Systemic anaplastic lymphoma kinase (ALK)-negative anaplastic large cell lymphoma (ALCL) is a group of heterogenous CD30 + T-cell non-Hodgkin lymphomas. Previous studies have highlighted the importance of JAK/STAT3 signaling activation in the molecular pathogenesis of ALK − ALCLs. In the present study, we aimed to establish a potential relationship between JAK/STAT3 signaling activation and clinicopathologic features in ALK − ALCLs, and further recognize the heterogenous nature of these neoplasms. Immunohistochemistry staining of the phosphorylated-STAT3 (p-STAT3) and dualspecificity protein phosphatase 22 (DUSP22) gene rearrangement analysis were performed. Forty-five cases of ALK − ALCL were divided into 3 groups, including 9 DUSP22-rearranged ALCLs, 21 p-STAT3 + double-negative (DN) ALCLs (both ALK and DUSP22 rearrangement negative), and 15 p-STAT3 − DN-ALCLs. Morphologically, p-STAT3 + DN-ALCLs exhibited sheet-like neoplastic cells and sometimes showed large pleomorphic cells scattered in a lymphocyte-rich background more frequently than those in other ALK − ALCLs subtypes. Phenotypically, the p-STAT3 + DN-ALCLs frequently expressed cytotoxic molecules, epithelial membrane antigen, and programmed death-ligand 1, whereas CD3 and CD5 expression was not observed. Clinically, patients with p-STAT3 + DN-ALCLs had a better prognosis than those with p-STAT3 − DN-ALCLs. These observations suggest that p-STAT3 + DN-ALCLs represent a distinct subtype of ALK − ALCLs. Identifying ALK − ALCL subtypes by using p-STAT3 staining and DUSP22 rearrangement is a promising approach that may contribute to risk stratification and better treatment decisions in the future clinical practice.
Background: Angioimmunoblastic T-cell lymphoma (AITL) is an age-related malignant lymphoma, classified as a subtype of mature peripheral T-cell lymphoma. The 2016 revised WHO classification of lymphoid neoplasms proposed AITL as a nodal lymphoma derived from the T follicular helper cell. Extensive genomic analyses of AITL have discovered recurrent mutations in RHOA, TET2, DNMT3A, IDH2, and within genes of the T-cell receptor signaling pathway, with most studies being performed on patients in the Western hemisphere. We sought to define the mutational profile of AITL in Chinese patients. Methods: We collected 10 AITL biopsies from one center in China with confirmed pathologic diagnosis and treatment information. Diagnoses were independently confirmed by OrigiMed pathologists in all 10 AITL cases. Median cohort age at diagnosis was 61.1 years, and 60% (6/10) of the patients were older than 60 years. The male/female ratio was 8/2. In situ hybridization indicated Epstein-Barr virus positivity in 8/10 of AITL cases. DNA was extracted from formalin-fixed paraffin embedded samples, and targeted deep next generation sequencing (NGS) analyses were performed using the 450+ cancer genes panel. Results: Common and novel mutation features were revealed in this Chinese AITL analysis. As previously reported, TET2 mutations were found in 80% (8/10) of AITL patients (pts) with the highest mutation frequency, of which all the 8 pts harbored NMD/truncation and 6 pts harbored more than one mutation. RHOA mutations were seen in 60% (6/10) of cases, 4 cases were RHOA G17V while the other two were C16F and G17E/S26R, respectively. IDH2 R172 mutations were seen in 40% (4/10) of AITL cases. Co-occurring mutations of TET2 and RHOA were detected in the half of the cases (5/10), and 3 cases had concurrent TET2/RHOA/IDH2 mutations. DNMT3A mutations were seen in 30% (3/10) of AITLs cases, one case harbored two mutations including R882C. We also revealed novel mutation features. Recurrent mutations at histone modification genes included TIPARP (2 cases), KMT2C (2 cases), KMT2D (1 case). CRLF2 gene amplification was seen in a female patient. An intergenic PAX5 rearrangement was seen in 1 case along with MET and CFTR gene amplification. Tumor mutational burden (TMB) assessment indicated high TMB (>10 mutations/Mb) in the PAX5 rearrangement case while low TMB in the other nine cases. Discussion: The aim of our study was to reveal the genomic landscape of Chinese AITL. The cohort collection was unbiased, the patients' features were in concordance with previous reports that the disease of AITL is mostly found in the elderly (>60) and shows male predominance. Most cases were EBV-positive. Similar to prior studies, somatic mutations in TET2, RHOA, IDH2, and DNMT3A were found at varying frequencies sequentially of 80%, 60%, 40% and 30% in AITL. Co-occurring mutations of TET2/RHOA were found in 50%. RHOA G17V mutations were predominant mutations while we detected three rare sites in AITL including RHOA C16F, G17E and S26R, in which C16F and G17E were previously reported in other cancers. NGS studies have identified epigenetic modifiers mutations as a hallmark of AITL, highlighting an attractive therapeutic target in this disease. Notably, we also detected substitution mutations of histone modification genes including TIPARP, the mouse ortholog of which catalyzes histone poly(ADP-ribosyl)ation in 2 pts with one mutation previously reported in ovarian cancer; KMT2C in 2 pts with the mutations reported in other cancers. This is the first report TIPARP mutation in AITL. Another novel mutation feature was CRLF2 gene amplification and intergenic PAX5 rearrangement. These two genes are more often involved in B-cell related lymphoma/ leukemia, but our study discovered the gene abnormalities in AITL. The general low TMB is also consistent with other reports. In summary, this effort has identified novel mutation features in Chinese AITLs that can potentially lead to more effective treatments in Chinese population. Disclosures No relevant conflicts of interest to declare.
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