Traditional Chinese medicine compound, Bu Sheng Hui Yang Fang, promotes the proliferation of lymphocytes in the immunosuppressed mice potentially by upregulating IL-4 signaling.

The immune system plays a pivotal role in defending against infection and cancer immunosurveillance during the onset and procession of malignant disease. Cancer patients are frequently immunocompromised and subject to refractory infection and relapse of leukemia, due to the cytotoxic agents and immunosuppressive glucocorticoids in the chemotherapy regimens. Bu Shen Hui Yang Fang (BSHY), a traditional Chinese compound, was widely used in China to enhance the immune system of leukemia patients combined with chemotherapy and effectively lowered their risk of infection, with specific mechanism unknown yet. Thus, we investigated the effects of BSHY on the immune system using immunosuppressive mouse models. By analyzing the immune system of immunosuppressed BALB/C mice induced by hydrocortisone, we found an increase of CD4+ and CD8+ lymphocytes in the spleens of mice after BSHY treatment. Furthermore, we found the enhanced immune system in BSHY treated group was due to increased proliferation and decreased apoptosis of lymphocytes. Cytokine array analysis revealed that interleukin 4 (IL-4) was reduced in the plasma of immunosuppressed mice but returned to a normal level after BSHY treatment. Moreover, we found IL-4 was an adverse prognostic factor in acute myeloid leukemia patients and part of them could be elevated by BSHY. Mechanistically, we found BSHY enhances the proliferation of lymphocytes in a Stat6-dependent manner. In summary, our current study demonstrates that BSHY enhances the proliferation of lymphocytes in the immunosuppressed mice via upregulating IL-4 signaling.

[Research Progress on Pathogenic Genes of Ph-like Acute Lymphoblastic Leukemia--Review].

Abstract　　Philadelphia chromosome-like acute lymphoblastic leukemia (Ph-like ALL or BCR-ABL1-like ALL) is a kind of acute leukemia which has the similar gene expression profiles and manifests the biological behavior same to Ph-positive ALL, but lacks the BCR-ABL1 fusion gene. Ph-like ALL was involved in multiple abnormal changes of genomes, activating kinase and cytokine receptor signaling. This review focuses on the progress of classical genetic abnormalities of PH-like ALL in the JAK-STAT signaling, ABL kinase activation, TKI resistance in Ph-like ALL, SH2B3 gene inactivating mutation and IKZF1 gene abnormality. Besides, also summarizes the frontier progress of novel gene mutation (ATF7IP exon 9 fused with PDGFRB exon 11, PDGFRBC843G mutation caused by fusion of exon 11-23 of PDGFRB with exon 1-6 of AGGF1 gene) in recent years.