key: cord-0901178-ydm2pztu authors: Yang, Jingpeng; Li, Yanan; Wen, Zhiqiang; Liu, Wenzheng; Meng, Lingtong; Huang, He title: Oscillospira - a candidate for the next-generation probiotics date: 2021-10-25 journal: Gut microbes DOI: 10.1080/19490976.2021.1987783 sha: fb66513beb9d8b95ce7f0ff841f7eb607740a269 doc_id: 901178 cord_uid: ydm2pztu Oscillospira is a class of organism that often appears in high-throughput sequencing data but has not been purely cultured and is widely present in the animal and human intestines. There is a strong association between variation in Oscillospira abundance and obesity, leanness, and human health. In addition, a growing body of studies has shown that Oscillospira is also implicated in other diseases, such as gallstones and chronic constipation, and has shown some correlation with the positive or negative changes in its course. Sequencing data combined with metabolic profiling indicate that Oscillospira is likely to be a genus capable of producing short-chain fatty acids (SCFAs) such as butyrate, which is an important reference indicator for screening “next-generation probiotics “. Considering the positive effects of Oscillospira in some specific diseases, such as obesity-related metabolic diseases, it has already been characterized as one of the next-generation probiotic candidates and therefore has great potential for development and application in the future food, health care, and biopharmaceutical products. In the past two decades, with the continuous development of high-throughput sequencing technology, people have gained further understanding of intestinal microorganisms, and the accuracy of species resolution is also getting higher, and some mysterious "dark matter" harbored in the gut is being revealed step by step 1 . From 16S rRNA amplicon sequencing to the widespread use of metagenomic technologies, growing data show that Oscillospira frequently appears in various gut microbiotarelated studies, but so far, this organism has never been purely cultured and its metabolic and biological characteristics are still unraveled. Several studies have shown a significant positive association between Oscillospira and low fat, leanness, and human health, 2 in addition to a strong association between this organism and a variety of diseases, especially inflammatory diseases. 2, 3 Gut and fecal microbiome sequencing data show that Oscillospira accounts for a high proportion of the human fecal microbiome, suggesting that this organism is likely to play an important role in human health. 4 Meanwhile, several studies have shown that Oscillospira can produce all kinds of short-chain fatty acids (SCFAs) dominated by butyrate. 2, 3, 5 Therefore, whether Oscillospira has potential for development as probiotics and whether it can be the most favorable next-generation probiotic candidate on par with Faecalibacterium prausnitzii, Akkermansia muciniphila, and Eubacterium hallii deserves further research. 6 Records of Oscillospira first appeared a century ago when Chatton and Pérard discovered Oscillospira guilliermondii in guinea pig cecal contents, which is the only known species within the genus Oscillospira. 7 However, little is known about its ecological role and physiological properties in the intestine because pure cultures have not been obtained. 8 Since O. guilliermondii is large and morphologically distinct, which facilitates its DNA isolation and 16S rRNA gene amplification and sequencing, the genus Oscillospira was classified based on flow cytometry and determined by 16S rRNA phylogenetic analysis to be a member of the family Ruminococcaceae, order Clostridiales, class Clostridia in the phylum Firmicutes. 7, 8 Some members of the genus Oscillospira are generally rod-shaped or ellipsoidal, 3-6 μm in diameter and 10-40 μm in length, especially O. guilliermondii cells are very large (about 5-7 μm in width, and up to 70 mm in length), and intracellularly closely spaced transverse septa could be seen under transmission electron microscopy. 7 Some of Oscillospira have endospores (2.5 × 4 μm), arranged longitudinally in rods, refractile and variable in number, which usually contain a large number of polysaccharides and appear reddish or mauve in the presence of iodine. 7 Since spore-like structures were observed in Oscillospira, it is speculated that this group of microorganisms may contain sporeassociated genes. 9 Gene-level analysis revealed the presence of the small acid-soluble spore protein, spore maturation proteins A and B, six stage III sporulation proteins, and the sporulation transcriptional regulators SpoIIID, and SpoVT in some members of Oscillospira, however, some have no SpoVT and other related spore proteins, 3 suggesting that sporulation is likely a sporadically distributed feature in the Oscillibacter clade. Interestingly, sporulation genes are also present in some nonsporulating species, such as Oscillibacter valericigenes, which contain sporulation genes but do not produce spores, and these sporulation genes may play other roles, such as regulatory genes. 10 Oscillospira is a Gram-positive bacteria with low G + C content, whose sequence is close to that of uncultured bacterial clones within the clostridial cluster IV (Collins nomenclature) obtained from the cecum of broiler chickens and rumen contents of dairy cows. 8 Interestingly, clonal sequences from human fecal samples also belong to this cluster, suggesting that microorganisms within this cluster are widespread not only in the digestive tract of herbivores, but also in the digestive tract of omnivores. 7 Starting from a metagenomic and metabolic signature perspective, Gophna et al. used sequence similarity, gene neighborhood information, and artificial metabolic pathway screening to decipher key features of Oscillospira and found that this organism has a butyrate kinase-mediated pathway, from which it was inferred that Oscillospira is a butyrate producer and that at least some of these species can utilize gluconate, a common animalderived sugar that is both produced by the human host and ingested by the host through a diet rich in animal products. 3 On the other hand, it was further demonstrated that Oscillospira can ferment complex plant carbohydrates. 11 Specific carbon sources are also essential for its growth, e.g. Oscillospira grows well in media containing glucose, ethanol, and lactic acid, and glucose in particular significantly promotes its growth. 12 It has been shown that Oscillospira is difficult to culture and slow to grow, which may be related to the longer colonic transit time. 3 Fast colonic transit times select for fast-growing microbes, and by the same token, slower transit conditions allow slower microbes to remain in the lumen and avoid being eluted, 13 a property that the slow-growing Oscillospira seems to fit. On the other hand, the number of tRNA genes in the genome can serve as a strong predictor when microbial generations. 14 The vast majority of fast-growing microbes have more copies of tRNA genes in their genomes, and vice versa. Previous studies have shown that there are less than 40 tRNA genes in Oscillospira, and compared to other fast-growing intestinal microbes such as Bacteroides fragilis (72-73 tRNA genes, generation time 0.63 h), Clostridioides difficile (82 tRNA genes, generation time of < 70 minutes), Oscillospira is typically a very slow-growing organism. 3 In recent years, multiple 16S rRNA amplicon sequencing data based on the human gut microbiome have shown that Oscillospira is an abundant component of the human gut and fecal microbiota, and its gene sequence amount sometimes account for more than 10% of the entire gut microbiota, 4 meanwhile, Oscillospira can produce butyrate, 3 suggesting that this organism may play an important role in various aspects of human bodily functions and health, therefore, more research data are needed to reveal its properties. Various factors are affecting Oscillospira abundance, mainly exogenous factors (Table 1) . It is known from a range of literature that probiotics, prebiotics, heavy metals, natural active products, pharmacological interventions, exercise and diet, and other factors can have an impact on the abundance of Oscillospira in the gut (Figure 1 ). In poultry farming, probiotic Bacillus is often mixed with feed to achieve the ultimate goal of ensuring individual health and obtaining highquality meat. Keerqin et al. found that Bacillus subtilis 29,784 significantly improved broilers weight gain and enhanced their gut health status, as well as increased the abundance of Oscillospira in the intestinal tract. 16 Liu et al. added Bacillus subtilis to the diets of pullets, which was able to improve the growth performance and intestinal function and induce Oscillospira to gradually become the dominant species in the gut. 76 Similarly, during neonatal broiler chicken rearing, the addition of probiotic bacillus preparations (Bacillus amyloliquefaciens plus Bacillus subtilis) increased the Oscillospira abundance and significantly reduced the horizontal transmission of pathogenic E. coli, and alleviated the severity of the infection. 17 Probiotics have also performed well in animal models exploring specific diseaserelated conditions. Zhao et al. found that Bacillus coagulans 13002 significantly alleviated cyclophosphamide-induced intestinal damage in mice and substantially increased the abundance of beneficial microbes such as Oscillospira in the mouse gut through microbiota modulation. 15 Tian et al. used Bifidobacterium breve ATCC 15700 (BB) to treat mice exposed to chronic alcohol intake, followed by analyzing the parameters of intestinal flora and liver injury, they found that there was a significant negative correlation between alcoholic liver disease (ALD) and Oscillospira, while ALD mice treated with BB showed remission of symptoms and a significant increase in Oscillospira abundance. 18 Some probiotic generated proteins and products also have the similar effects. Exopolysaccharide isolated from Leuconostoc pseudomesenteroides XG5 (XG5-EPS) significantly increased the richness of mouse cecum microbiota, especially increasing the relative abundance of Oscillospira at the genus level and the relative abundance of Firmicutes at the phylum level. 19 The effect of Tibet kefir milk (TKM) that co-fermented with lactic acid bacteria and yeast, on fat deposition in rats fed high-fat diets with human-derived flora-associated (HFA), was investigated, and it was found that TKM reduced abdominal fat deposition and the triglyceride (TG) levels in serum at the transcriptional level by regulating Lpl and Angptl4 genes, while increasing Oscillospira abundance. 20 However, not all probiotics can directly or indirectly increase Oscillospira abundance. Gamallat et al. found that long-term supplementation with Lactobacillus rhamnosus reduced female Sprague Dawley Rats body weight, improved serum cytokines, and reduced serum lipoprotein profiles, while their gut Oscillospira abundance was significantly downregulated. 21 Similarly, Clostridium butyricum is capable of Figure 1 . Various factors are affecting oscillospira abundance in the human gut. probiotics, prebiotics, natural products, exercise, and diet can positively regulate oscillospira abundance, whereas heavy metals and pharmacological interventions can negatively regulate oscillospira abundance in the gut. producing butyric acid, which has been shown to limit lipid deposition in the liver, restore intestinal barrier function, and improve liver inflammation, with probiotic potential. 77 Liu et al. found that Clostridium butyricum was used in the colitisassociated colon cancer mice and it had alleviated the intestinal inflammation and was accompanied by a decrease in the relative abundance of Oscillospira. 22 In addition to probiotics, prebiotics also has an important impact on the gut microbiota. 78 Zhao et al. found that oligofructose (FOS) significantly increased the abundance of Oscillospira in the mouse gut, especially when FOS was combined with probiotics was further able to inhibit many harmful gut microbes. 15 Fucoidan (FUC) and galactooligosaccharides (GOS) improved serum dyslipidemia, bile salt hydrolase (BSH) activity, and bile acid-related metabolic levels and promoted Oscillospira abundance in the gut of rats with a high-fat diet; meanwhile, in vitro tests it revealed that FUC and GOS stimulated BSH activity in Lactobacillus casei DM 8121. 23 Human milk oligosaccharides are very important and have a unique and diverse structure, which can influence the development and composition of the gut microbiota of infants and children through different mechanisms. 79 A human mouse model of infant fecal transplantation was used to study the effects of fucosyl-α1,3-GlcNAc (3FN), fucosyl-α1,6-GlcNAc, lacto-N-bioside (LNB), and galacto-N-bioside on fecal microbiota and host-bacteria interactions, and it was found that all these disaccharides significantly upregulate Oscillospira abundance. 24 Li et al. found that pea fiber improved the health status in overweight individuals and increased their intestinal Oscillospira abundance, meanwhile, they found that the increased Oscillospira was significantly associated with the decreased deoxycholic acid (DCA) and lithocholic acid (iso-LCA) in the stool. 25 Potato fiber is a byproduct of starch production and is rich in dietary fiber such as pectin, cellulose, hemicellulose, and resistant starch, which can be utilized and metabolized by gut microbiota to produce SCFAs. 80 One of the representatives, FiberBind 400, is a commercially available potato fiber product. 26 In the Gastro-Intestinal Model (TIM)-2 colon model assay, the ingestion of FiberBind 400 increased the intestinal survival of exogenous Lactobacillus fermentum PCC®, Lactobacillus rhamnosus LGG®, Lactobacillus reuteri RC-14®, Lactobacillus paracasei F-19® and was also found to promote the growth of intestinal Oscillospira by cross-feeding effect. 26 However, there were also some prebiotics and substances with prebiotic-like properties that were negatively correlated with the abundance of Oscillospira. Zhu et al. found that oat β-glucan (OG), oat resistant starch (ORS), and whole oat foods (WO) significantly improved symptoms in the type II diabetic rats and reduced their gut Oscillospira abundance. 27 Cui et al. found that the marine-animal-derived Cereus sinensis polysaccharide (CSP-1) significantly increased thymus, spleen index, and total SCFAs production in mice and decreased Oscillospira abundance, and they hypothesized that CSP-1 might be a potential prebiotic. 28 Taken together, probiotics and prebiotics typically exhibit health-promoting effects in poultry farming as well as in specific disease-related animal models, where the vast majority of probiotics or prebiotics intake can directly or indirectly increase the abundance of Oscillospira in the host intestinal, whereas, a small number do the opposite, the up-or down-regulation of Oscillospira abundance appears to be associated with specific strains or specific prebiotics. Studies on the effects of heavy metals on the gut microbiota and host health represent a significant portion of the overall intestinal microbiota-related research. 81 There is growing epidemiological evidence revealed that heavy metals may contribute to and influence the progression of various metabolic diseases whose etiology and progression are due, in part, to heavy metal-induced disorders of the gut microbiota. 82, 83 By studying the effects of different doses of lead (Pb) exposure on the gut microbiota and gut barrier in mice, Yu et al. found that with increasing doses of Pb, damage to mouse colonic tissue increased, while the relative abundance of Coprococcus and Oscillospira in the gut decreased linearly, while Lactobacillus increased, and Pb exposure had significant effects on the three genera in a dose-dependent manner. 29 It has been shown that Pb and cadmium (Cd) exposure can affect the concentration of SCFAs by altering the abundance of related microbes that produce SCFAs, such as Ruminococcus, Bacteroides, Oscillospira. 30 Several studies have shown that Oscillospira produced butyrate and propionate, increased cupped cell and mucus production, maintained the integrity of the intestinal epithelium, and reduced Pb absorption, thereby reducing colonic tissue damage and inflammation. 5,84-87 Chi et al. found that 4-week-old C57BL/6 female mice ingested drinking water containing 100 ppb arsenic (As) for 13 weeks showed a significant decrease in the Oscillospira abundance, but this was accompanied by an increase in Akkermansia and Bifidobacterium abundance. 32 Similarly, Gao et al. found a significant decrease in the abundance of Oscillospira in the gut of female mice that ingested drinking water containing 10 ppm Pb for 13 weeks, 31 a phenomenon consistent with those results of the experiment by Yu et al. 29 In addition, Oscillospira appears to be equally sensitive to other heavy metals, such as copper and silver, which can significantly affect the proportion of Oscillospira in the gut of rats. 33, 34 However, there were also heavy metals that positively correlated with Oscillospira abundance, such as Hg exposure that caused intestinal damage in mice and increased their intestinal Oscillospira abundance, 35 and this phenomenon was further confirmed in another study. 36 Notably, it has been shown that higher concentrations of lead, arsenic, copper, zinc, mercury, calcium, and magnesium in the pediatric autism spectrum disorder (ASD) population, especially As and Hg concentrations, were associated with intestinal Oscillospira abundance was highly correlated. 88 The effect of different heavy metals on the abundance of Oscillospira in the gut varies. The up-or down-regulation of Oscillospira abundance alone does not seem to indicate whether a specific heavy metal has a positive or negative effect on the host health. Therefore, the patterns of Oscillospira abundance under different heavy metal exposures need to be further explored, and this genus may also have the potential to be used as one of the indicators for assessing the degree of heavy metal contamination. The effect of natural products on the intestinal microbiota has been studied more frequently; among them, polyphenols seem to be able to play an important role on the host microbiota. 89 Millet shell polyphenols (MSPs) extracted from the cereal husks have anti-atherosclerotic effects in vitro. [90] [91] [92] Liu et al. used ApoE-/-mice fed a high-fat diet as experimental subjects to investigate the antiatherosclerotic activity of MSPs in vivo and found that MSPs effectively inhibited the development of atherosclerotic plaques, reduced the levels of related inflammatory factors, and significantly upregulated the expression levels of tight junction proteins (ocludin, zona occludens-1 and claudin 1) at the mRNA and protein levels; also, MSPs significantly altered the structure of mouse gut microbiota, in which Oscillospira and Ruminococcus were significantly enriched. 37 TOTUM-63 (T-63) is a polyphenol-rich plant extract that can have beneficial effects on the body weight and the insulin resistance in mice on a high-fat diet (HFD). 38 The combination of high-intensity interval training (HIIT) and T-63 was applied to a Western dietinduced obesity rat model, and it was found that this combined modality significantly limited the weight gain and improved the blood glucose levels in the rats, while their Oscillospira abundance was also significantly increased. 38 Green tea polyphenols (GTP) can also improve the abundance of Oscillospira in the gut of female sprague-dawley rats. 39 However, polyphenols were also not all positively correlated with Oscillospira abundance. It has been shown that Qingzhuan tea (QZT) has significant anti-obesity, free radical scavenging, antioxidant, inhibiting the proliferation of 3 T3-L1 preadipocytes and other health effects. 93, 94 Feng et al. found that QZT extract ameliorated gut microbiota-mediated metabolic disorders in the high-fat mice and reduced the abundance of Oscillospira, which was significantly positively associated with the metabolic syndrome. 40 In addition to polyphenols, some other active products have similar effects. Capsaicin (CAP) is an active ingredient in chili peppers with a variety of pharmacological activities and potential effects on psychiatric disorders. [95] [96] [97] CAP was found to improve depression and serum levels of 5-hydroxytryptamine (5-HT) and tumor necrosis factor-α (TNF-α) in mice with lipopolysaccharide (LPS)-induced depressive-like behavior and to significantly upregulate the relative abundance of key microbes such as Oscillospira. 41 Liu et al. found that Oscillospira became the dominant genus in the gut of βpatchoulene (β-PAE)-treated mice with colitis. 42 Macleaya cordata contains many important alkaloids, including sanguinarine, chelerythrine, protopine, allocryptopine, and phenolic acids. 98 The addition of Macleaya cordata extract (MCE) as a dietary supplement to pig feed improved their growth performance and reduced the diarrhea score. 99, 100 Li et al. found that MCE intake significantly increased the relative abundance of Oscillospira in the jejunum of weaned pigs. 43 Cranberry pomace (CBP) is rich in polyphenols, complex carbohydrates, fiber and nutritional minerals. 101 Continuous addition of CBP during the rearing of broiler chickens eventually significantly increased the abundance of Oscillospira in their gut. 44 Blueberry malvidin-3-galactoside (Blueberry M3G) also increased the gut microbial diversity in mice and significantly increased the abundance of Oscillospira and Ruminococcus. 45 Chen et al. found that polysaccharide was derived from pueraria lobata (PPL) not only reduced the isovaleric acid concentrations in the normal mice, but also significantly increased Oscillospira abundance and ultimately alleviated antibioticassociated diarrhea (AAD) induced colonic pathological changes and dysbiosis of intestinal flora in mice. 46 Gut microbiota also plays an important role in improving cognition and shaping behavior. 102, 103 Mailing et al. found that 5% pectin mixed with 5% cellulose improved mice learning and memory and significantly increased their gut Oscillospira abundance. 47 Likewise, gut microbiota plays a crucial role in food allergies. 104 In a study of changes in the gut microbiota in patients with wheat-dependent exercise-induced anaphylaxis (WDEIA), Oscillospira was positively associated with the ω-5 alcohol-soluble protein-specific immunoglobulin E (IgE), whereas Bifidobacterium was significantly negatively correlated with the total IgE levels. 105 Another study found that Oscillospira was highly enriched in the gut of milk-tolerant infants compared to children who remained allergic after treatment with extensively hydrolyzed casein formula plus Lactobacillus rhamnosus GG (EHCF + LGG). 48 However, there was a negative correlation between some natural products and Oscillospira abundance. Zhang et al. found that Sophora alopecuroides (Leguminosae) L.-derived alkaloids improved depression-like behaviors and depression-related indicators in the chronic unpredictable mild stress (CUMS)-induced depression model mice and decreased Oscillospira abundance. 49 Yang et al. found that the high-fatdiet-fed mice treated with flaxseed polysaccharide (FSP) had significantly decreased their serum fasting glucose, total triglyceride and total cholesterol levels and significantly increased the proportion of beneficial Akkermansia and Bifidobacterium ratio, while decreasing the proportion of Oscillospira. 50 Thomaz et al. found that wasabi powder significantly improved the health status of diet-induced obese rats and down-regulated their intestinal Oscillospira abundance. 51 Taken together, the natural products represented by polyphenols were able to significantly improve the health status of animal models for specific diseases, particularly metabolic diseases such as obesity caused by high-fat diets, and were accompanied by a significant upregulation of intestinal Oscillospira abundance. In addition, other natural active products showed beneficial effects on host health in general, but the abundance of Oscillospira under the action of different products varied considerably, and more studies are needed to explore these relationships. Pharmacological interventions have an important impact on the gut microbiota. 106, 107 Age-related macular degeneration (AMD) is the main cause of visual impairment in the elderly. Treatment of AMD mice with etifoxine significantly reduced the abundance of Oscillospira in the gut. 52 Etifoxine is also a therapeutic agent for obesity, which was found to down-regulate the relative abundance of Oscillospira in the obese mouse model. 53 Hydroxychloroquine (HCQ) is a widely used antimalarial drug that is recommended for the treatment of coronavirus disease 2019 (COVID-19). 108 Short-term high-dose HCQ stimulation in mice altered the structure of their gut microbiota, in particular the abundance of Oscillospira, but did not affect their intestinal integrity and immune response. 54 Kong et al. found that fungicide thiram disrupted the gut microbiota of chickens, causing disruption of lipid metabolism and significantly reducing the abundance of Oscillospira. 55 However, the intervention of some drugs can increase the relative abundance of Oscillospira. For example, trifluoromethanesulfonic acid (TFMS)-treated mice showed increased abundance of Oscillospira. 56 Wu et al. consistently treated C57BL/6 J mice with fungicide propamocarb and found that their bile acid metabolism was disturbed and Oscillospira abundance was increased. 57 Liu et al. found a significant positive correlation between immunoglobulin G (IgG) and Oscillospira abundance in the gut of male Brandt's voles (Lasiopodomys brandtii), with a concomitant increase in Oscillospira abundance with increasing IgG concentration. 58 During the pharmacological interventions, the gut and gut microbiota are the central sites of drug metabolism and drug efficacy, and the metabolic process of different drugs may have the participation of different gut microbes, while the variation of Oscillospira abundance may also vary from drug to drug. 109 Dietary structure and exercise patterns have been shown to influence the host health and the gut microbial composition. 110, 111 Plissonneau et al. found that the high-intensity interval training (HIIT) had a significant effect on the gut microbial diversity in Wistar rats and that HIIT alone only had a significant effect on their body fat mass, but when HIIT was combined with linseed oil (LO) improved the conversion of α-linolenic acid (ALA) to docosahexaenoic acid (DHA) and significantly increased the relative abundance of Oscillospira in the colonic microbiota. 59 Notably, neither HIIT nor LO alone resulted in significant changes in the intestinal mucosa-associated flora, but when used in combination, it significantly increased Oscillospira abundance. The results of that study were similar to those of previous studies in that Oscillospira was negatively correlated with the body mass index (BMI) 112, 113 and positively correlated with leanness. 114 Similarly, Maillard et al. found a significant increase in the abundance of Oscillospira in the gut microbiota of mice after their spontaneous physical activity (PA), accompanied by a significant increase in the level of SCFAs. 60 Two animal experiments showed a strong correlation between Oscillospira abundance, lactate levels, and exercise intensity. 115, 116 In a population-based trial, Haro et al. found that obese people on a Mediterranean diet for one year showed a decrease in the gut Prevotella abundance and a significant increase in Oscillospira e1987783-8 abundance. 61 Thus, Oscillospira is considered as a possible next-generation probiotic candidate for weight loss and fat reduction. 2 In a randomized controlled trial, short-term consumption of almonds also increased Oscillospira abundance in healthy adults. 62 A high-fat diet has been considered a non-healthy diet. Thomaz et al. found that a high-fat diet increased Oscillospira abundance in the gut of rats, 51 however, the opposite result was seen in another animal test, where Schots et al. found a significant decrease in Oscillospira abundance in the gut of female mice on a high-fat diet, 63 and it is unknown whether this is due to species differences. In addition, He et al. found that fasting reduced the relative abundance of Oscillospira in the human intestine, 64 suggesting that calorie restriction may have a negative regulatory effect on Oscillospira. Overall, appropriate exercise patterns and moderate exercise levels appear to increase the relative abundance of Oscillospira in both human and animal, while an accepted healthy dietary structure also positively regulates the increase in Oscillospira abundance. Oscillospira was first discovered in the rumen of animals, and feed and grazing practices have had a wide impact on this intestinal organism. Ahmad et al. found that the combination of grazing and concentrate supplement significantly increased the abundance of Oscillospira in the rumen flora of yak (Bos grunniens). 65 The cecum microbiota plays an important role in the host food digestion and nutrient absorption, and to some extent affects feed efficiency (FE). Notably, Oscillospira showed a stronger positive correlation in the high feed efficiency group (HFE) than that in the low feed efficiency group (LFE). 66 O. guilliermondii was detected in the rumen of several herbivorous animals, including cattle and sheep, and the abundance of this organism was significantly higher especially when the diet was fresh forage. 67 However, in the opposite case, Yan et al. fed geese with fermented feed diets prepared by cofermentation of Bacillus, Lactobacillus, and yeast with corn, soybean meal, and wheat bran and found a significant downregulation of Oscillospira abundance. 69 Heat stress also down-regulated the abundance of Oscillospira in the broilers' intestine. 70 Oscillospira is commonly found in the gut of herbivores in high-altitude environments, accounting for nearly 20% of the total microbiota. 68 Host characteristics such as sex and age are closely related to the structure and function of the gut microbiota. 117 Sequencing analysis of rhesus macaques (Macaca mulatta) fecal samples revealed that female macaques had higher levels of alpha diversity and a more distinctive microbial structure than males, and those mature individuals had a higher abundance of Oscillospira compared to immature individuals. 75 Similarly, the abundance of Oscillospira in male and female ASD rodent models exhibited substantial differences, and these differences may be due to sex specificity. 71, 72 Xi et al. found that the abundance of Oscillospira in the gut of specific-pathogen-free chickens decreased with increasing age. 74 Maron et al. found that Oscillospira was commonly found in the gut of older calves compared to younger calves. 73 In studies of gut microbiota and their related diseases, Oscillospira often appears in highthroughput sequencing data, and it is particularly noteworthy that Oscillospira abundance fluctuates widely in some specific diseases. Here, we give a summary of diseases positively or negatively associated with Oscillospira (Table 2 ). Data from animal experiments show that a high-fat diet appears to promote an increase in intestinal Oscillospira abundance. Compared to the normal group (NOR), the mice on the high-fat dietinduced obesity and showed dysbiosis of the intestinal flora, with a significantly higher abundance of Oscillospira, 118 a result that was also seen in another high-fat diet mouse test. 52 Oscillospira abundance in the gut of Type 2 diabetes mellitus (T2DM) rats was positively correlated with the development of diabetes and inflammation, 27 however, in contrast, Oscillospira abundance in another trial was extremely low. 121 In the dextran sulfate sodium (DSS)induced ulcerative colitis in mice test, DSS was observed to increase the percentage of Oscillospira in the gut. 122 Zhang et al. found that patients with chronic kidney disease (CKD) had a high abundance of Oscillospira in the gut. 125 There is also a close association between central neurological and degenerative disorders and Oscillospira. Parkinson's disease (PD) patients also had a high abundance of Oscillospira, 127 but this result showed the opposite trend in another study. 128 Zhai et al. sequenced and analyzed the gut microbiota of ASD children and found that Oscillospira significantly increased. 129 In another study of CUMS-induced depression-like mice, CUMS induction resulted in increased abundance of Oscillospira, while this genus decreased after Kai-Xin-San (KXS) treatment. 131 What can be determined is that, Oscillospira is directly associated with gallstones and this organism can be used as a biomarker for symptomatic gallstone formation. 133 Keren et al. found that patients with gallstones had higher total fecal bile acids (BAs) concentrations and lower microbial diversity, accompanied by increased abundance of Oscillospira, which was further analyzed and found to be positively correlated with secondary BAs and negatively correlated with primary BAs. 133 It was worth noting that slow transmission/constipation was a definite risk factor in the formation of gallstones. 141 It has been shown that fast colonic transit times select for fast-growing microbes, while slower transit/constipation allows slower replicating organisms to remain in the lumen and avoid being eluted. 13 Oscillospira showed high abundance in this case, most likely due to its slow growth and thus benefiting from a slow transit time in the gut. Thus, a high abundance of Oscillospira was positively correlated with constipation, especially in the female population with chronic constipation, and this correlation was very strong. 135 Currently, several studies have shown that inflammation is strongly associated with Oscillospira, and most of them have a negative correlation. 2 Xu et al. found that Oscillospira abundance was negatively correlated with disease severity in patients with ulcerative colitis (UC). 119 Lima et al. found a lower abundance of Oscillospira in the gut of children with inflammatory bowel disease (IBD). 120 A significantly lower abundance of Oscillospira was also found in the gut of Crohn's disease (CD) patients and pediatric nonalcoholic fatty liver disease (NALD) patients. 123, 124 Aging is a low-grade chronic inflammation characterized by elevated circulating levels of inflammatory mediators. 142 This chronic inflammation occurs in the absence of obvious infection is called inflammation and is a risk factor for morbidity and mortality in the elderly population. 143 In addition, the important role of gut microbiota perturbation with aging has been revealed, and a growing body of literature suggests that age-related gut microbiota dysbiosis contributes to the overall inflammatory status of older adults. 144 Among them, Oscillospira showed a strong negative correlation with proinflammatory monocyte chemoattractant protein-1 (MCP-1). 126 Childhood obesity is a global health problem, and gut microbiota plays an extremely important role in obesity. 145 Chen et al. found a significant decrease in the abundance of Oscillospira in the overweight children gut. 130 Similarly, Verdam et al. found a significant decrease in Oscillospira abundance in the gut of obesityassociated diabetic patients, while O. guillermondii was significantly decreased in obese patients with local and systemic inflammation. 132 Fragile X syndrome (FXS) is a neurodevelopmental disorder that is considered to be the most common cause of genetic intellectual disability and one of the major predisposing factors for autism. 146, 147 Altimiras et al. found that Oscillospira abundance was significantly downregulated in the gut of FXS mouse models. 134 A strong correlation between Oscillospira and several depression-related indicators was also previously confirmed in another trial. 49 This relationship appears to be further supported by data from a population-based experiment, where Johnson et al. found that social competence (a composite measure of participants' extraversion, social skills, and communication ability) was highly positively correlated with Akkermansia, Lactococcus, and Oscillospira, among them, Oscillospira was more abundant in individuals with higher sociality scores. 136 Tian et al. studied mice exposed to chronic alcohol intake by analyzing gut microbiota and liver injury parameters and found that the development of ALD was accompanied by a significant decrease in Oscillospira abundance. 18 Clinically, Oscillospira abundance was also negatively correlated with hepatic fat; 137 the abundance of Oscillospira in the gut of pediatric nonalcoholic fatty liver disease (NAFLD) and nonalcoholic steatohepatitis (NASH) patients was similarly reduced. Currently, reduced Oscillospira accompanied by increased 2-butanone has been identified as a gut microbiota signature of NAFLD onset. 138 Lung cancer pathogenesis was accompanied by a significant decrease in Oscillospira abundance, with a negative correlation between the two. 139 A study of gut microbiota and stool softness/hardness in European adults showed that Oscillospira abundance was positively correlated with harder stools and negatively correlated with loose stools. 140 Oscillospira is currently described only in highthroughput sequencing data related to the gut microbiota. Pure cultures of this organism have not been obtained and therefore, the actual biology, function, and specific role of Oscillospira in the gut microbiota and human health have not been conclusively established. The current description of Oscillospira is mainly reflected in the variation of its abundance in different environments. 3 Through multiple studies in Table 2 , we found that Oscillospira is highly associated with obesity and obesity-related chronic inflammatory and metabolic diseases and that Oscillospira abundance is significantly decreased in this category of disease. In addition, several studies have confirmed that Oscillospira is strongly associated with leanness or lower BMI in children and adults, and shows a high degree of heritability. 112, 132, 148, 149 Numerous evidences suggest that Oscillospira abundance plays an important role in the metabolic activities associated with obesity in humans. Oscillospira may be a next-generation probiotic candidate with weight loss, lipid-lowering, slimming, and metabolic syndrome-relieving effects, and it has great potential for health applications. In addition, there is an association between Oscillospira and central nervous system disorders and degenerative diseases, but more studies are needed to reveal the underlying mechanisms as the evidence is scarce and the causality has not been confirmed. It is noteworthy that Oscillospira is more abundant in people with gallstones and chronic constipation, and it is not known what role this organism play can either foster health or contribute to disease in the development of such diseases. It should be seen that Oscillospira plays an important role in the gut microbiota and its abundance is closely related to the host health. External interventions such as probiotics, prebiotics, polyphenols, diet, and exercise can significantly influence the abundance of Oscillospira in the gut, which opens up the possibility of targeted interventions for the prevention, mitigation, and treatment of specific diseases mediated by intestinal flora, such as obesity and obesity-related diabetes. In the future, microecological formulations with Oscillospira as the core may bring new options for food, nutraceuticals, and biopharmaceuticals for consumption or medicinal use. Overall, Oscillospira exhibited beneficial microbial traits. In particular, Oscillospira directly or indirectly exhibits positive regulatory effects in areas related to obesity and chronic inflammation. Therefore, Oscillospira has the potential to be developed as the next generation of probiotics. In the future, more preclinical and clinical studies are needed to confirm the efficacy of Oscillospira in different diseases, and until then, if the pure culture technology of this organism can be overcome, then it will greatly accelerate its development and application process. No potential conflict of interest was reported by the author(s). The author(s) reported there is no funding associated with the work featured in this article. 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