow-up visit. Survival analysis was performed using the Kaplan-Meier method, and curves were compared using the log-rank test. Significant factors from univariate analysis (
The clinical data of all 8 patients are summarized in Table 1. All patients were negative for human immunodeficiency virus, and the median age at diagnosis was 53.0 years (27.0–69.0 yr). B symptoms were present in 6 patients. The primary sites included the lymph nodes, nasopharynx, oral cavity, ileocecum, bone and skin. Four patients presented stage IV disease (case 1, case 4, case 6, and case 8), three presented stage II disease and, one presented stage I disease. One patient (case 1) showed clinical characteristics of plasma cell myeloma, such as monoclonal IgA spikes and lytic bone lesions observed by computed tomography (CT) scans, but serum calcium, blood urea nitrogen (BUN) and creatinine were in normal ranges.
All the 8 patients showed morphologic features of diffuse large B-cells, with or without plasmacytic differentiation, and showed a plasma cell-like immunophenotype. In our study, all the patients were positive for MUM1 and negative for CD20 and CD45. CD138 and CD38 were positive in 4 cases and negative in one case. CD79a, Pax5, and EMA were variably positive. The average proliferation index was 90% (range from 80% to 100%). EBER-1 in situ hybridization was performed in all cases, and only one patient had positive results. HHV 8 was negative in all cases (Table 2).
Of the eight patients, six patients received anthracycline-based chemotherapy, including two patients who received bortezomib (case 1, case 3). Three patients achieved complete response (CR) and were still alive without disease, while the other two patients (cases 1, case 4) progressed and died after 3 and 6 months, respectively, due to disease progression. The remaining patient was lost to follow-up four months after diagnosis. One patient (case 2) achieved CR after receiving chemotherapy with GEMOX (gemcitabine, oxaliplatin) and involved-field radiotherapy and was still alive at the time of follow-up. One patient (case 5) underwent right hemicolectomy and did not receive adjuvant chemotherapy. She is alive and asymptomatic and has had no disease progression for 23 months postoperatively.
Data from our 8 cases and the 394 reported HIV-negative PBL cases are summarized in Table 3. HIV-negative PBL occurred in a wide spectrum of patients, aged from 1 to 88 years, with a median age at diagnosis of 58.0 years. As Table 3 shows, patients older than 60 years accounted for 42.7% of all the patients. HIV-negative PBL was more common in males, with a male to female ratio of 2.79. Although most patients (53.5%) presented with advanced stage disease, bone marrow involvement was present in only 15.8% of the patients. The most involved sites were the lymph nodes, gastrointestinal tract and oral cavity. EBV infection was common in HIV-negative PBL, involving 56.0% of the patients. Immunosuppression, including post-transplantation status, immune-related disease and current or previous malignancy, was noted in many patients (37.3%).The immunohistochemical characteristics of the 402 patients are summarized in Table 3.
The treatments for 253 patients are summarized in Table 3, and chemotherapy was administered to 233 patients (92.1%). More than half of the patients (124/233) received a CHOP or CHOP-like chemotherapy regimen. Approximately 17.4% of the patients underwent surgery, and 19.4% of the patients received radiotherapy. Forty-four patients received an intensive regimen, including hyper-CVAD (hyperfractionated cyclophosphamide, vincristine, doxorubicin, and dexamethasone), DA-EPOCH (dose-adjusted etoposide, doxorubicin, vincristine, cyclophosphamide, prednisone), and CODOX-M/IVAC (CODOX-M: cyclophosphamide, vincristine, doxorubicin, high-dose methotrexate; IVAC: ifosfamide, etoposide and high-dose cytarabine). Bortezomib combined with chemotherapy was given to 16 patients in the first-line or salvage treatment setting. Fifteen patients underwent autologous stem cell transplantation (SCT) after achieving CR1 or partial response (PR) 1, and two patients received SCT as salvage therapy after disease progression.
Of the 253 treated patients, 46.2% achieved CR, 26.9% achieved PR, 0.8% achieved stable disease, and 25.7% achieved primary progressive disease. The one-year and two-year OS rates were 55.9% and 44.8%, respectively (Fig. 1A). The median survival time of patients receiving intensive regimens was 23.0 months, however, the median survival time of those who received CHOP or CHOP-like regimen has not yet been reached. The intensive regimen did not improve the survival outcome (Fig. 1B). Bortezomib combined with chemotherapy was given to 14 PBL patients (including two from unpublished cases) without HIV infection as first-line treatment [3, 4, 5, 6, 7, 8, 9, 10, 11, 12]; 10/14 achieved CR or PR, and the median survival time was 11.0 months. A bortezomib-based regimen was also used in two refractory/recurrent patients; however, although dramatic clinical response was achieved, these two patients died shortly after because of disease progression [3, 13, 14]. For stage I patients, the application of radiotherapy did not improve OS, and the one-year OS rate was 80.0% vs. 83.8% for patients with and without radiotherapy (
In this study, univariate analysis revealed that the significant factors affecting OS included disease stage (
The median age of these patients was 60 years. Among the 316 patients, 28 patients had a history of malignancy, and 53 patients were complicated with autoimmune disease. The lymph nodes were the most frequently affected site, followed by the gastrointestinal tract and oral cavity. The EBV+PBL group and EBV-PBL group of non-transplanted patients harbored similar clinical (Table 3) and pathologic (Table 3) characteristics.
The mean and median survival times of non-transplanted patients were 53.0 and 23.0 months, respectively. EBER expression was associated with a better outcome (1-year OS, 66.0% vs. 55.4%;
The median age of HIV-negative post-transplanted patients was younger than that of non-transplanted patients (54 yr vs. 60 yr). The most commonly involved sites were the gastrointestinal tract and lymph nodes. Autoimmune disease occurred in only one patient.
The survival time of transplant recipients was similar to that of non-transplanted patients, with a median survival time of 19.0 months. MYC rearrangement was relatively less detected in transplanted patients than in non-transplanted patients and failed to predict the survival outcome.
PBL is a rare tumor subtype that has a predilection for HIV-positive individuals, accounting for approximately 2.6% of HIV-related lymphoma [15]. In this report, we investigated the clinicopathologic characteristics, treatment, outcome and prognostic factors of 402 patients with HIV-negative PBL (including 8 unpublished cases).
The pathogenesis of HIV-negative PBL remains unclear. EBV infection, MYC gene rearrangements and other genetic alterations are possible pathogenic factors. In situ hybridization for EBV-encoded RNA (EBER) was positive in over half of the HIV-negative PBL patients in our study and was associated with favorable survival outcomes. The overexpression of PD-L1 in EBV+PBL indicated that these tumors may evade immune responses through the PD-1/PD-L1 pathway, which could provide inhibitory signals that downregulate T-cell function [16]. We hypothesize that EBV infections may be important in the tumorigenesis of HIV-negative PBL. Some types of cytogenetic variations, including IG/MYC rearrangements and abnormal expression of p16, MDR-1, and PRDM1, have been detected in HIV-negative PBL [16, 17, 18]. IG/MYC rearrangements are the main cytogenetic alteration in plasmablastic lymphomas and were once proposed as an adverse predictor of PBL [19, 20]. In our study, IG/MYC aberrations were detected in approximately half of the patients and failed to predict the survival outcome of PBL, which is consistent with other reports [15, 20]. MYC rearrangement may be associated with EBV status and PRDM1 and play a significant role in the pathogenesis of PBL [16, 18].
HIV-negative PBL occurred in patients aged 1 to 88 years old, showing a predilection for the elderly population and male patients [21, 22]. It seems that HIV-negative PBLs are more heterogeneous in primary locations than in HIV-positive cases, of which the predominant site of involvement is the oral cavity [23, 24]. HIV-negative PBL can occur in various organs, including the gastrointestinal tract, sinonasal cavity, bone marrow, skin, and lung [22, 25]. In our study, the most commonly involved site was the lymph nodes, followed by the gastrointestinal tract and oral cavity. Our data showed that PBL was present in over half of the patients without HIV, which is similar to HIV-associated PBL [24]. Compared with HIV-negative PBL patients, patients with HIV-associated PBL have a significantly higher expression of EBER (75%) and ki67 (median, 90%) [24]. However, the expression of CD20 (7.2%) was relatively lower and the expression of CD56 (2.2%) was slightly higher in HIV-positive PBL than in HIV-negative patients in our research [24], and this result is inconsistent with a previous study that showed that HIV-positive individuals have a significantly higher expression of CD20 and CD56 [26].
The optimal treatment of PBL has not yet been established. The prognosis of this rare lymphoma is poor with currently available chemotherapy. CHOP (cyclophosphamide, hydroxydaunorubicin, vincristine, and prednisone) or CHOP-like chemotherapy is a common regimen used for HIV-negative PBL, with an overall response rate of approximately 60–70% [27, 28]. More aggressive chemotherapy regimens, including hyper-CVAD, CODOX-M/IVAC and DA-EPOCH, are recommended by the National Comprehensive Cancer Network (NCCN), as these regimens may lead to better outcomes [29]. However, consistent with previous studies [15, 30], our data showed that there was no apparent survival benefit of intensive chemotherapy over CHOP or CHOP-like regimens.
Some novel agents have shown some activity in HIV-negative PBL patients and may play an important role in first-line treatment in the future. Bortezomib is a proteasome inhibitor that may have a potent effect in treating HIV-negative PBL when combined with or without chemotherapy, and it may overcome typical chemoresistance and improve survival outcomes [6, 8, 31]. Bortezomib combined with chemotherapy has achieved good outcomes and was well tolerated in some cases. Recently, a retrospective study including 8 cases of PBL (5 patients were HIV-positive, 2 were HIV-negative, 1 with a history of liver transplantation) demonstrated that bortezomib in combination with etoposide, prednisone, vincristine, cyclophosphamide, and doxorubicin (V-EPOCH) was a safe and effective regimen for PBL, with a complete response rate of 100% and 2-year OS rate of 50% [32]. In our study, the overall response rate of patients treated with bortezomib-containing regimens was 71.4%, and the median overall survival time was 11 months. It seems that bortezomib may be more effective in patients with HIV infection. The relatively small sample size, individual variations, and diversity of chemotherapy may also affect the results. The role of bortezomib in the treatment of HIV-negative PBL needs further investigation. The immunomodulator lenalidomide was also reported to be effective in a patient with HIV-negative PBL [33]. Approximately 30% of PBLs express the activation marker CD30, providing the rationale for the use of an anti-CD30 antibody. Brentuximab vedotin has shown activity against HIV-negative PBL in a patient with relapsed PBL with CD30 expression [34]. The GEMOX (gemcitabine, oxaliplatin) regimen was used in one of our cases and led to long-term remission. Gemcitabine and oxaliplatin were applied to one HIV-associated PBL patient and achieved good results when combined with other chemotherapy drugs [35]. The GEMOX regimen was also reported to be effective in an HIV-negative PBL patient who achieved PR, underwent auto-hematopoietic stem cell transplantation (HSCT) and was still alive after 26 months of follow-up [11]. The GEMOX regimen may be an effective and tolerant chemotherapy regimen for PBL. Although the above regimens have achieved success in some cases, prospective clinical trials with large samples are sparse on account of the rarity of the disease, and the treatment of HIV-negative PBL is still a challenge.
Compared with chemotherapy or radiotherapy, auto-HSCT may produce better outcomes for patients with high-risk disease. Our study demonstrated that HIV-negative PBL patients who received auto-HSCT after achieving CR or PR gained survival benefits. Auto-HSCT might be feasible and beneficial for the consolidation of first-line responses in patients with PBL, especially for those with high-risk disease [25, 36]. Allo-HSCT was reported to successfully induce durable remission for a patient with refractory HIV-negative PBL in a case report [37]. The treatment value of auto-HSCT and allo-HSCT in HIV-negative PBL warrants further prospective clinical trials.
Overall, the prognosis of patients with HIV-negative PBL remains dismal with current treatment, with a median survival time of 6 to 19 months [21, 22, 24, 38, 39]. Our results are similar to those of these studies, with a median survival time of approximately 8 months. Notably, the primary sites did not affect the survival outcome.
Several risk factors for HIV-negative PBL have been identified in previous studies, including clinical stage, immunosuppression status, EBV status, patient CR status, and international prognostic index (IPI) [22, 38, 39]. In our study, a univariate analysis showed that disease stage, B symptoms, LDH level, EBER status, chemotherapy and CR status were significant factors affecting the OS rates. However, only EBER status remained a significant independent factor in the multivariate analysis.
In conclusion, PBL is a rare malignancy with a poor prognosis, and intensive chemotherapy did not provide better survival outcomes for HIV-negative PBL than the CHOP regimen. EBER status may be an independent prognostic factor of survival, and new drugs need to be investigated for PBL.
KLC, JL collected the data, YJL and JWL performed the statistical analysis and drafted the manuscript. MZZ, XLL, HZ and PYY designed the study and helped to revise the manuscript. All authors read and approved the final manuscript.
The authors would like to thank investigators, patients, and their families.
This study was supported by the grants from Natural Science Foundation of Hunan Province National Health Commission (No. 20201659; No. c2015-52) and the grants from the Hunan Provincial Science and Technology Department (No. 2016JJ3083, No. 2017SK2130).
No potential conflicts of interest relevant to this article were reported.
Abbreviations: BM involvement, bone marrow involvement; Bor, bortezomib; CHOP, cyclophosphamide+doxorubicin+vincristine+ prednisolone; CHOPE, cyclophosphamide+doxorubicin+vincristine+prednisolone+etoposide; CR, complete remission; CSF cytology, cerebrospinal fluid cytology; DOD, death of disease; ECOG PS, Eastern Cooperative Oncology Group performance status; GEMOX, gemcitabine+oxaliplatin; IFRT, involved-field radiotherapy; IgA, immunoglobulin A; M protein, monoclonal protein; N/A, not applicable; PBL, plasmablastic lymphoma; PD, progressive disease; PR, partial remission..
Abbreviations: N/A, not applicable; PBL, plasmablastic lymphoma..
Abbreviations: BM, bone marrow; Bor, bortezomib; IC, immunocompetent; LDH, lactate dehydrogenase; LN, lymph node; NA, not available; NR, not reached; PBL, plasmablastic lymphoma; PT, posttransplant..
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