Cancer:
Sarcoma, pancreatic, breast, liver, lung, oral, colorectal, stomach, gastric, adenoid cystic carcinoma
Action: Anti-angiogenesis, anti-inflammatory, anti-proliferative, chemo-sensitizer, chemotherapy support, cytostatic, radiation support, immunotolerance, induces apoptosis, decreases side-effects of Intensity Modulated Radiation Therapy (IMRT), Transcatheter Hepatic Arterial Chemoembolization (TACE)
Anti-cancer
Oxymatrine, isolated from the dried roots of Sophora flavescens (Aiton), has a long history of use in traditional Chinese medicine to treat inflammatory diseases and cancer. Kushen alkaloids (KS-As) and kushen flavonoids (KS-Fs) are well-characterized components in kushen. KS-As containing oxymatrine, matrine, and total alkaloids have been developed in China as anti-cancer drugs. More potent anti-tumor activities were identified in KS-Fs than in KS-As in vitro and in vivo (Sun et al., 2012).
Angiogenesis
Oxymatrine has been found to inhibit angiogenesis when administered by injection. The tumor-inhibitory rate and the vascular density were tested in animal tumor model with experimental treatment. The expression of VEGF and bFGF were measured by immunistological methods. When high doses were used, the tumor-inhibitory rate of oxymatrine was 31.36%, and the vascular density of S180 sarcoma was lower than that in the control group, and the expression of VEGF and bFGF was down-regulated. Oxymatrine hence has an inhibitory effect on S180 sarcoma and strong inhibitory effects on angiogenesis. Its mechanism may be associated with the down-regulating of VEGF and bFGF expression (Kong et al., 2003).
Immunotolerance
Matrine, a small molecule derived from the root of Sophora flavescens AIT, was demonstrated to be effective in inducing T cell anergy in human Jurkat cells. Induction of immunotolerance has become a new strategy for treating autoimmune conditions in recent decades. However, so far there is no ideal therapeutics available for clinical use. Medicinal herbs are a promising potential source of immunotolerance inducers. Bioactive compounds derived from medicinal plants were screened for inducing T cell anergy in comparison with the effect of well-known T cell anergy inducer, ionomycin.
The results showed that passage of the cells, and concentration and stimulation time of ionomycin on the cells, could influence the ability of T cell anergy induction. The cells exposed to matrine showed markedly decreased mRNA expression of interleukin-2, an indicator of T cell anergy, when the cells were stimulated by antigens, anti-OKT3 plus anti-CD28. Mechanistic study showed that ionomycin and matrine could up-regulate the anergy-associated gene expressions of CD98 and Jumonji and activate nuclear factor of activated T-cells (NFAT) nuclear translocation in absence of cooperation of AP-1 in Jurkat cells. Pre-incubation with matrine or ionomycin could also shorten extracellular signal-regulated kinase (ERK) and suppress c-Jun NH(2)-terminal kinase (JNK) expression on the anergic Jurkat cells when the cells were stimulated with anti-OKT-3 plus anti-CD28 antibodies. Thus, matrine is a strong candidate for further investigation as a T cell immunotolerance inducer (Li et al., 2010).
Induces Apoptosis
The cytotoxic effects of oxymatrine on MNNG/HOS cells were examined by MTT and bromodeoxyuridine (BrdU) incorporation assays. The percentage of apoptotic cells and the level of mitochondrial membrane potential ( Δψ m) were assayed by flow cytometry. The levels of apoptosis-related proteins were measured by Western blot analysis or enzyme assay Kit.
Results showed that treatment with oxymatrine resulted in a significant inhibition of cell proliferation and DNA synthesis in a dose-dependent manner, which has been attributed to apoptosis. Oxymatrine considerably inhibited the expression of Bcl-2 whilst increasing that of Bax.
Oxymatrine significantly suppressed tumor growth in female BALB/C nude mice bearing MNNG/HOS xenograft tumors. In addition, no evidence of drug-related toxicity was identified in the treated animals by comparing the body weight increase and mortality (Zhang et al., 2013).
Pancreatic Cancer
Cell viability assay showed that treatment of PANC-1 pancreatic cancer cells with oxymatrine resulted in cell growth inhibition in a dose- and time-dependent manner. Oxymatrine decreased the expression of angiogenesis-associated factors, including nuclear factor κB (NF-κB) and vascular endothelial growth factor (VEGF). Finally, the anti-proliferative and anti-angiogenic effects of oxymatrine on human pancreatic cancer were further confirmed in pancreatic cancer xenograft tumors in nude mice (Chen et al., 2013).
Induces Apoptosis in Pancreatic Cancer
Oxymatrine inhibited cell viability and induced apoptosis of PANC-1 cells in a time- and dose-dependent manner. This was accompanied by down-regulated expression of Livin and Survivin genes while the Bax/Bcl-2 ratio was up-regulated. Furthermore, oxymatrine treatment led to the release of cytochrome c and activation of caspase-3 proteins. Oxymatrine can induce apoptotic cell death of human pancreatic cancer, which might be attributed to the regulation of Bcl-2 and IAP families, release of mitochondrial cytochrome c, and activation of caspase-3 (Ling et al., 2011).
Decreases Side-effects of Intensity Modulated Radiation Therapy (IMRT)
The levels of sIL-2R and IL-8 in peripheral blood cells of patients with rectal cancer were measured after treatment with the compound matrine, in combination with radiation. Eighty-four patients diagnosed with rectal carcinoma were randomly divided into two groups: therapeutic group and control group.
The patients in the therapeutic group were treated with compound matrine and intensity- modulated radiation therapy (IMRT) (30 Gy/10 f/2 W), while the patients in control group were treated with IMRT. The clinical effects and the levels of IL-8 and sIL-2R tested by ELISA pre-radiation and post-radiation were compared. In addition, 42 healthy people were singled out from the physical examination center in the People's Hospital of Yichun city, which were considered as healthy controls.
The clinical effect and survival rate in the therapeutic group was significantly higher (47.6%) than those in the control group (21.4%). All patients were divided by improvement, stability, and progression of disease in accordance with Karnofsky Performance Scale (KPS). According to the KPS, 16 patients had improvement, 17 stabilized and 9 had disease progress, in the therapeutic group. However, the control group had 12 improvements, 14 stabilized, and 16 progress.
The quality of life in the therapeutic group was higher than tthat in the control group, by rank sum test. SIL-2R and IL-8 examination found that serum levels of sIL-2R and IL-8 were higher in rectal cancer patients before treatments than those in the healthy groups, by student test.
However, sIL-2R and IL-8 serum levels were found significantly lower in the 84 rectal cancer patients after radiotherapy. The level of sIL-2R and IL-8 in the therapeutic group was lower on the first and 14th day, post-radiation, when compared to the control group. However, there was no significant difference on the first day and 14th day, between both experimental groups post- therapy, according to the student test. Side-effects of hepatotoxicity (11.9%) and radiation proctitis (9.52%) were fewer in the therapeutic group.
Compound matrine can decrease the side-effects of IMRT, significantly inhibit sIL-2R and IL-8 in peripheral blood from radiation, and can improve survival quality in patients with rectal cancer (Yin et al., 2013).
Gastric Cancer
The clinical effect of matrine injection, combined with S-1 and cisplatin (SP), in the treatment of advanced gastric cancer was investigated. Seventy-six cases of advanced gastric cancer were randomly divided into either an experimental group or control group. Patients in the two groups were treated with matrine injection combined with SP regimen, or SP regimen alone, respectively.
The effectiveness rate of the experimental group and control group was 57.5% and 52.8% respectively. Therapeutic effect of the two groups of patients did not differ significantly. Occurrence rate of symptom indexes in the treatment group were lower than those of control group, with exception of nausea and vomiting, in which there was no significant difference.
The treatment of advanced gastric cancer with matrine injection, combined with the SP regimen, can significantly improve levels of white blood cells and hemoglobin, liver function, incidence of diarrhea and constipation, and neurotoxicity, to improve the quality of life in patients with advanced gastric cancer (Xia, 2013).
Adenoid Cystic Carcinoma
The effects of compound radix Sophorae flavescentis injection on proliferation, apoptosis and Caspase-3 expression in human adenoid cystic carcinoma ACC-2 cells was investigated.
Compound radix Sophorae flavescentis injection could inhibit the proliferation of ACC-2 cells in vitro, and the dosage effect relationship was significant (P < 0.01). IC50 of ACC-2 was 0.84 g/ml. Flow cytometry indicated that radix Sophorae flavescentis injection could arrest ACC-2 cells at the G0/G1 phase, with a gradual decrease of presence in the G2/M period and S phase. With an increase in dosage, ACC-2 cell apoptosis rate increased significantly (P < 0.05 or P < 0.01).
Radix Sophorae flavescentis injection could enhance ACC-2 cells Caspase-3 protein expression (P < 0.05 or P < 0.01), in a dose-dependent manner. It also could effectively restrain human adenoid cystic carcinoma ACC-2 cells Caspases-3 protein expression, and induce apoptosis, inhibiting tumor cell proliferation (Shi & Hu, 2012).
Breast Cancer Post-operative Chemotherapy
A retrospective analysis of oncological data of 70 post-operative patients with breast cancer from January 2008 to August 2011 was performed. According to the treatment method, the patients were divided into a therapy group (n=35) or control group (n=35). Patients in the control group were treated with the taxotere, adriamycin and cyclophosphamide regimen (TAC). The therapy group was treated with a combination of TAC and sophora root injection. Improved quality of life and incidence of adverse events, before and after treatment, for 2 cycles (21 days to a cycle) were compared.
The objective remission rate of therapy group compared with that of control group was not statistically significant (P > 0.05), while the difference of the disease control rate in two groups was statistically significant (P < 0.05). The improvement rate of total quality of life in the therapy group was higher than that of the control group (P < 0.05). The drop of white blood cells and platelets, gastrointestinal reaction, elevated SGPT, and the incidence of hair loss in the therapy group were lower than those of the control group (P < 0.05).
Sophora root injection combined with chemotherapy in treatment of breast cancer can enhance the effect of chemotherapy, reduce toxicity and side-effects, and improve quality of life (An, An & Wu, 2012).
Lung Cancer Pleural Effusions
The therapeutic efficiency of fufangkushen injection, IL-2, α-IFN on lung cancer accompanied with malignancy pleural effusions, was observed.
One hundred and fifty patients with lung cancer, accompanied with pleural effusions, were randomly divided into treatment and control groups. The treatment group was divided into three groups: injected fufangkushen plus IL-2, fufangkushen plus α-tFN, and IL-2 plus α-IFN, respectively. The control group was divided into three groups and injected fufangkushen, IL-2 and α-IFN, respectively. Therapeutic efficiency and adverse reactions were observed after four weeks.
The effective rate of fufangkushen, IL-2, and α-IFN in a combination was significantly superior to single pharmacotherapy. The effective rate of fufangkushen plus ct-IFN was highest. In adverse reactions, the incidence of fever, chest pains, and the reaction of gastrointestinal tract in the treatment group were significantly less than in the matched group.
The effect of fufangkushen, IL-2, and α-IFN, in a combination, on lung cancer with pleural effusions was significantly better than single pharmacotherapy. Moreover, the effect of fufangknshen plus IL-2 or α-IFN had the greatest effect (Hu & Mei, 2012).
Colorectal Cancer Immunologic Function
The effects of compound Kushen (Radix sophorae flavescentis) injection on the immunologic function of patients after colorectal cancer resection, were studied.
Eighty patients after colorectal cancer resection were randomly divided into two groups: 40 patients in the control group were treated with routine chemotherapy including 5-fluorouridine(5-FU), calcium folinate(CF) and oxaliplatin, and 40 patients in the experimental group were treated with the same chemotherapy regime combined with 20 mL·d-1 compound Kushen injection, for 10 days during chemotherapy.
In the control group the numbers of CD3+,CD4+T cells, NK cells and CD4+/CD8+ ratio significantly declined relative to prior to chemotherapy (P < 0.05), while CD8+T lymphocyte number increased significantly. In the experimental group, there were no significant differences between the numbers of CD3+,CD4+,CD8+T cells, NK cells, and CD4+/CD8+ ratio, before and after chemotherapy (P > 0.05).
After chemotherapy, the numbers of CD3+,CD4+T cells, NK cells and CD4+/CD8+ ratio were higher in the experimental group than in the control group (P0.05), while the number of CD8+T lymphocyte was similar between two groups. Compound Kushen injection can improve the immunologic function of patients receiving chemotherapy after colorectal cancer resection (Chen, Yu, Yuan, & Yuan, 2009).
Stage III and IV non-small-cell lung cancer (NSCLC)
A total of 286 patients with advanced NSCLC were enrolled for study. The patients were treated with either compound Kushen injection in combination with NP (NVB + CBP) chemotherapy (vinorelbine and carboplatin, n = 144), or with NP (NVB + CBP) chemotherapy alone (n = 142). The chemotherapy was performed for 4 cycles of 3 weeks, and the therapeutic efficacy was evaluated every 2 weeks. The following indicators were observed: levels of Hb, WBC, PLT and T cell subpopulations in blood, serum IgG level, short-term efficacy, adverse effects and quality of life.
The gastrointestinal reactions and the myelosuppression in the combination chemotherapy group were alleviated when compared with the chemotherapy alone group, showing a significant difference. (P < 0.05). CD (8)(+) cells were markedly declined in the combination chemotherapy group, and the CD (4)(+)/CD (8)(+) ratio showed an elevation trend in the chemotherapy alone group.
The Karnofsky Performance Scale (KPS) scores and serum IgM and IgG levels were higher in the combination chemotherapy group than those in the chemotherapy alone group (P < 0.01 and P < 0.05). The serum lgA levels were not significantly different in the two groups.
The compound Kushen injection plus NP chemotherapy regimen showed better therapeutic effect, reduced adverse effects of chemotherapy and improved the quality of life in patients with stage III and IV NSCLC (Fan et al., 2010).
Lung Adenocarcinoma
Suppression effects of different concentrations of matrine injection and matrine injection combined with anti-tumor drugs on lung cancer cells were measured by methyl thiazolyl tetrazolium (MTT) colorimetric assay.
Different concentrations of matrine injection could inhibit the growth of SPCA/I human lung adenocarcinoma cells. There was a positive correlation between the inhibition rate and the drug concentration. Different concentrations of matrine injection combined with anti-tumor drugs had a higher growth inhibition rate than anti-tumor drugs alone.
Matrine injection has direct growth suppression effect on SPCA/I human lung adenocarcinoma cells and SS+ injection combined with anti-tumor drugs shows a significant synergistic effect on tumor cells (Zhu, Jiang, Lu, Guo, & Gan, 2008).
Transcatheter Hepatic Arterial Chemoembolization (TACE)
The effect of composite Kushen injection combined with transcatheter hepatic arterial chemoembolization (TACE) on unresectable primary liver cancer, was studied.
Fifty-seven patients with unresectable primary liver cancer were randomly divided into two groups. The treatment group with 27 cases was treated by TACE combined with composite Kushen injection, and the control group with 30 cases was treated by TACE alone. The clinical curative effects were observed after treatment in both groups.
One-, 2-, and 3-year survival rates of the treatment group were 67%, 48%, and 37% respectively, and those of control group were 53%, 37%, and 20% respectively. There were significant differences between both groups (P < 0.05).
Combined TACE with composite Kushen injection can increase the efficacy of patients with unresectable primary liver cancer (Wang & Cheng, 2009).
References