Integration of gut microbiota and metabolomics for the hematopoiesis of Siwu paste on anemia rats

Research Progress of Buyang Yiwei Decoction in Regulating Intestinal Flora for Gastric Cancer

Intestinal flora is a complex micro-ecosystem in human body, which is called the second genome of human body. Intestinal flora imbalance plays an important role in the occurrence and development of gastric cancer through circulation, metabolism and immunity. Gastric cancer is associated with dysbacteriosis. Traditional Chinese medicine (TCM) compounds in Buyang Yiwei Decoction can reduce the clinical signs and symptoms of gastric cancer by regulating intestinal microbiota, alleviate the adverse reactions of gastric cancer after radiotherapy and chemotherapy, and improve the quality of life of patients. This article reviews whether Buyang Yiwei Decoction can reduce the risk of gastric cancer or play a therapeutic role in gastric cancer by improving the intestinal microbiota.

Along the gut-bone marrow signaling pathway: use of longan polysaccharides to regenerate blood cells after chemotherapy-induced myelosuppression

Although it has been established that polysaccharides have an effect on bone marrow haematopoiesis, it remains unclear how polysaccharides regulate bone marrow haematopoiesis during absorption and metabolism in vivo. In this study, the effect of a longan polysaccharide of large molecular weight (TLPL) on the gut microbiota of mice and its implications for the haematopoietic process in bone marrow was discussed. Here, the results show that after 21 days of TLPL consumption, the respective quantities of white blood cells, platelets, hemoglobin and bone marrow nucleated cells were determined to be 3.18 ± 1.71 (109 L-1), 1238.10 ± 164.41 (109 L-1), 135.10 ± 4.95 (g L-1), and 1.70 × 107, which reached 56.98%, 117.28%, and 47.74%, respectively, of the results for NC. TLPL both increased the thymus and spleen indexes by up to 2.08 ± 0.64 (mg g-1) and 6.49 ± 2.45 (mg g-1), respectively. Additionally, TLPL remodeled the gut microbiota with a significant increase in Lactobacillus in particular, and a significant increase in the level of the potential intestinal metabolite lactate was detected in the serum. Most importantly, a similarly significant up-regulation of the gene expression of the lactate receptor, Gpr81, in the myeloid cells was observed. These changes contributed to the activation of the secretion of various cytokines associated with haematopoiesis, with the levels of G-CSF, EPO, SCF and PF4 increased by 2.44 times, 1.14 times, 1.56 times and 1.13 times, respectively, compared to the MC group, which subsequently accelerated production of bone marrow cells and blood cells. The findings of this study reveal the unique mechanism of dried longan polysaccharides in ameliorating myelosuppression and provide a feasible strategy for the treatment of chemotherapy-induced myelosuppression with bioactive polysaccharides.

The epithelial barrier theory and its associated diseases

The prevalence of many chronic noncommunicable diseases has been steadily rising over the past six decades. During this time, over 350,000 new chemical substances have been introduced to the lives of humans. In recent years, the epithelial barrier theory came to light explaining the growing prevalence and exacerbations of these diseases worldwide. It attributes their onset to a functionally impaired epithelial barrier triggered by the toxicity of the exposed substances, associated with microbial dysbiosis, immune system activation, and inflammation. Diseases encompassed by the epithelial barrier theory share common features such as an increased prevalence after the 1960s or 2000s that cannot (solely) be accounted for by the emergence of improved diagnostic methods. Other common traits include epithelial barrier defects, microbial dysbiosis with loss of commensals and colonization of opportunistic pathogens, and circulating inflammatory cells and cytokines. In addition, practically unrelated diseases that fulfill these criteria have started to emerge as multimorbidities during the last decades. Here, we provide a comprehensive overview of diseases encompassed by the epithelial barrier theory and discuss evidence and similarities for their epidemiology, genetic susceptibility, epithelial barrier dysfunction, microbial dysbiosis, and tissue inflammation.

Impact of macrophage differentiation on hematopoietic function enhancement by Shenzhu ErKang Syrup

Shenzhu Erkang Syrup (SZEK) is a traditional Chinese medicine that improves spleen and stomach function, tonifying the Qi and activating the blood; however, its therapeutic effects in hematopoietic dysfunction and their underlying mechanism remain unexplored. In this study, mice were given cyclophosphamide (100 mg/kg) by intraperitoneal injections for three days to produce hematopoietic dysfunction model. We investigated the hematopoietic effect and mechanism of SZEK in mice with hematopoietic dysfunction via histopathological examination, flow cytometry, enzyme-linked immunosorbent assay, and Western blotting combined with intestinal flora and serum metabolomics analysis. In mice with hematopoietic dysfunction, SZEK (gavage, 0.3 mL/25 g) alleviated pathological damage to the bone marrow and spleen; increased the number of naïve cells (Lin-), hematopoietic stem cells (Lin-Sca-1+c-Kit+), long-term self-renewing hematopoietic stem cells (Lin-Sca-1+c-Kit+CD48-CD150+), B lymphocytes (CD45+CD19+), and macrophages (CD11b+F4/80+) in the bone marrow; and reduced inflammation. Preliminary intestinal flora and serum metabolome analyses indicated that the pro-hematopoietic mechanism of SZEK was associated with macrophage differentiation. Further validation revealed that SZEK promoted hematopoiesis by decreasing the number of M2 macrophages and inhibiting the secretion of negative hematopoietic regulatory factors in mice with hematopoietic dysfunction.