S. Murakoshi

Effects of Adding Butyric Acid to PN on Gut-Associated Lymphoid Tissue and Mucosal Immunoglobulin A Levels

BACKGROUND Parenteral nutrition (PN) causes intestinal mucosal atrophy, gut-associated lymphoid tissue (GALT) atrophy and dysfunction, leading to impaired mucosal immunity and increased susceptibility to infectious complications. Therefore, new PN formulations are needed to maintain mucosal immunity. Short-chain fatty acids have been demonstrated to exert beneficial effects on the intestinal mucosa. We examined the effects of adding butyric acid to PN on GALT lymphocyte numbers, phenotypes, mucosal immunoglobulin A (IgA) levels, and intestinal morphology in mice. METHODS Male Institute of Cancer Research mice (n = 103) were randomized to receive either standard PN (S-PN), butyric acid-supplemented PN (Bu-PN), or ad libitum chow (control) groups. The mice were fed these respective diets for 5 days. In experiment 1, cells were isolated from Peyers patches (PPs) to determine lymphocyte numbers and phenotypes (αβTCR(+), γδTCR(+), CD4(+), CD8(+), B220(+) cells). IgA levels in small intestinal washings were also measured. In experiment 2, IgA levels in respiratory tract (bronchoalveolar and nasal) washings were measured. In experiment 3, small intestinal morphology was evaluated. RESULTS Lymphocyte yields from PPs and small intestinal, bronchoalveolar, and nasal washing IgA levels were all significantly lower in the S-PN group than in the control group. Bu-PN moderately, but significantly, restored PP lymphocyte numbers, as well as intestinal and bronchoalveolar IgA levels, as compared with S-PN. Villous height and crypt depth in the small intestine were significantly decreased in the S-PN group vs the control group, however Bu-PN restored intestinal morphology. CONCLUSIONS A new PN formula containing butyric acid is feasible and would ameliorate PN-induced impairment of mucosal immunity.

Enteral nutrition rapidly reverses total parenteral nutrition-induced impairment of hepatic immunity in a murine model

BACKGROUND & AIMS Total parenteral nutrition (TPN) impairs host immunocompetence, a mechanism possibly underlying the high morbidity of infectious complications in critically ill patients. Our recent study demonstrated TPN to reduce the number and function of hepatic mononuclear cells (MNCs) and to worsen survival after intraportal Pseudomonas challenge in mice. The present study examined the duration of enteral nutrition (EN) needed to reverse TPN-induced changes in hepatic MNCs in a murine model. METHODS Male ICR mice (6 weeks) received 5 days of TPN followed by 0 (TPN), 12 (EN12), 24 (EN24), 48 (EN48) or 72 (EN72)h of chow feeding. Control mice (Control) were given chow with intravenous saline infusions for 5 days. After nutritional support, hepatic MNCs were isolated and counted. Lipopolysaccharide (LPS) receptor expressions (CD14 and TLR4/MD2) on Kupffer cells were analyzed by flowcytometry. In addition, TPN, EN12, EN48 and control mice were given intraportal Pseudomonas challenge and survival was monitored. RESULTS The TPN group was significantly lower in hepatic MNC number and LPS receptor expressions than the Control group. However, EN quickly reversed TPN-induced hepatic impairments in MNC loss within 12h, CD14 expression within 48 h and TLR4/MD2 expression within 24h. Survival of the EN48 group was significantly improved as compared with the TPN and EN12 groups. CONCLUSIONS EN rapidly reverses TPN-induced impairment of hepatic immunity along with increased hepatic MNC numbers and LPS receptor expressions on Kupffer cells.

Enteral Refeeding Rapidly Restores PN-Induced Reduction of Hepatic Mononuclear Cell Number Through Recovery of Small Intestine and Portal Vein Blood Flows

BACKGROUND Absence of enteral nutrition (EN) reduces hepatic mononuclear cell (MNC) numbers and impairs their functions. However, enteral refeeding (ER) for as little as 12 hours following parenteral nutrition (PN) rapidly restores hepatic MNC numbers. We hypothesized that changes in small intestine and portal vein blood flows related to feeding route might be responsible for this phenomenon. METHODS In experiment 1, mice (n = 19) were randomized to Chow (n = 5), PN (n = 7) or ER (n = 7) groups. The Chow group was given chow ad libitum with intravenous (IV) saline for 5 days. The PN group was fed parenterally for 5 days, while the ER group was re-fed with chow for 12 hours following 5 days of PN. Then, small intestine and portal vein blood flows were monitored and hepatic MNCs were isolated and counted. In experiment 2, the effects of intravenous administration of prostaglandin E(1) (PGE(1)) on hepatic MNC numbers were examined in fasted mice for 12 hours. Mice (n = 28) were randomized to Control (n = 8), PG0 (n = 10), or PG1 (n = 10) groups. The Control group was fed chow ad libitum with IV saline, while the PG0 and PG1 groups were fasted for 12 hours with infusions, respectively, of saline and PGE(1) at 1 microg/kg/minute. Blood flows and hepatic MNC numbers were examined. RESULTS Experiment 1: ER restored PN-induced reductions in small intestine and portal vein blood flows and hepatic MNC number to the levels in the Chow group. Small intestine and portal vein blood flows correlated positively with hepatic MNC number. Experiment 2: Fasting decreased small intestine and portal vein blood flows and hepatic MNC number. However, PGE(1) restored portal vein blood flow to the level of the Control group, and moderately increased hepatic MNC number. There was a positive correlation between portal blood flow and hepatic MNC number. CONCLUSIONS Reduced small intestine and portal vein blood flows may contribute to impaired hepatic immunity in the absence of EN. ER quickly restores hepatic MNC number through recovery of blood flow in both the small intestine and the portal vein.

Interleukin-7 Treatment Reverses Parenteral Nutrition-Induced Impairment of Resistance to Bacterial Pneumonia with Increased Secretory Immunoglobulin A Levels

BACKGROUND Absence of enteral delivery of nutrients causes gut associated lymphoid tissue (GALT) atrophy and an imbalance between immunoglobulin A (IgA)-inhibiting Th1 and IgA-stimulating Th2 cytokine levels in the gut, leading to impaired mucosal immunity. We previously demonstrated exogenous IL-7 to reverse parenteral nutrition (PN)-induced GALT cell loss but not to normalize the gut cytokine imbalance or reduce secretory IgA levels, in uninjured mice. Herein, we examined effects of exogenous IL-7 during PN on survival and IgA levels after intra-tracheal bacterial challenge. METHODS Sixty-five male Institute of Cancer Research (ICR) mice were randomized to chow, PN or PN+IL-7 (1 μg/kg, administered i.v. twice a day), and jugular vein catheters were inserted. The chow and PN mice received normal saline i.v. infusions instead of IL-7. After 5 d of feeding (chow or PN) and treatment, 8 × 10(7)Pseudomonas aeruginosa were instilled intra-tracheally. Survival was observed in 41 mice, while 24 were killed at 6 h after challenge and small intestinal, nasal and bronchoalveolar washings were obtained for IgA measurement. RESULTS PN significantly reduced survival time and IgA levels in small intestine and bronchoalveolar washings compared with chow feeding. IL-7 treatment restored these parameters. Therefore, no significant differences in survival or secretory IgA levels were found between the chow and PN+IL-7 groups. CONCLUSIONS Exogenous IL-7 reverses PN-induced impairment of resistance to respiratory tract infections associated with increased secretory IgA levels.

Influences of Vagotomy on Gut Ischemia-Reperfusion Injury in Mice.

Background: How vagotomy affects host responses to gut ischemia-reperfusion (I/R) is unclear. Materials and Methods: Experiment 1: male Institute of Cancer Research mice (n = 22) were assigned to the I/R or the vago-I/R group. The I/R mice underwent 45-min superior mesenteric artery (SMA) occlusion. The vago-I/R mice received vagotomy before SMA occlusion. Survival was observed for 48 h. Experiment 2: mice (n = 55) were divided into four groups (Sham, vago, I/R, vago-I/R). Sham and vago groups did not undergo gut I/R. Mice were killed at 3 or 6 h after reperfusion, and cytokine levels in the plasma, jejunum, and ileum were evaluated. In addition, gut histology at 6 h was examined. Experiment 3: mice (n = 24) were divided into four groups as in Experiment 2. The small intestine was harvested at 3 h after reperfusion and the tissue was cultured ex vivo for 3 h. Cytokine levels of the culture supernatant were then measured. Results: Experiment 1: survival was significantly worse with vago-I/R than I/R. Experiment 2: along with severe gut injury, vago-I/R increased IL-6 and monocyte chemoattractant protein-1 (MCP-1) in plasma, IFN-&ggr; in the jejunum and MCP-1 in the ileum, as compared with I/R. Significant positive correlations were noted between plasma and intestinal levels of pro-inflammatory cytokines (IL-6, MCP-1, and TNF-&agr;). Experiment 3: MCP-1 in the jejunal culture medium was higher in the vago-I/R than in the I/R group. Conclusions: Vagotomy worsens survival after gut I/R, together with increases in pro-inflammatory cytokines in both plasma and the gut in association with severe intestinal tissue damage.

Parenteral nutrition rapidly reduces hepatic mononuclear cell numbers and lipopolysaccharide receptor expression on Kupffer cells in mice.

BACKGROUND Parenteral nutrition (PN) reduces the number of hepatic mononuclear cell (MNCs) and impairs their function, resulting in poor survival after intraportal bacterial challenge in mice. Our recent animal study demonstrated resumption of enteral nutrition after PN to rapidly restore hepatic MNC numbers (in 12 hours) and lipopolysaccharide (LPS) receptor expression on Kupffer cells (in 48 hours). The present study examined the time courses of hepatic MNC number reductions and LPS receptor expression changes in mice receiving PN. METHODS Male mice (n = 49) from the Institute of Cancer Research were divided into chow (n = 8), PN0.5 (n = 8), PN1 (n = 8), PN2 (n = 9), PN3 (n = 9), and PN5 (n = 7) groups. The chow group was given chow with an intravenous saline infusion. The PN groups were fed parenterally for 0.5, 1, 2, 3, or 5 days following the chow-feeding courses. After 7 days of nutrition support, hepatic MNCs were isolated and counted. The expression of LPS receptors on Kupffer cells was analyzed by flow cytometry. RESULTS Hepatic MNC numbers rapidly reached their lowest level in the PN0.5 and PN1 groups but were somewhat restored thereafter and remained stable after the third day, without significant differences between any 2 of the PN groups. CD14 and Toll-like receptor 4/MD-2 expressions both showed significant reductions in the PN1 group compared with the chow group and gradually decreased to their lowest levels in the PN5 group. CONCLUSIONS PN administration rapidly reduces hepatic MNC numbers and LPS receptor expression on Kupffer cells.

Cystine and Theanine Improve Survival after Gut Ischemia-Reperfusion

Background and Aim: Oral administration of cystine and theanine (CT) may modulate antioxidant glutathione (GSH) metabolism, thereby improving outcomes after gut ischemia reperfusion. Methods: Experiment 1: Institute of Cancer Research mice (n = 35) were assigned to a Vehicle (n = 11), a CT140 (n = 14), or a CT280 (n = 10) group. The CT140 and 280 groups were given CT at respective dosages of 140 and 280 mg/kg (cystine: theanine = 5: 2) once daily via gavage for 5 days. All mice underwent 75-min occlusion of the superior mesenteric artery (SMA). Survival after reperfusion was observed. Experiment 2: Mice (n = 67) were pretreated for 5 days (Vehicle: n = 24, CT280: n = 20, vehicle/sham: n = 23). The Vehicle and CT280 groups underwent 60-min SMA occlusion. Levels of GSH, the oxidized form of GSH, Glutathione-S-S-Glutathione (GSSG), and GSH-related amino acids (cysteine and glutamic acid) in the small intestine, and plasma cytokine (IL-6, IL-1β, TNFα) levels, were evaluated before (0 h), 3, 6, or 9 h after reperfusion. Results: Experiment 1: The CT280 group showed significantly better survival than the Vehicle group. Experiment 2: Gut GSSG, cysteine, and glutamic acid levels were higher in the CT280 than in the Vehicle group after reperfusion. Plasma IL-6 and TNFα levels rose more rapidly in the CT280 than in the Vehicle group. Conclusion: Oral administration of CT improves survival after gut I/R, possibly through the modulation of the GSH-redox cycle and cytokine responses.

Concerns Associated With Cleaning Robotic Surgical Instruments—Response to Wallace

Affiliations: 1. Department of Epidemiology, School of Public Health, Shahid Beheshti University of Medical Sciences, Tehran, Iran; 2. Managerial Epidemiology Research Center, Department of Public Health, School of Nursing and Midwifery, Maragheh University of Medical Sciences, Maragheh, Iran; 3. Department of Epidemiology and Biostatistics, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran. Address correspondence to Saeid Safiri, Assistant Professor of Epidemiology, Managerial Epidemiology Research Center, Department of Public Health, School of Nursing and Midwifery, Maragheh University of Medical Sciences, Maragheh, Iran (saeidsafiri@gmail.com). Infect Control Hosp Epidemiol 2017;38:1013–1014

Influence of Adding Pyrroloquinoline Quinone to Parenteral Nutrition on Gut-Associated Lymphoid Tissue

BACKGROUND Experimental intravenous (IV) parenteral nutrition (PN) diminishes gut-associated lymphoid tissue (GALT) cell number and function. PN solution cannot maintain GALT at the same level as a normal diet, even when delivered intragastrically (IG). Previous studies demonstrated pyrroloquinoline quinone (PQQ)-deficient mice to be less immunologically responsive. Because standard (STD) PN solution lacks PQQ, PQQ supplementation may prevent PN-induced GALT changes. This study was designed to determine the influence of adding PQQ to PN on GALT. METHODS In experiment 1, mice (n = 32) were randomized to chow, IV-STD-PN, and IV-PQQ-PN groups. The chow group was fed chow with the same caloric content as PN. The IV-STD-PN group received STD-PN solution, whereas the IV-PQQ-PN group was given PQQ (3 mcg/d)-enriched PN by the IV route. After 5 days of feeding, lymphocytes were isolated from the Peyers patch (PPs), intraepithelial space (IE), and lamina propria (LP) of the small intestine. GALT lymphocyte number and phenotype (αβTCR+, γδTCR+, CD4+, CD8+, B220+ cells) and intestinal immunoglobulin A (IgA) level were determined. In experiment 2, mice (n = 28) were randomized to IG-STD-PN or IG-PQQ-PN group. After IG nutrition supports, GALT mass and function were determined as in experiment 1. RESULTS The IV-PQQ-PN group showed increased PP lymphocyte number and PP CD8+ cell number compared with the IV-STD PN group. The IG-PQQ-PN group had significantly greater PP lymphocyte number and PP CD4+ cell numbers than the IG-STD-PN group. Neither IV nor IG PQQ treatment raised IgA level. CONCLUSIONS PQQ added to PN partly restores GALT mass, although its effects on GALT function remain unclear.