44 research outputs found
Integrative oncology for breast cancer patients: introduction of an expert-based model
Heat Shock Protein 90 Inhibitor 17-Dimethylaminoethylamino-17-Demethoxygeldanamycin Enhances EphA2 +
Intralesional Delivery of Dendritic Cells Engineered to Express T-bet Promotes Protective Type 1 Immunity and the Normalization of the Tumor Microenvironment
Maitake mushroom extract in myelodysplastic syndromes (MDS): a phase II study
BACKGROUND: Myelodysplastic syndromes (MDS) are characterized by ineffective erythropoiesis with dysplastic bone marrow leading to peripheral cytopenia, risk of infection, and progression to acute myelogenous leukemia. Maitake mushroom beta-glucan, a dietary supplement, stimulates hematopoietic progenitor cell differentiation, granulocyte colony-stimulating factor production, and recovery of peripheral blood leukocytes after bone marrow injury. This phase II trial examined the effects of Maitake on innate immune function in MDS. METHODS: Myelodysplastic syndromes patients with International Prognostic Scoring System Low- and Intermediate-1-risk disease received oral Maitake extract at 3 mg/kg twice daily for 12 weeks. Primary endpoints included neutrophil count and function tested as endogenous or stimulated neutrophil production of reactive oxygen species (ROS) by flow cytometry compared with age-matched healthy controls (HC). ROS activators were Escherichiacoli, phorbol ester, and the bacterial peptide N-formylmethionyl-leucyl-phenylalanine (fMLP). Complete blood counts, chemistry panels, iron studies, and monocyte function were evaluated. RESULTS: Of 21 patients enrolled, 18 completed the study and were evaluable. Maitake increased endogenous (basal) neutrophil (p = 0.005) and monocyte function (p = 0.021). Pre-treatment monocyte response to E. coli was reduced in MDS patients compared with HC (p = 0.002) and increased (p = 0.0004) after treatment. fMLP-stimulated ROS production response also increased (p = 0.03). Asymptomatic eosinophilia occurred in 4 patients (p = 0.014). Other changes in albumin, hemoglobin, and total protein were not clinically relevant. CONCLUSIONS: Maitake was well tolerated. Enhanced in vitro neutrophil and monocyte function following treatment demonstrate that Maitake has beneficial immunomodulatory potential in MDS. Further study is warranted
Recommended from our members
Maitake Mushroom Extract in Myelodysplastic Syndrome (MDS): A Phase II Study
Abstract
Abstract 5043
Background:
MDS is a heterogeneous group of hematologic diseases characterized by ineffective erythropoiesis and an increased risk of AML. MDS-related deaths are commonly due to infection resulting from impaired immunity, including quantitative and functional neutrophil defects. Maitake extract is from the fruit body of Grifola frondosa mushroom and is widely used in Asia as an adjunctive treatment for malignant diseases. This hot water extract is composed of a central beta 1,6-glucan core surrounded by beta 1,3-branches. Maitake extract enhances hematopoiesis by increasing G-CSF production with subsequent stem cell proliferation and differentiation of granulocyte-monocyte colony forming cells. Maitake also activates macrophages through Dectin-1 receptor binding, increases the weight and number of nucleated cells in the spleen and improves innate immune response in animal and human models. Activated macrophages may reduce iron stores. Compared to G-CSF, maitake may have fewer side-effects, is less costly, and may produce a comparable improvement in granulocyte function.
Materials and Methods:
MDS patients with IPSS Low and Int-1 risk disease and ANC>500, plts >20K were enrolled. Following double baseline measurements, patients received the maitake extract at 3mg/kg PO BID for 12 weeks. Primary endpoints include change in neutrophil counts and alterations in granulocyte function as measured by the respiratory burst test. The respiratory burst test is a highly sensitive and quantitative flow cytometric assay of granulocyte and monocyte function to assess the production of spontaneous reactive oxygen species (ROS) and stimulated response to 3 activators: opsonized E. coli, phorbol ester and the chemotactic peptide N-formylmethiolyl-leucyl-phenylalanine (fMLP). Results were compared to age-matched normal healthy volunteers. Responses were assessed using the modified International Working Group (IWG) MDS response criteria.
Secondary endpoints include serial assessment of hemoglobin and platelet levels, reticulocyte count, monocyte function, and GM-CSF and G-CSF levels. Iron studies were assessed throughout treatment to determine whether the maitake indirectly alters iron stores potentially decreasing iron overload.
Results:
14 eligible patients (pts) (8M, 6F; median age 69, range 52–83 yrs) received the maitake extract. IPSS risk categories included: Low-risk, n=7; Int-1, n=7. WHO Stage: RA=2; RARS=1; RCMD=6; RCMD-RS=1; RCUD=1; MDS-U=1; CMML-1=2. Two pts received prior 5-azacytidine therapy.
Mean fMLP-stimulated granulocyte function in pts at baseline was lower than control values. Monocyte baseline response to E. coli was significantly reduced (p<0.01); ROS production to phorbol ester was also lower than in controls.
No patients met criteria for response using the modified IWG response criteria. Preliminary analyses showed that ROS responses to E. coli stimulation increased by weeks 7–9 in pts who were deficient at baseline. Monocyte ROS production increased in 2 pts by 2–6 fold at week 7. There was a 2–15 fold increase in the neutrophil response to fMLP by week 7 and a 2–35 fold increase in monocyte response to fMLP at week 9. Monocyte response to E. coli increased between 3–10 fold in 2 pts with peak values during weeks 7–9. The two pts with the most pronounced response by fMLP and ROS production also had eosinophilia, which resolved following study participation.
The most common toxicities were diarrhea (grade 1) in 6 pts, eosinophilia (2–2.8 × normal) in 3 pts, increases in AST (grade 1) and ALT (grade 1) in 4 pts and nausea (grade 1) in 1 patient. Two pts were removed from the study, one for diarrhea possibly related to study medication and one for disease progression.
Conclusion:
Maitake mushroom extract is well tolerated without evidence of clinically significant adverse hepatic, renal or metabolic abnormalities. No clinical responses were seen. Based on our preliminary data, the maitake extract appears to enhance ROS in both unstimulated and stimulated cells, confirming preclinical data. The improvement in granulocyte and monocyte function in our in vitro studies suggests that maitake may enhance immune responses in MDS pts. Eosinophilia was noted but the significance remains uncertain at this time. The study is ongoing. Updated results will be presented.
Disclosures:
No relevant conflicts of interest to declare