We report the unique role of CX3CL1 (or fractalkine) on CD11b myelomonocytic cells expressing CX3CR1, the only known receptor for CX3CL1, in promoting blood perfusion recovery. In a mouse ischemic hind-limb model, CD11b CX3CR1 cells migrated to ischemic femoral muscles through CX3CL1-mediated chemotaxis. CD11b CX3CR1 macrophages isolated from ischemic tissues [tissue (T)-CD11b CX3CR1 ] of muscle exert a proangiogenic effect through platelet factor-4 (CXCL4; PF-4) production. PF-4 does not promote angiogenesis by itself but, instead, increases VEGF-mediated angiogenesis. Despite proangiogenic effects of muscle-derived T-CD11b CX3CR1 macrophages, their clinical implementation is limited because muscle excision is required for cell harvesting. Therefore, we focused on the more accessible bone marrow (BM)-CD11b CX3CR1 monocytes, which migrate from BM into ischemic muscles via CX3CL1-mediated chemotaxis. PF-4 expression was not detected in BM-CD11b CX3CR1 monocytes under normal conditions, but CX3CL1 (50 ng/ml) induced high PF-4 expression and enabled BM-CD11b CX3CR1 monocytes to achieve a similar angiogenic potential to that of T-CD11b CX3CR1 macrophages ex vivo. Furthermore, we were able to identify a subset of monocytes that express CD11b and CX3CR1 in human peripheral blood and confirmed the proangiogenic effect of CX3CL1 treatment. Thus, CX3CL1-treated CD11b CX3CR1 monocytes may be of potential therapeutic use to significantly accelerate recovery of blood perfusion in ischemic diseases.
Non-tuberculous mycobacterial (NTM) disease is a relatively rare cause of neutropenic fever in patients with hematologic malignancies. During the neutropenic period, performing invasive procedures for microbiological or pathological confirmation is difficult. In addition, the optimal treatment duration for NTM disease in patients with leukemia, especially prior to stem cell transplantation (SCT), has not been documented. Therefore, we report a case of pneumonia with necrotizing lymphadenitis caused by Mycobacterium kansasii diagnosed during chemotherapy being performed for acute myeloid leukemia. The radiologic findings were similar to those of invasive fungal pneumonia; however, a bronchoalveolar washing fluid culture confirmed that the pathogen was M. kansasii. After 70 days from starting NTM treatment, allogeneic SCT was performed without any complications. The patient fully recovered after 12 months of NTM treatment, and neither reactivation of M. kansasii infection nor related complications were reported.
Despite their critical roles in angiogenesis and host immunosuppression within the tumor microenvironment, the prognostic significance of myeloid-lineage cells expressing CD11b and CX3CR1 in diffuse large B-cell lymphoma (DLBCL) has not been well studied. We prospectively enrolled newly-diagnosed DLBCL patients at two Korean institutions between May 2011 and Aug 2015. CD11b+CX3CR1+ cells were analyzed by flow cytometry using peripheral blood (PB) and bone marrow (BM) aspirate samples before treatments. Eighty-nine patients (52 males) were enrolled. The median age was 65 years (range, 19–88 years). Thirty-seven patients (42%) were classified as high-intermediate or high risk according to the National Comprehensive Cancer Network International Prognostic Index (NCCN-IPI). Patients were categorized into either high or low PB-/BM-CD11b+CX3CR1+ monocyte group according to the cutoffs identified by the receiver-operating-characteristics analysis (PB, 3.68%; BM, 3.45%). The high PB-CD11b+CX3CR1+ monocyte group was significantly associated with high-intermediate and high risk NCCN-IPI group (P = 0.004). With a median follow-up of 27.7 months (range, 1.7-60.4 months), the low PB-CD11b+CX3CR1+ monocyte group showed significantly better overall survival (OS) than the high PB-CD11b+CX3CR1+ monocyte group (3-year, 92.3% vs. 51.2%, respectively; P < 0.001). In contrast, no significant difference was observed between the high and low BM-CD11b+CX3CR1+ monocyte groups. Among patients with high-intermediate to high risk NCCN-IPI, the high PB-CD11b+CX3CR1+ monocyte group showed significantly worse OS than the low PB-CD11b+CX3CR1+ monocyte group (3-year, 29.3% vs. 80.2%, respectively; P = 0.008). Taken together, PB-CD11b+CX3CR1+ monocyte percentage correlates with the NCCN-IPI risk stratification, which enables identification of subgroups with extremely poor clinical outcomes.
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