GBS‐01, an extract from the fruit of Arctium lappa L. is an orally administered drug rich in arctigenin, which has been reported to exert antitumor activity by attenuating the tolerance of cancer cells to glucose deprivation. We investigated the maximum tolerated dose of GBS‐01 based on the frequency of the dose‐limiting toxicities (DLTs) and pharmacokinetics in patients with advanced pancreatic cancer refractory to gemcitabine. GBS‐01 was given orally at escalating doses from 3.0 g (containing 1.0 g burdock fruit extract) to 12.0 g q.d. A DLT was defined as a grade 4 hematological toxicity and grade 3 or 4 non‐hematological toxicity appearing during the first 28 days of treatment. Fifteen patients (GBS‐01 dose level 1 [3.0 g], three patients; dose level 2 [7.5 g], three patients; and dose level 3 [12.0 g], nine patients) were enrolled. None of the patients at any of the three dose levels showed any sign of DLTs. The main adverse events were increased serum γ‐glutamyl transpeptidase, hyperglycemia, and increased serum total bilirubin; however, all the toxicities were mild. Of the 15 patients, 1 showed confirmed partial response and 4 patients had stable disease. The median progression‐free and overall survival of the patients were 1.1 and 5.7 months, respectively. The pharmacokinetic study revealed a high bioavailability of arctigenin and rapid conjugation of the drug with glucuronic acid. The recommended dose of GBS‐01 was 12.0 g q.d, and favorable clinical responses were obtained. This trial was registered at UMIN‐CTR (http://www.umin.ac.jp/ctr/index-j.htm), identification number UMIN000005787.
The bark of Prunus jamasakura Siebold (Pruni Cortex) has long been used in Japan as a folk remedy and is one of ingredients of the Kampo formula, Jumi-haidoku-to (JHT). JHT is used for treatment of skin diseases such as acne (acne vulgaris). According to Kampo medicinal sources, Quercus Cortex can be used in place of Pruni Cortex. In this study, we found that water extracts of Pruni Cortex, not Quercus Cortex showed a binding eŠect on estrogen receptor b (ERb). Thus, their chemical analysis was carried out by GC-MS and found thatˆve unique constituents (i.e., sakuranetin, naringenin, genistein, genkwanin and arctigenin) were detected in Pruni Cortex. The ERb binding capacity of these constituents was examined using 70 ng/ml 17b-estradiol, as the positive control with 100% ERb binding. Among them, genistein (60% at 10 ng/ml) showed the strongest binding capacity than naringenin (60% at 1000 ng/ml) and sakuranetin (40% at 1000 ng/ml). These results suggested that Pruni Cortex in JHT could play an important role in treatment of acne. In addition, those of Pruni Cortex from diŠerent harvest places were also examined in their chemical contents and ERb binding capacity. The extracts of Pruni Cortex from Kyushu in Japan and Anhui Province in China showed higher contents of genistein and stronger ERb binding capacity than that of Pruni Cortex from Tokushima Prefecture in Japan. Key words-Pruni
From seeds of Arctium lappa L. (Asteraceae) we obtained arctigenin (1), arctiin (2), chlorogenic acid (3), 4,5-dicaffeoylquinic acid (4), 3,5-dicaffeoylquinic acid (5), 3,4-dicaffeoylquinic acid (6), matairesinol (11), isolappaol A (12), lappaol F (14), and lappaol B (15), together with 1:1 mixtures of isolappaol C (7) and lappaol C (8), arctignan E (9) and arctignan D (10), and 12 and lappaol A (13), while 3,3',4'-triO -demethylarctigenin (16), 3,3'-di-O-demethyl-4'dehydroxyarctigenin (17), and 3-O-demethylarctigenin (18) were obtained by anaerobic microbiological metabolism of 1. Then, we evaluated the in vitro preferential cytotoxic activity of these pure compounds and 1:1 mixtures, together with enterodiol (19) and enterolactone (20), against human pancreatic cancer PANC-1 cells in nutrient-deprived medium (NDM). Among them, 1 and 18 showed potent activity, with PC 50 values of 1.75 and 4.38 M, respectively, while 11, 15, and 17 showed mild activity with PC 50 values of 31.1, 30.9, and 38.7 M, respectively. By comparing their structures and PC 50 values, the following structural moieties could be concluded to be important for the preferential cytotoxicity of 1: 1) the 3-hydroxy-4-methoxyphenyl group at the 2-position on the -butyrolactone ring, 2) the less polar substituent at the 3-position on the -butyrolactone ring, and 3) the -butyrolactone ring.
2559 Background: Arctigenin, which is abundant in the seeds of Arctium lappa Linné, was found by a novel strategy to attenuate cancer cells’ tolerance to glucose deprivation (antiausterity) and showed antitumor activity in mouse xenograft models. GBS-01 is an orally administered drug and contains rich arctigenin extracted from Arctium lappa Linné, which is one of the traditional herbal medicine. This study investigated the maximum-tolerated dose of GBS-01 based on the frequency of dose-limiting toxicities (DLT) in patients with refractory advanced pancreatic cancer, which is considered as one of the hypoxic cancer. Methods: Histologically or cytologically proven advanced pancreatic adenocarcinoma patients refractory to gemcitabine were enrolled. GBS-01 was administered orally at escalating doses from 3g to 12g qd. DLT was defined as grade 4 hematological toxicities and grade 3 or 4 non-hematological toxicities during first 28 days of the treatment. Response evaluation based on RECIST criteria and progression-free survival were set as secondary endpoint for efficacy evaluation. Results: Fifteen patients (GBS-01 3g: 3 patients, 7.5g: 3 patients, 12g: 9 patients) were enrolled in this trial. All patients were refractory to S-1 as well as gemcitabine. All patients at the three dose levels did not demonstrate any sign of DLT. The main adverse events of this agent were increased γGTP, hyperglycemia, and increased total bilirubin, but all toxicities were extremely mild. Of all 15 enrolled patients, 1 patient showed a partial response and 4 patients had a stable disease. The median progression-free and overall survival time for all patients were 1.05 months and 5.68 months, respectively. Conclusions: The recommended dose of GBS-01 was 12 g qd (4 g as a extract of Arctium lappa Linné), and favorable clinical responses were obtained. A multicenter phase II trial is being planned to evaluate the efficacy and safety of this agent. Clinical trial information: 000005787.
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