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3. Altered hepatic metabolism mediates sepsis preventive effects of reduced glucose supply in infected preterm newborns

Author

Ole Bæk, Tik Muk, Ziyuan Wu, Yongxin Ye, Bekzod Khakimov, Alessandra Maria Casano, Bagirath Gangadharan, Ivan Bilic, Anders Brunse, Per Torp Sangild, and Duc Ninh Nguyen

Subjects
preterm infant, pig, neonatal sepsis, immunometabolism, parenteral nutrition, glucose, Medicine, Science, Biology (General), QH301-705.5
Abstract

Preterm infants are susceptible to neonatal sepsis, a syndrome of pro-inflammatory activity, organ damage, and altered metabolism following infection. Given the unique metabolic challenges and poor glucose regulatory capacity of preterm infants, their glucose intake during infection may have a high impact on the degree of metabolism dysregulation and organ damage. Using a preterm pig model of neonatal sepsis, we previously showed that a drastic restriction in glucose supply during infection protects against sepsis via suppression of glycolysis-induced inflammation, but results in severe hypoglycemia. Now we explored clinically relevant options for reducing glucose intake to decrease sepsis risk, without causing hypoglycemia and further explore the involvement of the liver in these protective effects. We found that a reduced glucose regime during infection increased survival via reduced pro-inflammatory response, while maintaining normoglycemia. Mechanistically, this intervention enhanced hepatic oxidative phosphorylation and possibly gluconeogenesis, and dampened both circulating and hepatic inflammation. However, switching from a high to a reduced glucose supply after the debut of clinical symptoms did not prevent sepsis, suggesting metabolic conditions at the start of infection are key in driving the outcome. Finally, an early therapy with purified human inter-alpha inhibitor protein, a liver-derived anti-inflammatory protein, partially reversed the effects of low parenteral glucose provision, likely by inhibiting neutrophil functions that mediate pathogen clearance. Our findings suggest a clinically relevant regime of reduced glucose supply for infected preterm infants could prevent or delay the development of sepsis in vulnerable neonates.

Published
2025
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4. Fecal virus-like particles are sufficient to reduce necrotizing enterocolitis

Author

Simone Margaard Offersen, Xiaotian Mao, Malene Roed Spiegelhauer, Frej Larsen, Viktoria Rose Li, Dennis Sandris Nielsen, Lise Aunsholt, Thomas Thymann, and Anders Brunse

Subjects
Fecal virome transplantation, fecal microbiota transplantation, bacteriophages, diarrhea, necrotizing enterocolitis, preterm, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Fecal filtrate transfer (FFT) is emerging as a safer alternative to traditional fecal microbiota transplantation (FMT) – particularly in the context of necrotizing enterocolitis (NEC), a severe gastrointestinal condition affecting preterm infants. Using a preterm piglet model, FFT has demonstrated superiority over FMT in safety and NEC prevention. Since FFT is virtually devoid of bacteria, prokaryotic viruses (bacteriophages) are assumed to mediate the beneficial effects. However, this assumption remains unproven. To address this gap, we separated virus-like particles (30 kDa to 0.45 µm) of donor feces from the residual postbiotic fluid. We then compared clinical and gut microbiota responses to these fractions with the parent FFT solution after transferring them to NEC-susceptible preterm piglets. Virome transfer was equally effective as FFT in reducing the severity of NEC-like pathology. The bacterial compositional data corroborated clinical findings as virome transfer reduced the relative abundance of several NEC-associated pathogens e.g. Klebsiella pneumoniae and Clostridium perfringens. Virome transfer diversified gut viral communities with concomitant constraining effects on the bacterial composition. Unexpectedly, virome transfer, but not residual postbiotic fluid, led to earlier diarrhea. While diarrhea may be a minor concern in human infants, future work should identify ways of eliminating this side effect without losing treatment efficacy.

Published
2024
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5. A weighted and cumulative point system for accurate scoring of intestinal pathology in a piglet model of necrotizing enterocolitis

Author

Simone Margaard Offersen, Nicole Lind Henriksen, and Anders Brunse

Subjects
Animal model, Formula, Intestinal pathology, Necrotizing enterocolitis, Piglet, Prematurity, Pathology, RB1-214
Abstract

Necrotizing enterocolitis (NEC) is a serious condition in premature infants, in which a portion of the intestine undergoes inflammation and necrosis. The preterm pig develops NEC spontaneously, making it a suitable model for exploring novel NEC treatments. We aimed to revise the intestinal scoring system to more accurately describe the diversity of NEC lesions in the preterm piglet model. We included 333 preterm piglets from four experiments, each delivered via cesarean section. The piglets were fed either a gently processed (GP) or harshly processed (HP) milk formula for 96 h before euthanasia. At necropsy, the gastrointestinal tract was assessed with 1) an established 6-grade score and 2) a descriptive approach focusing on the distribution and severity of hyperemia, hemorrhage, pneumatosis intestinalis (intramural gas), and necrosis. Subsequently, the descriptive registrations were converted into a weighted and cumulative point (WCP) score. Compared to the 6-grade score, the WCP score enabled a greater segregation of severity levels, especially among organs with more prominent NEC lesions. IL-1β in small intestinal lesions and both IL-8 and IL-1β in colon lesions correlated positively with the WCP scale. A histopathological grade system (0–8) was established and revealed mucosal pathology in lesion biopsies, which were not recognized macroscopically. Finally, the WCP score showed a higher NEC-promoting effect of the HP formula compared to the GP formula. The descriptive registrations and extended score range of this revised intestinal scoring system enhance the accuracy of describing NEC lesions in preterm pigs. This approach may increase the efficiency of preclinical NEC experiments.

Published
2024
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8. Effects of early postnatal gastric and colonic microbiota transplantation on piglet gut health

Author

Christina Larsen, Simone Margaard Offersen, Anders Brunse, Mattia Pirolo, Soumya Kanti Kar, Luca Guadabassi, and Thomas Thymann

Subjects
Colonic content filtrate transplantation, Colonic microbiota transplantation, Gastric microbiota transplantation, Gut microbiota, Mucosa, Neonatal, Animal culture, SF1-1100, Veterinary medicine, SF600-1100
Abstract

Abstract Background Diarrhea is a major cause of reduced growth and mortality in piglets during the suckling and weaning periods and poses a major threat to the global pig industry. Diarrhea and gut dysbiosis may in part be prevented via improved early postnatal microbial colonization of the gut. To secure better postnatal gut colonization, we hypothesized that transplantation of colonic or gastric content from healthy donors to newborn recipients would prevent diarrhea in the recipients in the post-weaning period. Our objective was to examine the impact of transplanting colonic or gastric content on health and growth parameters and paraclinical parameters in recipient single-housed piglets exposed to a weaning transition and challenged with enterotoxigenic Escherichia coli (ETEC). Methods Seventy-two 1-day-old piglets were randomized to four groups: colonic microbiota transplantation (CMT, n = 18), colonic content filtrate transplantation (CcFT, n = 18), gastric microbiota transplantation (GMT, n = 18), or saline (CON, n = 18). Inoculations were given on d 2 and 3 of life, and all piglets were milk-fed until weaning (d 20) and shortly after challenged with ETEC (d 24). We assessed growth, diarrhea prevalence, ETEC concentration, organ weight, blood parameters, small intestinal morphology and histology, gut mucosal function, and microbiota composition and diversity. Results Episodes of diarrhea were seen in all groups during both the milk- and the solid-feeding phase, possibly due to stress associated with single housing. However, CcFT showed lower diarrhea prevalence on d 27, 28, and 29 compared to CON (all P

Published
2023
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9. Delayed Gut Colonization Changes Future Insulin Resistance and Hepatic Gene Expression but Not Adiposity in Obese Mice

Author

Maria B. B. Ebert, Caroline M. J. Mentzel, Anders Brunse, Lukasz Krych, and Camilla H. F. Hansen

Subjects
Internal medicine, RC31-1245
Abstract

Objective. The importance of early microbial dysbiosis in later development of obesity and metabolic disorders has been a subject of debate. Here we tested cause and effect in mice. Methods. Germ-free male Swiss Webster mice were colonized in a specific-pathogen-free (SPF) facility at 1 week (1W) and 3 weeks (3W) of age. They were challenged with a high-fat diet and their responses were compared with SPF mice. Gut microbiota was analyzed by 16S rRNA gene sequencing. Moreover, RNA sequencing of the liver was performed on additional 3W and SPF mice on a regular chow diet. Results. There were no significant differences in weight, food consumption, epididymal fat weight, HbA1c levels, and serum insulin and leptin, whereas the early germ-free period resulted in mice with impaired glucose tolerance. Both the 1W and 3W group peaked 56% (p

Published
2024
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10. Fecal virome transfer improves proliferation of commensal gut Akkermansia muciniphila and unexpectedly enhances the fertility rate in laboratory mice

Author

Torben Sølbeck Rasmussen, Caroline M. Junker Mentzel, Malene Refslund Danielsen, Rasmus Riemer Jakobsen, Line Sidsel Fisker Zachariassen, Josue Leonardo Castro Mejia, Anders Brunse, Lars Hestbjerg Hansen, Camilla Hartmann Friis Hansen, Axel Kornerup Hansen, and Dennis Sandris Nielsen

Subjects
Fecal virome transplantation, Gut microbiome, Fertility, Probiotic engraftment, Lacticaseibacillus rhamnosus, Akkermansia muciniphila, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

ABSTRACTProbiotics are intended to improve gastrointestinal health when consumed. However, the probiotics marketed today only colonize the densely populated gut to a limited extent. Bacteriophages comprise the majority of viruses in the human gut virome and there are strong indications that they play important roles in shaping the gut microbiome. Here, we investigate the use of fecal virome transplantation (FVT, sterile filtrated feces) as a mean to alter the gut microbiome composition to lead the way for persistent colonization of two types of probiotics: Lacticaseibacillus rhamnosus GG (LGG) representing a well-established probiotic and Akkermansia muciniphila (AKM) representing a putative next-generation probiotic. Male and female C57BL/6NTac mice were cohoused in pairs from 4 weeks of age and received the following treatment by oral gavage at week 5 and 6: AKM+FVT, LGG+FVT, probiotic sham (Pro-sham)+FVT, LGG+Saline, AKM+Saline, and control (Pro-sham+Saline). The FVT donor material originated from mice with high relative abundance of A. muciniphila. All animals were terminated at age 9 weeks. The FVT treatment did not increase the relative abundance of the administered LGG or AKM in the recipient mice. Instead FVT significantly (p

Published
2023
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13. Donor-dependent fecal microbiota transplantation efficacy against necrotizing enterocolitis in preterm pigs

Author

Yan Hui, Gisle Vestergaard, Ling Deng, Witold Piotr Kot, Thomas Thymann, Anders Brunse, and Dennis Sandris Nielsen

Subjects
Microbial ecology, QR100-130
Abstract

Abstract The development of necrotizing enterocolitis (NEC), a life-threatening inflammatory bowel disease affecting preterm infants, is connected with gut microbiota dysbiosis. Using preterm piglets as a model for preterm infants we recently showed that fecal microbiota transplantation (FMT) from healthy suckling piglet donors to newborn preterm piglets decreased the NEC risk. However, in a follow-up study using donor stool from piglets recruited from another farm, this finding could not be replicated. This allowed us to study donor-recipient microbiota dynamics in a controlled model system with a clear difference in NEC phenotype. Preterm piglets (n = 38) were randomly allocated to receive control saline (CON), or rectal FMT using either the ineffective (FMT1) or the effective donor stool (FMT2). All animals were followed for four days before necropsy and gut pathological evaluation. Donor and recipient colonic gut microbiota (GM) were analyzed by 16 S rRNA gene amplicon sequencing and shotgun metagenomics. As expected, only FMT2 recipients were protected against NEC. Both FMT groups had shifted GM composition relative to CON, but FMT2 recipients had a higher lactobacilli relative abundance compared to FMT1. Limosilactobacillus reuteri and Lactobacillus crispatus strains of FMT recipients showed high phylogenetic similarity with their respective donors, indicating engraftment. Moreover, the FMT2 group had a higher lactobacilli replication rate and harbored specific glycosaminoglycan-degrading Bacteroides. In conclusion, subtle species-level donor differences translate to major changes in engraftment dynamics and the ability to prevent NEC. This could have implications for proper donor selection in future FMT trials for NEC prevention.

Published
2022
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15. Transplantation of fecal filtrate to neonatal pigs reduces post-weaning diarrhea: A pilot study

Author

Christina Larsen, Amanda B. Andersen, Helena Sato, Anders Brunse, and Thomas Thymann

Subjects
fecal filtrate transplantation, post-weaning diarrhea, gut microbiome, neonatal, mucosa, Veterinary medicine, SF600-1100
Abstract

Post-weaning diarrhea (PWD) remains a major source of mortality and morbidity in swine production. Transplantation of bacteria-free filtrate of feces (fecal filtrate transplant, FFT) has shown gut protective effects in neonatal pigs, and early postnatal establishment of the gut microbiome is suggested to determine later stability and robustness of the gut. We, therefore, hypothesized that early postnatal transplantation of bacteria-free feces would have a protective effect against PWD. Using fecal filtrates derived from healthy lactating sows, we compared oral administration of fecal filtrate transplantation (FFT, n = 20) and saline (CON, n = 18) in newborn piglets. We assessed growth, diarrhea prevalence, blood parameters, organ measurements, morphology, and gut brush border enzymes and analyzed luminal bacterial composition using 16S rRNA gene amplicon sequencing. The two groups showed similar average daily gain (ADG) during the suckling period, whereas in the post-weaning period, a negative ADG was observed in both groups. While diarrhea was largely absent in both groups before weaning, there was a lower diarrhea prevalence on days 27 (p = 2.07*10−9), 28 (p = 0.04), and 35 (p = 0.04) in the FFT group relative to CON. At weaning on day 27, the FFT group had higher numbers of red blood cells, monocytes, and lymphocytes, while on day 35, i.e., 1 week after weaning, the two groups were similar regarding hematology. The biochemical profile was largely similar between FFT and CON on days 27 and 35, except for a higher level of alanine aminotransferase and a lower level of Mg in the FFT group. Likewise, organ weights relative to body weight were largely similar on day 35, albeit with a lower stomach weight and more colon content in FFT relative to CON. Gut mucosal percentage and mucosal enzyme activity were similar between the two groups on days 27 and 35. Gut bacterial composition was slightly different on day 35 but not on day 27. In conclusion, early postnatal administration of FFT, showed positive clinical effects in post-weaning pigs, albeit with subtle effects on the gut mucosa and microbiome. Prophylactic treatment with FFT may offer a means to reduce morbidity, yet larger studies are required to document effect size.

Published
2023
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16. Glucose supply and glycolysis inhibition shape the clinical fate of Staphylococcus epidermidis–infected preterm newborns

Author

Tik Muk, Anders Brunse, Nicole L. Henriksen, Karoline Aasmul-Olsen, and Duc Ninh Nguyen

Subjects
Infectious disease, Inflammation, Medicine
Abstract

Preterm infants are susceptible to bloodstream infection by coagulase-negative staphylococci (CONS) that can lead to sepsis. Glucose-rich parenteral nutrition is commonly used to support the infants’ growth and energy expenditure but may exceed endogenous regulation during infection, causing dysregulated immune response and clinical deterioration. Using a preterm piglet model of neonatal CONS sepsis induced by Staphylococcus epidermidis (S. epidermidis) infection, we demonstrate the delicate interplay between immunity and glucose metabolism to regulate the host infection response. Circulating glucose levels, glycolysis, and inflammatory response to infection are closely connected across the states of tolerance, resistance, and immunoparalysis. Furthermore, high parenteral glucose provision during infection induces hyperglycemia, elevated glycolysis, and inflammation, leading to metabolic acidosis and sepsis, whereas glucose-restricted individuals are clinically unaffected with increased gluconeogenesis to maintain moderate hypoglycemia. Finally, standard glucose supply maintaining normoglycemia or pharmacological glycolysis inhibition enhances bacterial clearance and dampens inflammation but fails to prevent sepsis. Our results uncover how blood glucose and glycolysis control circulating immune responses, in turn determining the clinical fate of preterm infants infected with CONS. Our findings suggest further refinements of the current practice of parenteral glucose supply for preterm infants during infection.

Published
2022
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18. Delayed Gut Colonization Changes Future Insulin Resistance and Hepatic Gene Expression but Not Adiposity in Obese Mice

Author

Ebert, Maria B. B., Mentzel, Caroline M. J., Brunse, Anders, Krych, Lukasz, Hansen, Camilla H. F., Ebert, Maria B. B., Mentzel, Caroline M. J., Brunse, Anders, Krych, Lukasz, and Hansen, Camilla H. F.

Abstract

Objective: The importance of early microbial dysbiosis in later development of obesity and metabolic disorders has been a subject of debate. Here we tested cause and effect in mice. Methods: Germ-free male Swiss Webster mice were colonized in a specific-pathogen-free (SPF) facility at 1 week (1W) and 3 weeks (3W) of age. They were challenged with a high-fat diet and their responses were compared with SPF mice. Gut microbiota was analyzed by 16S rRNA gene sequencing. Moreover, RNA sequencing of the liver was performed on additional 3W and SPF mice on a regular chow diet. Results: There were no significant differences in weight, food consumption, epididymal fat weight, HbA1c levels, and serum insulin and leptin, whereas the early germ-free period resulted in mice with impaired glucose tolerance. Both the 1W and 3W group peaked 56% (p < 0.05) and 66% (p < 0.01) higher in blood glucose than the SPF control group, respectively. This was accompanied by a 45% reduction in the level of the anti-inflammatory cytokine IL-10 in the 1W mice (p < 0.05). There were no differences in the gut microbiota between the groups, indicating that all mice colonized fully after the germ-free period. Marked effects on hepatic gene expression (728 differentially expressed genes with adjusted p < 0.05 and a fold change ± 1.5) suggested a potential predisposition to a higher risk of developing insulin resistance in the 3W group. Conclusions: Lack of microbes early in life had no impact on adiposity but led to insulin resistance and altered liver gene expression related to glucose metabolism in mice. The study strongly supports the notion that microbial signaling to the liver in the beginning of life can alter the host's risk of developing metabolic disorder later in life.

Published
2024

19. Fecal virus-like particles are sufficient to reduce necrotizing enterocolitis

Author

Offersen, Simone Margaard, Mao, Xiaotian, Spiegelhauer, Malene Roed, Larsen, Frej, Li, Viktoria Rose, Sandris Nielsen, Dennis, Aunsholt, Lise, Thymann, Thomas, Brunse, Anders, Offersen, Simone Margaard, Mao, Xiaotian, Spiegelhauer, Malene Roed, Larsen, Frej, Li, Viktoria Rose, Sandris Nielsen, Dennis, Aunsholt, Lise, Thymann, Thomas, and Brunse, Anders

Abstract

Fecal filtrate transfer (FFT) is emerging as a safer alternative to traditional fecal microbiota transplantation (FMT)–particularly in the context of necrotizing enterocolitis (NEC), a severe gastrointestinal condition affecting preterm infants. Using a preterm piglet model, FFT has demonstrated superiority over FMT in safety and NEC prevention. Since FFT is virtually devoid of bacteria, prokaryotic viruses (bacteriophages) are assumed to mediate the beneficial effects. However, this assumption remains unproven. To address this gap, we separated virus-like particles (30 kDa to 0.45 µm) of donor feces from the residual postbiotic fluid. We then compared clinical and gut microbiota responses to these fractions with the parent FFT solution after transferring them to NEC-susceptible preterm piglets. Virome transfer was equally effective as FFT in reducing the severity of NEC-like pathology. The bacterial compositional data corroborated clinical findings as virome transfer reduced the relative abundance of several NEC-associated pathogens e.g. Klebsiella pneumoniae and Clostridium perfringens. Virome transfer diversified gut viral communities with concomitant constraining effects on the bacterial composition. Unexpectedly, virome transfer, but not residual postbiotic fluid, led to earlier diarrhea. While diarrhea may be a minor concern in human infants, future work should identify ways of eliminating this side effect without losing treatment efficacy.

Published
2024

20. A Gently Processed Skim Milk-Derived Whey Protein Concentrate for Infant Formula:Effects on Gut Development and Immunity in Preterm Pigs

Author

Aasmul-Olsen, Karoline, Akıllıoğlu, Halise Gül, Christiansen, Line Iadsatian, Engholm-Keller, Kasper, Brunse, Anders, Stefanova, Denitsa Vladimirova, Bjørnshave, Ann, Bechshøft, Mie Rostved, Skovgaard, Kerstin, Thymann, Thomas, Sangild, Per Torp, Lund, Marianne Nissen, Bering, Stine Brandt, Aasmul-Olsen, Karoline, Akıllıoğlu, Halise Gül, Christiansen, Line Iadsatian, Engholm-Keller, Kasper, Brunse, Anders, Stefanova, Denitsa Vladimirova, Bjørnshave, Ann, Bechshøft, Mie Rostved, Skovgaard, Kerstin, Thymann, Thomas, Sangild, Per Torp, Lund, Marianne Nissen, and Bering, Stine Brandt

Abstract

Scope: Processing of whey protein concentrate (WPC) for infant formulas may induce protein modifications with severe consequences for preterm newborn development. The study investigates how conventional WPC and a gently processed skim milk-derived WPC (SPC) affect gut and immune development after birth. Methods and results: Newborn, preterm pigs used as a model of preterm infants were fed formula containing WPC, SPC, extra heat-treated SPC (HT-SPC), or stored HT-SPC (HTS-SPC) for 5 days. SPC contained no protein aggregates and more native lactoferrin, and despite higher Maillard reaction product (MRP) formation, the clinical response and most gut and immune parameters are similar to WPC pigs. SPC feeding negatively impacts intestinal MRP accumulation, mucosa, and bacterial diversity. In contrast, circulating T-cells are decreased and oxidative stress- and inflammation-related genes are upregulated in WPC pigs. Protein aggregation and MRP formation increase in HTS-SPC, leading to reduced antibacterial activity, lactase/maltase ratio, circulating neutrophils, and cytotoxic T-cells besides increased gut MRP accumulation and expression of TNFAIP3. Conclusion: The gently processed SPC has more native protein, but higher MRP levels than WPC, resulting in similar tolerability but subclinical adverse gut effects in preterm pigs. Additional heat treatment and storage further induce MRP formation, gut inflammation, and intestinal mucosal damage.

Published
2024

21. A Gently Processed Skim Milk-Derived Whey Protein Concentrate for Infant Formula: Effects on Gut Development and Immunity in Preterm Pigs

Author

Aasmul-Olsen, Karoline, Akıllıoğlu, Halise Gül, Christiansen, Line Iadsatian, Engholm-Keller, Kasper, Brunse, Anders, Stefanova, Denitsa Vladimirova, Bjørnshave, Ann, Bechshøft, Mie Rostved, Skovgaard, Kerstin, Thymann, Thomas, Sangild, Per Torp, Lund, Marianne Nissen, Bering, Stine Brandt, Aasmul-Olsen, Karoline, Akıllıoğlu, Halise Gül, Christiansen, Line Iadsatian, Engholm-Keller, Kasper, Brunse, Anders, Stefanova, Denitsa Vladimirova, Bjørnshave, Ann, Bechshøft, Mie Rostved, Skovgaard, Kerstin, Thymann, Thomas, Sangild, Per Torp, Lund, Marianne Nissen, and Bering, Stine Brandt

Abstract

Scope: Processing of whey protein concentrate (WPC) for infant formulas may induce protein modifications with severe consequences for preterm newborn development. The study investigates how conventional WPC and a gently processed skim milk-derived WPC (SPC) affect gut and immune development after birth. Methods and results: Newborn, preterm pigs used as a model of preterm infants were fed formula containing WPC, SPC, extra heat-treated SPC (HT-SPC), or stored HT-SPC (HTS-SPC) for 5 days. SPC contained no protein aggregates and more native lactoferrin, and despite higher Maillard reaction product (MRP) formation, the clinical response and most gut and immune parameters are similar to WPC pigs. SPC feeding negatively impacts intestinal MRP accumulation, mucosa, and bacterial diversity. In contrast, circulating T-cells are decreased and oxidative stress- and inflammation-related genes are upregulated in WPC pigs. Protein aggregation and MRP formation increase in HTS-SPC, leading to reduced antibacterial activity, lactase/maltase ratio, circulating neutrophils, and cytotoxic T-cells besides increased gut MRP accumulation and expression of TNFAIP3. Conclusions: The gently processed SPC has more native protein, but higher MRP levels than WPC, resulting in similar tolerability but subclinical adverse gut effects in preterm pigs. Additional heat treatment and storage further induce MRP formation, gut inflammation, and intestinal mucosal damage.

Published
2024

23. A Gently Processed Skim Milk‐Derived Whey Protein Concentrate for Infant Formula: Effects on Gut Development and Immunity in Preterm Pigs

Author

Aasmul‐Olsen, Karoline, primary, Akıllıoğlu, Halise Gül, additional, Christiansen, Line Iadsatian, additional, Engholm‐Keller, Kasper, additional, Brunse, Anders, additional, Stefanova, Denitsa Vladimirova, additional, Bjørnshave, Ann, additional, Bechshøft, Mie Rostved, additional, Skovgaard, Kerstin, additional, Thymann, Thomas, additional, Sangild, Per Torp, additional, Lund, Marianne Nissen, additional, and Bering, Stine Brandt, additional

Published
2024
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24. Fecal virome is sufficient to reduce necrotizing enterocolitis

Author

Offersen, Simone Margaard, primary, Mao, Xiaotian, additional, Spiegelhauer, Malene Roed, additional, Larsen, Frej, additional, Li, Viktoria Rose, additional, Nielsen, Dennis Sandris, additional, Aunsholt, Lise, additional, Thymann, Thomas, additional, and Brunse, Anders, additional

Published
2024
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27. Co-bedding of Preterm Newborn Pigs Reduces Necrotizing Enterocolitis Incidence Independent of Vital Functions and Cortisol Levels

Author

Anders Brunse, Yueming Peng, Yanqi Li, Jens Lykkesfeldt, and Per Torp Sangild

Subjects
necrotizing enterocolitis, skin-to-skin care, co-bedding, hydrocortisone, preterm (birth), Pediatrics, RJ1-570
Abstract

Background: Preterm infants are born with immature organs, leading to morbidities such as necrotizing enterocolitis (NEC), a gut inflammatory disease associated with adverse feeding responses but also hemodynamic and respiratory instability. Skin-to-skin contact including “kangaroo care” may improve infant survival and health via improved vital functions (e.g., pulmonary, cardiovascular) and endocrine influences by adrenal glucocorticoids. Clinical effects of skin-to-skin contact for newborn siblings (“co-bedding”) are not known. Using NEC-susceptible Preterm pigs as models, we hypothesized that co-bedding and exogenous glucocorticoids improve vital functions and NEC resistance.Methods: In experiment 1, cesarean-delivered, formula-fed Preterm pigs were reared in incubators with (co-bedding, COB, n = 30) or without (single-bedding, SIN, n = 29) a sibling until euthanasia and tissue collection on day four. In experiment 2, single-bedded Preterm pigs were treated postnatally with a tapering dose of hydrocortisone (HC, n = 19, 1–3 mg/kg/d) or saline (CON, n = 19).Results: Co-bedding reduced NEC incidence (38 vs. 65%, p < 0.05) and increased the density of colonic goblet cells (+20%, p < 0.05) but had no effect on pulmonary and cardiovascular functions (respiration, blood pressure, heart rate, blood gases) or cortisol levels. There were limited differences in intestinal villous architecture and digestive enzyme activities. In experiment 2, HC treatment increased NEC lesions in the small intestine without any effects on pulmonary or cardiovascular functions.Conclusion: Co-bedding may improve gut function and NEC resistance independently of cardiorespiratory function and cortisol levels, but pharmacological cortisol treatment predispose to NEC. Preterm pigs may be a useful tool to better understand the physiological effects of co-bedding, neonatal stressors and their possible interactions with morbidities in Preterm neonates.

Published
2021
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28. Enteral broad-spectrum antibiotics antagonize the effect of fecal microbiota transplantation in preterm pigs

Author

Anders Brunse, Simone Margaard Offersen, Josefine Juliane Mosegaard, Ling Deng, Peter Damborg, Dennis Sandris Nielsen, Per Torp Sangild, Thomas Thymann, and Duc Ninh Nguyen

Subjects
gut microbiota, antibiotics, fecal microbiota transplantation, prematurity, necrotizing enterocolitis, antibiotics resistance, immunity, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Preterm infants are at risk of multiple morbidities including necrotizing enterocolitis (NEC). Suspected NEC patients receive intravenous antibiotics (AB) to prevent sepsis, although enteral AB is arguably more effective at reducing NEC but is rarely used due to the risk of AB resistance. Fecal microbiota transplantation (FMT) has shown protective effects against NEC in animal experiments, but the interaction between AB and FMT has not been investigated in neonates. We hypothesized that administration of enteral AB followed by rectal FMT would effectively prevent NEC with negligible changes in AB resistance and systemic immunity. Using preterm piglets, we examined host and gut microbiota responses to AB, FMT, or a sequential combination thereof, with emphasis on NEC development. In a saline-controlled experiment, preterm piglets (n = 67) received oro-gastric neomycin (50 mg/kg/d) and amoxicillin-clavulanate (50/12.5 mg/kg/d) (hereafter AB) for four days after cesarean delivery, and were subsequently given rectal FMT from healthy suckling piglet donors. Whereas AB protected the stomach and small intestine, and FMT primarily protected the colon, the sequential combination treatment surprisingly provided no NEC protection. Furthermore, minor changes in the gut microbiota composition were observed in response to either treatment, although AB treatment decreased species diversity and increased AB resistance among coliform bacteria and Enterococci, which were both partly reversed by FMT. Besides, enteral AB treatment suppressed cellular and functional systemic immune development, which was not prevented by subsequent FMT. We discovered an antagonistic relationship between enteral AB and FMT in terms of NEC development. The outcome may depend on choice of AB compounds, FMT composition, doses, treatment duration, and administration routes, but these results challenge the applicability of enteral AB and FMT in preterm infants.

Published
2021
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29. Impaired Neonatal Immunity and Infection Resistance Following Fetal Growth Restriction in Preterm Pigs

Author

Ole Bæk, Shuqiang Ren, Anders Brunse, Per Torp Sangild, and Duc Ninh Nguyen

Subjects
preterm, infant, small for gestation age, fetal growth restriction, immunity, neonatal sepsis, Immunologic diseases. Allergy, RC581-607
Abstract

Background: Infants born preterm or small for gestational age (SGA, due to fetal growth restriction) both show an increased risk of neonatal infection. However, it remains unclear how the co-occurrence of preterm birth and SGA may affect neonatal immunity and infection risk. We hypothesized that fetal growth restricted (FGR) preterm newborns possess impaired immune competence and increased susceptibility to systemic infection and sepsis, relative to corresponding normal birth weight (NBW) newborns.Methods: Using preterm pigs as a model for preterm infants, gene expression in lipopolysaccharide (LPS) stimulated cord blood was compared between NBW and FGR (lowest 25% birth weight percentile) preterm pigs. Next, clinical responses to a systemic Staphylococcus epidermidis (SE) challenge were investigated in newborn FGR and NBW preterm pigs. Finally, occurrence of spontaneous infections were investigated in 9 d-old FGR and NBW preterm pigs, with or without neonatal antibiotics treatment.Results: At birth, preterm FGR piglets showed diminished ex vivo cord blood responses to LPS for genes related to both innate and adaptive immunity, and also more severe septic responses following SE infection (e.g., higher blood lactate, decreased blood pH, neutrophil and platelet counts, relative to NBW pigs). After 9 d, FGR pigs had higher incidence and severity of spontaneous infections (e.g., higher bacterial densities in the bone marrow), increased regulatory T cell numbers, reduced neutrophil phagocytosis capacity, and impaired ex vivo blood gene responses to LPS, especially when receiving neonatal antibiotics.Conclusion: FGR at preterm birth is associated with poor immune competence, impaired infection resistance, and greater sepsis susceptibility in the immediate postnatal period. Our results may explain the increased morbidity and mortality of SGA preterm infants and highlight the need for clinical vigilance for this highly sensitive subgroup of preterm neonates.

Published
2020
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30. Diet Modulates the High Sensitivity to Systemic Infection in Newborn Preterm Pigs

Author

Ole Bæk, Anders Brunse, Duc Ninh Nguyen, Arshnee Moodley, Thomas Thymann, and Per Torp Sangild

Subjects
sepsis, bacteremia, preterm, infant, diet, immunity, Immunologic diseases. Allergy, RC581-607
Abstract

Background: Preterm infants are born with an immature immune system, limited passive immunity, and are at risk of developing bacteremia and sepsis in the postnatal period. We hypothesized that enteral feeding, with or without added immunoglobulins, improves the clinical response to systemic infection by coagulase negative staphylococci.Methods: Using preterm cesarean delivered pigs as models for preterm infants, we infused live Staphylococcus epidermidis (SE, 5 × 109 colony forming units per kg) systemically 0–3 days after birth across five different experiments. SE infection responses were assessed following different gestational age at birth (preterm vs. term), enteral milk diets (bovine colostrum, infant formula with or without added porcine plasma) and with/without systemic immunoglobulins. Pigs infected with SE were assessed 12–48 h for clinical variables, blood bacteriology, chemistry, hematology, and gut dysfunction (intestinal permeability, necrotizing enterocolitis lesions).Results: Adverse clinical responses and increased mortality were observed in preterm vs. term pigs, when infected with SE just after birth. Feeding bovine colostrum just after birth improved blood SE clearance and clinical status (improved physical activity and intestinal structure, fewer bone marrow bacteria), relative to pigs fed infant formula. A few days later, clinical responses to SE bacteremia (hematology, neutrophil phagocytic capacity, T cell subsets) were less severe, and less affected by different milk diets, with or without added immunoglobulins.Conclusion: Prematurity increases the sensitivity of newborn pigs to SE bacteremia, potentially causing sepsis. Sensitivity to systemic SE infection decreases rapidly in the days after preterm birth. Both age and diet (parenteral nutrition, colostrum, milk, formula) may influence gut inflammation, bacterial translocation and systemic immune development in the days after birth in preterm newborns.

Published
2020
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35. Rapid Proteome Changes in Plasma and Cerebrospinal Fluid Following Bacterial Infection in Preterm Newborn Pigs

Author

Tik Muk, Allan Stensballe, Stanislava Pankratova, Duc Ninh Nguyen, Anders Brunse, Per Torp Sangild, and Ping-Ping Jiang

Subjects
Gram-positive infection, proteomics, CSF, plasma, neuroinflammation, sepsis, Immunologic diseases. Allergy, RC581-607
Abstract

Background: Neonatal infection and sepsis are common for preterm infants due to their immature immune system. Early diagnosis is important for effective treatment, but few early markers of systemic and neuro-inflammatory responses in neonates are known. We hypothesised that systemic infection with Staphylococcus epidermidis (SE), a Gram-positive bacteria, induces acute changes to proteins in the plasma and cerebrospinal fluid (CSF), potentially affecting the immature brain of preterm neonates.Methods: Using preterm pigs as a model for preterm infants, plasma and CSF samples were collected up to 24 h after SE infection and investigated by untargeted mass spectrometry (MS)-based proteomics. Multiple differentially expressed proteins were further studied in vitro.Results: The clinical signs of sepsis and neuroinflammation in SE-infected piglets were associated with changes of multiple CSF and plasma proteins. Eight plasma proteins, including APOA4, haptoglobin, MBL1, vWF, LBP, and sCD14, were affected 6 h after infection. Acute phase reactants, including complement components, showed a time-dependent activation pattern after infection. Feeding bovine colostrum reduced the sepsis-related changes in clinical indices and plasma proteins. Neuroinflammation-related neuropeptide Y (NPY), IL-18, and MMP-14 showed distinct changes in the CSF and several brain regions (the prefrontal cortex, PVWM, and hippocampus) 24 h after infection. These changes were verified in TLR2 agonist-challenged primary microglia cells, where exogenous NPY suppressed the inflammatory response.Conclusion: Systemic infection with SE induces inflammation with rapid proteome changes in the plasma and CSF in preterm newborn pigs. The observed early markers of sepsis and neuroinflammation in preterm pigs may serve as novel biomarkers for sepsis in preterm infants.

Published
2019
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37. When the Gut Goes MIA

Author

Hansen, Camilla Hartmann Friis, Brunse, Anders, Li, Viktoria Rose, Hansen, Camilla Hartmann Friis, Brunse, Anders, and Li, Viktoria Rose

Published
2023

38. Fecal virome transfer improves proliferation of commensal gut Akkermansia muciniphila and unexpectedly enhances the fertility rate in laboratory mice

Author

Rasmussen, Torben Sølbeck, Mentzel, Caroline M.Junker, Danielsen, Malene Refslund, Jakobsen, Rasmus Riemer, Zachariassen, Line Sidsel Fisker, Castro Mejia, Josue Leonardo, Brunse, Anders, Hansen, Lars Hestbjerg, Hansen, Camilla Hartmann Friis, Hansen, Axel Kornerup, Nielsen, Dennis Sandris, Rasmussen, Torben Sølbeck, Mentzel, Caroline M.Junker, Danielsen, Malene Refslund, Jakobsen, Rasmus Riemer, Zachariassen, Line Sidsel Fisker, Castro Mejia, Josue Leonardo, Brunse, Anders, Hansen, Lars Hestbjerg, Hansen, Camilla Hartmann Friis, Hansen, Axel Kornerup, and Nielsen, Dennis Sandris

Abstract

Probiotics are intended to improve gastrointestinal health when consumed. However, the probiotics marketed today only colonize the densely populated gut to a limited extent. Bacteriophages comprise the majority of viruses in the human gut virome and there are strong indications that they play important roles in shaping the gut microbiome. Here, we investigate the use of fecal virome transplantation (FVT, sterile filtrated feces) as a mean to alter the gut microbiome composition to lead the way for persistent colonization of two types of probiotics: Lacticaseibacillus rhamnosus GG (LGG) representing a well-established probiotic and Akkermansia muciniphila (AKM) representing a putative next-generation probiotic. Male and female C57BL/6NTac mice were cohoused in pairs from 4 weeks of age and received the following treatment by oral gavage at week 5 and 6: AKM+FVT, LGG+FVT, probiotic sham (Pro-sham)+FVT, LGG+Saline, AKM+Saline, and control (Pro-sham+Saline). The FVT donor material originated from mice with high relative abundance of A. muciniphila. All animals were terminated at age 9 weeks. The FVT treatment did not increase the relative abundance of the administered LGG or AKM in the recipient mice. Instead FVT significantly (p < 0.05) increased the abundance of naturally occurring A.muciniphila compared to the control. This highlights the potential of propagating the existing commensal “probiotics” that have already permanently colonized the gut. Being co-housed male and female, a fraction of the female mice became pregnant. Unexpectedly, the FVT treated mice were found to have a significantly (p < 0.05) higher fertility rate independent of probiotic administration. These preliminary observations urge for follow-up studies investigating interactions between the gut microbiome and fertility.

Published
2023

39. Effects of early postnatal gastric and colonic microbiota transplantation on piglet gut health

Author

Larsen, Christina, Offersen, Simone Margaard, Brunse, Anders, Pirolo, Mattia, Kar, Soumya Kanti, Guadabassi, Luca, Thymann, Thomas, Larsen, Christina, Offersen, Simone Margaard, Brunse, Anders, Pirolo, Mattia, Kar, Soumya Kanti, Guadabassi, Luca, and Thymann, Thomas

Abstract

Background: Diarrhea is a major cause of reduced growth and mortality in piglets during the suckling and weaning periods and poses a major threat to the global pig industry. Diarrhea and gut dysbiosis may in part be prevented via improved early postnatal microbial colonization of the gut. To secure better postnatal gut colonization, we hypothesized that transplantation of colonic or gastric content from healthy donors to newborn recipients would prevent diarrhea in the recipients in the post-weaning period. Our objective was to examine the impact of transplanting colonic or gastric content on health and growth parameters and paraclinical parameters in recipient single-housed piglets exposed to a weaning transition and challenged with enterotoxigenic Escherichia coli (ETEC). Methods: Seventy-two 1-day-old piglets were randomized to four groups: colonic microbiota transplantation (CMT, n = 18), colonic content filtrate transplantation (CcFT, n = 18), gastric microbiota transplantation (GMT, n = 18), or saline (CON, n = 18). Inoculations were given on d 2 and 3 of life, and all piglets were milk-fed until weaning (d 20) and shortly after challenged with ETEC (d 24). We assessed growth, diarrhea prevalence, ETEC concentration, organ weight, blood parameters, small intestinal morphology and histology, gut mucosal function, and microbiota composition and diversity. Results: Episodes of diarrhea were seen in all groups during both the milk- and the solid-feeding phase, possibly due to stress associated with single housing. However, CcFT showed lower diarrhea prevalence on d 27, 28, and 29 compared to CON (all P < 0.05). CcFT also showed a lower ETEC prevalence on d 27 (P < 0.05). CMT showed a higher alpha diversity and a difference in beta diversity compared to CON (P < 0.05). Growth and other paraclinical endpoints were similar across groups. Conclusion: In conclusion, only CcFT reduced ETEC-related post-weaning diarrhea. However, the protective effect was marginal, sugge

Published
2023

40. Transplantation of fecal filtrate to neonatal pigs reduces post-weaning diarrhea:A pilot study

Author

Larsen, Christina, Andersen, Amanda B., Sato, Helena, Brunse, Anders, Thymann, Thomas, Larsen, Christina, Andersen, Amanda B., Sato, Helena, Brunse, Anders, and Thymann, Thomas

Abstract

Post-weaning diarrhea (PWD) remains a major source of mortality and morbidity in swine production. Transplantation of bacteria-free filtrate of feces (fecal filtrate transplant, FFT) has shown gut protective effects in neonatal pigs, and early postnatal establishment of the gut microbiome is suggested to determine later stability and robustness of the gut. We, therefore, hypothesized that early postnatal transplantation of bacteria-free feces would have a protective effect against PWD. Using fecal filtrates derived from healthy lactating sows, we compared oral administration of fecal filtrate transplantation (FFT, n = 20) and saline (CON, n = 18) in newborn piglets. We assessed growth, diarrhea prevalence, blood parameters, organ measurements, morphology, and gut brush border enzymes and analyzed luminal bacterial composition using 16S rRNA gene amplicon sequencing. The two groups showed similar average daily gain (ADG) during the suckling period, whereas in the post-weaning period, a negative ADG was observed in both groups. While diarrhea was largely absent in both groups before weaning, there was a lower diarrhea prevalence on days 27 (p = 2.07*10−9), 28 (p = 0.04), and 35 (p = 0.04) in the FFT group relative to CON. At weaning on day 27, the FFT group had higher numbers of red blood cells, monocytes, and lymphocytes, while on day 35, i.e., 1 week after weaning, the two groups were similar regarding hematology. The biochemical profile was largely similar between FFT and CON on days 27 and 35, except for a higher level of alanine aminotransferase and a lower level of Mg in the FFT group. Likewise, organ weights relative to body weight were largely similar on day 35, albeit with a lower stomach weight and more colon content in FFT relative to CON. Gut mucosal percentage and mucosal enzyme activity were similar between the two groups on days 27 and 35. Gut bacterial composition was slightly different on day 35 but not on day 27. In conclusio

Published
2023

41. Fecal virome transfer improves proliferation of commensal gut Akkermansia muciniphila and unexpectedly enhances the fertility rate in laboratory mice

Author

Rasmussen, Torben Sølbeck, primary, Mentzel, Caroline M. Junker, additional, Danielsen, Malene Refslund, additional, Jakobsen, Rasmus Riemer, additional, Zachariassen, Line Sidsel Fisker, additional, Castro Mejia, Josue Leonardo, additional, Brunse, Anders, additional, Hansen, Lars Hestbjerg, additional, Hansen, Camilla Hartmann Friis, additional, Hansen, Axel Kornerup, additional, and Nielsen, Dennis Sandris, additional

Published
2023
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42. A reproducible enteric phage community improves blood glucose regulation in an obesity mouse model

Author

Xiaotian Mao, Sabina Birgitte Larsen, Line Sidsel Fisker Zachariassen, Anders Brunse, Signe Adamberg, Josue Leonardo Castro Mejia, Kaarel Adamberg, Dennis Sandris Nielsen, Axel Kornerup Hansen, Camilla Hartmann Friis Hansen, and Torben Sølbeck Rasmussen

Abstract

IntroductionRecent evidence suggest a link between gut microbiome dysbiosis and metabolic syndrome, including type-2-diabetes, obesity, and non-alcoholic fatty liver disease (NAFLD). Fecal microbiota transplantation (FMT) has been explored as a way to restore a healthy gut microbiome in obese patients but poses safety concerns. The wide use of FMT is limited by safety concerns about transferring the entire fecal microbiome from one individual to another. Fecal virome transplantation (FVT) is a safer alternative that transfers bacteriophages without bacterial transfer, but still carries the risk of eukaryotic virus infection. Therefore, a safer and more effective tool for modulating gut microbiome is needed.MethodsWe explored the potential of implementing three alternative FVT techniques with increased safety established in a recent study (eukaryotic viruses were either eliminated or inactivated) to ameliorate symptoms associated with a diet-induced obesity mouse model. Male mice were fed with anad libitumhigh-fat diet before being euthanized (23 weeks of age) and received the different FVT treatments twice with one week of interval. Body weight was measured, oral glucose tests were performed, feces were sampled frequently, and liver, fat pads, mesenteric lymph node, and blood serum were sampled at termination of study.ResultsFVT treatments had no effect on weight gain or the amount of epididymal white adipose tissue. Mice given regular untreated FVT (FVT-UnT) had a significant (p < 0.05) drop in the pathological score of their liver tissue when compared to HFD-control mice. Mice treated with a chemostat propagated fecal virome (FVT-ChP, eukaryotic viruses eliminated by dilution) improved their blood glucose regulation significantly (p < 0.05) compared to HFD-control mice. Gut microbiome analysis of both the bacterial and viral component suggested that bacteriophage-mediated modulation of the gut microbiome could be a driving factor for the observed effects.ConclusionsThese results may lay the ground to develop safer bacteriophage-based therapeutic tools to restore the dysbiotic gut microbiome associated with metabolic syndrome.

Published
2023
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43. Development of safe and effective bacteriophage-mediated therapies againstC. difficileinfections – a proof-of-concept preclinical study

Author

Torben Sølbeck Rasmussen, Sarah Forster, Sabina Birgitte Larsen, Alexandra Von Münchow, Kaare Dyekær Tranæs, Anders Brunse, Josue Leonardo Castro Mejia, Signe Adamberg, Axel Kornerup Hansen, Kaarel Adamberg, Camilla Hartmann Friis Hansen, and Dennis Sandris Nielsen

Abstract

Fecal microbiota transplantation (FMT) from a healthy donor to recurrentC. difficileinfection (CDI) patients has proven efficient in curing the disease, possibly through bacteriophage-mediated (phages) modulation of the gut microbiome landscape. Fecal virome transplantation (FVT, sterile filtrated donor feces) has also been shown efficient for treating the disease. FVT has the advantage over FMT that no bacteria are transferred, but FVT does not exclude the risk of transferring eukaryotic viruses. We aimed to develop methodologies to obtain safer FVT by removing and/or inactivating eukaryotic viruses, while maintaining an active phage community. Donor feces were used as inoculum for a chemostat-fermentation to remove eukaryotic viruses by dilution (FVT-ChP). FVT solutions underwent solvent-detergent treatment to inactivate enveloped viruses (FVT-SDT) and pyronin-Y treatment to block the replication of RNA-viruses (FVT-PyT). The efficacy of these treatments was assessed in a CDI mouse model and compared with untreated FVT (FVT-UnT), FMT, and saline-treatment as controls. Intriguingly, 8/8 mice receiving FVT-SDT did not reach the humane endpoints until planned euthanization and expressed limited symptoms of CDI. While 5/7 saline treated mice reached the humane endpoint. Compared to the saline treatment, lowerC. difficileabundance (pC. difficilecolonization. The mice receiving FVT-ChP and FVT-UnT tended to express alleviated CDI symptoms compared to the saline control. This proof-of-concept study may constitute the initial step of developing therapeutic tools that targets a broad spectrum of gut-related diseases and thereby substituting FMT with a safer phage-mediated therapies.SummaryFecal viromes depleted of enveloped viruses efficiently treatClostridioides difficile-associated diarrhea in a murine model.

Published
2023
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45. A reproducible enteric phage community improves blood glucose regulation in an obesity mouse model

Author

Mao, Xiaotian, primary, Larsen, Sabina Birgitte, additional, Zachariassen, Line Sidsel Fisker, additional, Brunse, Anders, additional, Adamberg, Signe, additional, Castro-Mejia, Josue Leonardo, additional, Adamberg, Kaarel, additional, Nielsen, Dennis Sandris, additional, Hansen, Axel Kornerup, additional, Hansen, Camilla Hartmann Friis, additional, and Rasmussen, Torben Soelbeck, additional

Published
2023
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46. Development of safe and effective bacteriophage-mediated therapies against C. difficile infections a proof-of-concept preclinical study

Author

Rasmussen, Torben Soelbeck, primary, Forster, Sarah, additional, Larsen, Sabina Birgitte, additional, von Munchow, Alexandra, additional, Tranaes, Kaare Dyekaer, additional, Brunse, Anders, additional, Castro-Mejia, Josue L., additional, Adamberg, Signe, additional, Hansen, Axel Kornerup, additional, Adamberg, Kaarel, additional, Hansen, Camilla Hartmann Friis, additional, and Nielsen, Dennis Sandris, additional

Published
2023
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50. Ultra‐High Temperature Treatment and Storage of Infant Formula Induces Dietary Protein Modifications, Gut Dysfunction, and Inflammation in Preterm Pigs

Author

Sun, Jing, primary, Akıllıoğlu, Halise Gül, additional, Aasmul‐Olsen, Karoline, additional, Ye, Yuhui, additional, Lund, Pernille, additional, Zhao, Xiao, additional, Brunse, Anders, additional, Nielsen, Christian Fiil, additional, Chatterton, Dereck E. W., additional, Sangild, Per Torp, additional, Lund, Marianne N., additional, and Bering, Stine Brandt, additional

Published
2022
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