T7 Protein Synthesis in F′ Episome-Containing Cells: Assignment of Specific Proteins to Three Translational Groups

Synthesis of many T7 proteins is prevented in F′ episome-containing cells. In order to quantitate the degree of inhibition, we measured the activity of several T7 proteins in extracts prepared from T7-infected F⁻ and F′ cells and cells containing F factors mutant in phage inhibition [F′(PIF⁻2A) and F′(PIF⁻2A,2B)]. In addition, we were able to assign specific T7 proteins to the three translational units previously defined by polyacrylamide gel analysis of T7 proteins made in F⁻ and episome-containing cells. After T7 infection, the presence of the wild-type F′ (PIF⁺) episome led to greater than 90% inhibition of T7 DNA polymerase (product of gene 5), T7 lysozyme (gene 3.5), and gene 10 capsid protein synthesis. Nearly normal amounts of T7 RNA polymerase (gene 1) were made in these cells. T7 infection of cells containing the mutant F′ (PIF⁻2A) episome led to normal synthesis of T7 RNA polymerase and T7 DNA polymerase; T7 lysozyme was synthesized at 30% of the maximal level in these cells; T7 gene 10 capsid protein synthesis was inhibited by 90%, and T7 DNA synthesis was arrested in these cells. T7 infection of cells containing the mutant F′ (PIF⁻2A,2B) episome led to synthesis of normal levels of the enzymes assayed.     

Skewed Distribution of IL-7 Receptor-α-Expressing Effector Memory CD8+ T Cells with Distinct Functional Characteristics in Oral Squamous Cell Carcinoma

CD8⁺ T cells play important roles in anti-tumor immunity but distribution profile or functional characteristics of effector memory subsets during tumor progression are unclear. We found that, in oral squamous carcinoma patients, circulating CD8⁺ T cell pools skewed toward effector memory subsets with the distribution frequency of CCR7⁻CD45RA⁻CD8⁺ T cells and CCR7⁻ CD45RA⁺CD8⁺ T cells negatively correlated with each other. A significantly higher frequency of CD127^lo CCR7⁻CD45RA⁻CD8⁺ T cells or CCR7⁻CD45RA⁺CD8⁺ T cells among total CD8⁺ T cells was found in peripheral blood or tumor infiltrating lymphocytes, but not in regional lymph nodes. The CD127^hi CCR7⁻CD45RA⁻CD8⁺ T cells or CCR7⁻CD45RA⁺CD8⁺ T cells maintained significantly higher IFN-γ, IL-2 productivity and ex vivo proliferative capacity, while the CD127^lo CCR7⁻CD45RA⁻CD8⁺ T cells or CCR7⁻CD45RA⁺CD8⁺ T cells exhibited higher granzyme B productivity and susceptibility to activation induced cell death. A higher ratio of CCR7⁻CD45RA⁺CD8⁺ T cells to CCR7⁻CD45RA⁻CD8⁺ T cells was associated with advanced cancer staging and poor differentiation of tumor cells. Therefore, the CD127^lo CCR7⁻CD45RA⁻CD8⁺ T cells and CCR7⁻CD45RA⁺CD8⁺ T cells are functionally similar CD8⁺ T cell subsets which exhibit late differentiated effector phenotypes and the shift of peripheral CD8⁺ effector memory balance toward CCR7⁻CD45RA⁺CD8⁺ T cells is associated with OSCC progression.     

Genetic Variants Associated with Lipid Profiles in Chinese Patients with Type 2 Diabetes

Dyslipidemia is a strong risk factor for cardiovascular disease among patients with type 2 diabetes (T2D). The aim of this study was to identify lipid-related genetic variants in T2D patients of Han Chinese ancestry. Among 4,908 Chinese T2D patients who were not taking lipid-lowering medications, single nucleotide polymorphisms (SNPs) in seven genes previously found to be associated with lipid traits in genome-wide association studies conducted in populations of European ancestry (ABCA1, GCKR, BAZ1B, TOMM40, DOCK7, HNF1A, and HNF4A) were genotyped. After adjusting for multiple covariates, SNPs in ABCA1, GCKR, BAZ1B, TOMM40, and HNF1A were identified as significantly associated with triglyceride levels in T2D patients (P < 0.05). The associations between the SNPs in ABCA1 (rs3890182), GCKR (rs780094), and BAZ1B (rs2240466) remained significant even after correction for multiple testing (P = 8.85×10⁻³, 7.88×10⁻⁷, and 2.03×10⁻⁶, respectively). BAZ1B (rs2240466) also was associated with the total cholesterol level (P = 4.75×10⁻²). In addition, SNP rs157580 in TOMM40 was associated with the low-density lipoprotein cholesterol level (P = 6.94×10⁻³). Our findings confirm that lipid-related genetic loci are associated with lipid profiles in Chinese patients with type 2 diabetes.     

Delayed lysis with a mutant of salmonella bacteriophage p22

A mutant of bacteriophage P22 (Lys⁻) was isolated which shows a plaque morphology on mixed plates comparable to the r⁺ plaques of the T-even phages. When Lys⁻ and normal Lys⁺ plaques are juxtaposed on a petri dish, the Lys⁺ plaque exhibits a flat side adjacent to the Lys⁻ plaque. The mutant is identical to P22 under an electron microscope, is inactivated at the same rate by antiserum and heat, and has the same kinetics of attachment. It does not plate on Salmonella lysogenic for phage P22 nor on strain St/22. In liquid culture, the lysis of mutant infections in M9CAA medium is delayed between 20 and 40 min. Cells mixedly infected in M9CAA with Lys⁻ and Lys⁺ phage lyse later than Lys⁺-infected cells and even later than Lys⁻-infected cells. In unsupplemented M9 medium, however, mixedly infected cells again lyse later than Lys⁺-infected cells, but Lys⁻-infected cells require more than 3 hr to lyse. In supplemented and unsupplemented M9 media, intracellular phage development and endolysin synthesis proceed in Lys⁻ infections at least as rapidly as in Lys⁺-infected cells. In diluted infections, the latent and eclipse periods of Lys⁻ and Lys⁺ infections are indistinguishable. The possible mechanisms involved in the control and timing of lysis are discussed.     

Maize Yield Response to Water Supply and Fertilizer Input in a Semi-Arid Environment of Northeast China

Maize grain yield varies highly with water availability as well as with fertilization and relevant agricultural management practices. With a 311-A optimized saturation design, field experiments were conducted between 2006 and 2009 to examine the yield response of spring maize (Zhengdan 958, Zea mays L) to irrigation (I), nitrogen fertilization (total nitrogen, urea-46% nitrogen,) and phosphorus fertilization (P₂O₅, calcium superphosphate-13% P₂O₅) in a semi-arid area environment of Northeast China. According to our estimated yield function, the results showed that N is the dominant factor in determining maize grain yield followed by I, while P plays a relatively minor role. The strength of interaction effects among I, N and P on maize grain yield follows the sequence N+I >P+I>N+P. Individually, the interaction effects of N+I and N+P on maize grain yield are positive, whereas that of P+I is negative. To achieve maximum grain yield (10506.0 kg·ha⁻¹) for spring maize in the study area, the optimum application rates of I, N and P are 930.4 m³·ha⁻¹, 304.9 kg·ha⁻¹ and 133.2 kg·ha⁻¹ respectively that leads to a possible economic profit (EP) of 10548.4 CNY·ha⁻¹ (CNY, Chinese Yuan). Alternately, to obtain the best EP (10827.3 CNY·ha⁻¹), the optimum application rates of I, N and P are 682.4 m³·ha⁻¹, 241.0 kg·ha⁻¹ and 111.7 kg·ha⁻¹ respectively that produces a potential grain yield of 10289.5 kg·ha⁻¹.     

γδ T Cells Are Required for Pulmonary IL-17A Expression after Ozone Exposure in Mice: Role of TNFα

Ozone is an air pollutant that causes pulmonary symptoms. In mice, ozone exposure causes pulmonary injury and increases bronchoalveolar lavage macrophages and neutrophils. We have shown that IL-17A is important in the recruitment of neutrophils after subacute ozone exposure (0.3 ppm for 24–72 h). We hypothesized that γδ T cells are the main producers of IL-17A after subacute ozone. To explore this hypothesis we exposed wildtype mice and mice deficient in γδ T cells (TCRδ^−/−) to ozone or room air. Ozone-induced increases in BAL macrophages and neutrophils were attenuated in TCRδ^−/− mice. Ozone increased the number of γδ T cells in the lungs and increased pulmonary Il17a mRNA expression and the number of IL-17A⁺ CD45⁺ cells in the lungs and these effects were abolished in TCRδ^−/− mice. Ozone-induced increases in factors downstream of IL-17A signaling, including G-CSF, IL-6, IP-10 and KC were also decreased in TCRδ^−/− versus wildtype mice. Neutralization of IL-17A during ozone exposure in wildtype mice mimicked the effects of γδ T cell deficiency. TNFR2 deficiency and etanercept, a TNFα antagonist, also reduced ozone-induced increases in Il17a mRNA, IL-17A⁺ CD45⁺ cells and BAL G-CSF as well as BAL neutrophils. TNFR2 deficient mice also had decreased ozone-induced increases in Ccl20, a chemoattractant for IL-17A⁺ γδ T cells. Il17a mRNA and IL-17A⁺ γδ T cells were also lower in obese Cpe^fat versus lean WT mice exposed to subacute ozone, consistent with the reduced neutrophil recruitment observed in the obese mice. Taken together, our data indicate that pulmonary inflammation induced by subacute ozone requires γδ T cells and TNFα-dependent recruitment of IL-17A⁺ γδ T cells to the lung.     

Potential Role for HIV-Specific CD38?/HLA-DR+ CD8+ T Cells in Viral Suppression and Cytotoxicity in HIV Controllers

Background

HIV controllers (HIC) are rare HIV-1-infected patients who exhibit spontaneous viral control. HIC have high frequency of CD38⁻/HLA-DR⁺ HIV-specific CD8⁺ T cells. Here we examined the role of this subset in HIC status.

Materials and Methods

We compared CD38⁻/HLA-DR⁺ CD8⁺ T cells with the classical CD38⁺/HLA-DR⁺ activated phenotype in terms of 1) their activation status, reflected by CD69, CD25, CD71, CD40 and Ki67 expression, 2) functional parameters: Bcl-2 expression, proliferative capacity, and IFN-γ and IL-2 production, and 3) cytotoxic activity. We also investigated how this particular profile is generated.

Results

Compared to CD38⁺/HLA-DR⁺ cells, CD38⁻/HLA-DR⁺ cells exhibited lower expression of several activation markers, better survival capacity (Bcl-2 MFI, 367 [134–462] vs 638 [307–747], P = 0.001), higher frequency of polyfunctional cells (15% [7%–33%] vs 21% [16%–43%], P = 0.0003), greater proliferative capacity (0-fold [0–2] vs 3-fold [2]–[11], P = 0.007), and higher cytotoxicity in vitro (7% [3%–11%] vs 13% [6%–22%], P = 0.02). The CD38⁻/HLA-DR⁺ profile was preferentially generated in response to low viral antigen concentrations.

Conclusions

These data highlight the role of CD38⁻/HLA-DR⁺ HIV-specific CD8⁺ T cell cytotoxicity in HIC status and provide insights into the mechanism by which they are generated. Induction of this protective CD8⁺ subset may be important for vaccine strategies.     

Association of Cytokines in Individuals Sensitive and Insensitive to Dust Mites in a Brazilian Population

Introduction

Allergic reaction to dust mites is a relatively common condition among children, triggering cutaneous and respiratory responses that have a great impact on the health of this population. Anaphylactic hypersensitivity is characterized by an exacerbated response involving the production of regulatory cytokines responsible for stimulating the production of IgE antibodies.

Objective

To investigate an association of variants in cytokine genes (IL1A ⁻⁸⁸⁹, IL1B ^{−511, +3962}, IL1R ¹⁹⁷⁰, IL1RA ¹¹¹⁰⁰, IL4RA ⁺¹⁹⁰², IL12 ⁻¹¹⁸⁸, IFNG ⁺⁸⁷⁴, TGFB1 ^{codon 10, codon 25}, TNFA ^{−308, −238}, IL2 ^{−330, +166}, IL4 ^{−1098, −590, −33}, IL6 ^{−174, nt565}, and IL10 ^{−1082, −819, −592}) between patients sensitive to dust mites and a control group.

Methods

A total of 254 patients were grouped as atopic and non-atopic according to sensitivity as evaluated by the Prick Test and to cytokine genotyping by the polymerase chain reaction-sequence specific primers (PCR-SSP) method using the Cytokine Genotyping Kit.

Results

A comparison between individuals allergic to Dermatophagoides farinae, Dermatophagoides pteronyssinus, and Blomia tropicalis and a non-atopic control group showed significant differences between allele and genotype frequencies in the regulatory regions of cytokine genes, with important evidence for IL4 ⁻⁵⁹⁰ in T/C (10.2% vs. 43.1%, odd ratio [OR] = 0.15, p = 5.2 10⁻⁸, pc = 0.0000011, and 95% confidence interval [95%CI] = 0.07–0.32) and T/T genotypes (42.9% vs. 13.8%, OR = 4.69, p = 2.5 10⁻⁶, pc = 0.000055, and 95%CI = 2.42–9.09). Other associations were observed in the pro-inflammatory cytokines IL1A ⁻⁸⁸⁹ (T/T, C, and T) and IL2 ⁻³³⁰ (G/T and T/T) and the anti-inflammatory cytokines IL4RA ⁺¹⁹⁰² (A and G), IL4 ⁻⁵⁹⁰ (T/C, T/T, C, and T), and IL10 ⁻⁵⁹² (A/A, C/A, A, and C).

Conclusion

Our results suggest a possible association between single nucleotide polymorphisms (SNPs) in cytokine genes and hypersensitivity to dust mites.     

Dose-Dependent Effects of Lactobacillus rhamnosus on Serum Interleukin-17 Production and Intestinal T-Cell Responses in Pigs Challenged with Escherichia coli

The mechanism underlying the dose effect of probiotics on ameliorating diarrhea has not been fully elucidated. Here, low (1 × 10⁹ CFU/ml) or high (1 × 10¹¹ CFU/ml) doses of Lactobacillus rhamnosus ATCC 7469 were administered orally to piglets for 1 week before F4 (K88)-positive enterotoxigenic Escherichia coli (F4⁺ ETEC) challenge. Administration of a low, but not a high, dose of L. rhamnosus decreased the percentage of CD3⁺ CD4⁺ CD8⁻ T cells in the peripheral blood. Notably, transiently increased serum concentrations of interleukin-17A (IL-17A) were observed after F4⁺ ETEC challenge in pigs pretreated with a high dose of L. rhamnosus. Administration of L. rhamnosus increased the percentage of the small intestinal lamina propria CD3⁺ CD4⁺ CD8⁻ cells and Peyer''s patch CD3⁺ CD4⁻ CD8⁻ and CD3⁻ CD4⁻ CD8⁺ cells. The percentage of ileal intraepithelial CD3⁺ CD4⁻ CD8⁺ cells increased only in the high-dose piglets. Administration of L. rhamnosus downregulated expression of ileal IL-17A after F4⁺ ETEC challenge but had no effect on expression of gamma interferon (IFN-γ), IL-12, IL-4, and FOXP3 mRNA in the small intestine. Expression of jejunal IL-2, ileal transforming growth factor β1 (TGF-β1), and ileal IL-10 was upregulated in the low-dose piglets after F4⁺ ETEC challenge. Our findings suggest that amelioration of infectious diarrhea in piglets by L. rhamnosus is associated with the generation of lamina propria CD3⁺ CD4⁺ CD8⁻ T cells, the expansion of Peyer''s patch CD3⁺ CD4⁻ CD8⁻ and CD3⁻ CD4⁻ CD8⁺ cells, and the attenuation of F4⁺ ETEC-induced increase in CD3⁺ CD4⁺ CD8⁺ T cells in the small intestine. However, consumption of high doses of L. rhamnosus may increase levels of serum IL-17A after F4⁺ ETEC challenge, thus eliciting a strong proinflammatory response.     

NFATc1 Mediates Toll-Like Receptor-Independent Innate Immune Responses during Trypanosoma cruzi Infection

Host defense against the intracellular protozoan parasite Trypanosoma cruzi depends on Toll-like receptor (TLR)-dependent innate immune responses. Recent studies also suggest the presence of TLR-independent responses to several microorganisms, such as viruses, bacteria, and fungi. However, the TLR-independent responses to protozoa remain unclear. Here, we demonstrate a novel TLR-independent innate response pathway to T. cruzi. Myd88 ^−/− Trif ^−/− mice lacking TLR signaling showed normal T. cruzi-induced Th1 responses and maturation of dendritic cells (DCs), despite high sensitivity to the infection. IFN-γ was normally induced in T. cruzi-infected Myd88 ^−/− Trif ^−/− innate immune cells, and further was responsible for the TLR-independent Th1 responses and DC maturation after T. cruzi infection. T. cruzi infection induced elevation of the intracellular Ca²⁺ level. Furthermore, T. cruzi-induced IFN-γ expression was blocked by inhibition of Ca²⁺ signaling. NFATc1, which plays a pivotal role in Ca²⁺ signaling in lymphocytes, was activated in T. cruzi-infected Myd88^−/−Trif^−/− innate immune cells. T. cruzi-infected Nfatc1 ^−/− fetal liver DCs were impaired in IFN-γ production and DC maturation. These results demonstrate that NFATc1 mediates TLR-independent innate immune responses in T. cruzi infection.     

CXCR4 Is Dispensable for T Cell Egress from Chronically Inflamed Skin via the Afferent Lymph

T cell recirculation through extralymphoid tissues is essential to immune surveillance, host defense and inflammation. In this process, T cells enter the tissue from the blood and subsequently leave via the afferent lymph. In the absence of inflammation, T cells require CCR7 expression to egress from the skin or lung, which is consistent with the constitutive expression of the CCR7 ligand CCL21 on lymphatic endothelium. However, during chronic inflammation alternative chemoattractants come into play, allowing Ccr7-deficient (Ccr7^−/−) T cells to egress efficiently from affected skin. As T cell egress from inflamed sites is a potential control point of the inflammatory response, we aimed to determine alternative T cell exit receptors using a mouse and a sheep model. We show that CCR7⁺ and CCR7^– T cells exiting from the chronically inflamed skin were highly responsive to the CXCR4 ligand CXCL12, which was induced in the lymphatics in the inflamed site. Based on these findings, we hypothesized that CXCR4 mediates T cell egress from inflamed skin. However, pharmacological inhibition of CXCR4 did not affect the tissue egress of wildtype or Ccr7^−/− CD4 and CD8 T cells after adoptive transfer into chronically inflamed skin. Similarly, adoptively transferred Cxcr4^−/− Ccr7^−/− and Ccr7^−/− T cells egressed from the inflamed skin equally well. Based on these data, we conclude that, while CXCR4 might play an essential role for other cell types that enter the afferent lymphatics, it is dispensable for T cell egress from the chronically inflamed skin.     

FcRγ Controls the Fas-Dependent Regulatory Function of Lymphoproliferative Double Negative T Cells

Patients with autoimmune lymphoproliferative syndrome (ALPS) and lymphoproliferation (LPR) mice are deficient in Fas, and accumulate large numbers of αβ-TCR⁺, CD4⁻, CD8⁻ double negative (DN) T cells. The function of these DN T cells remains largely unknown. The common γ subunit of the activating Fc receptors, FcRγ, plays an important role in mediating innate immune responses. We have shown previously that a significant proportion of DN T cells express FcRγ, and that this molecule is required for TCR transgenic DN T cells to suppress allogeneic immune responses. Whether FcRγ plays a critical role in LPR DN T cell-mediated suppression of immune responses to auto and allo-antigens is not known. Here, we demonstrated that FcRγ⁺, but not FcRγ⁻ LPR DN T cells could suppress Fas⁺ CD4⁺ and CD8⁺ T cell proliferation in vitro and attenuated CD4⁺ T cell-mediated graft-versus host disease. Although FcRγ expression did not allow LPR DN T cells to inhibit the expansion of Fas-deficient cells within the LPR context, adoptive transfer of FcRγ⁺, but not FcRγ⁻, DN T cells inhibited lymphoproliferation in generalized lymphoproliferative disease (GLD) mice. Furthermore, FcRγ acted in a cell-intrinsic fashion to limit DN T cell accumulation by increasing the rate of apoptosis in proliferated cells. These results indicate that FcRγ can confer Fas-dependent regulatory properties on LPR DN T cells, and suggest that FcRγ may be a novel marker for functional DN Tregs.     

Targeted Deletion of FGL2 Leads to Increased Early Viral Replication and Enhanced Adaptive Immunity in a Murine Model of Acute Viral Hepatitis Caused by LCMV WE

Mounting effective innate and adaptive immune responses are critical for viral clearance and the generation of long lasting immunity. It is known that production of inhibitory factors may result in the inability of the host to clear viruses, resulting in chronic viral persistence. Fibrinogen-like protein 2 (FGL2) has been identified as a novel effector molecule of CD4⁺CD25⁺ Foxp3⁺ regulatory T (Treg) cells that inhibits immune activity by binding to FCγRIIB expressed primarily on antigen presenting cells (APC). In this study, we show that infection of mice with Lymphocytic Choriomeningitis Virus WE (LCMV WE) leads to increased plasma levels of FGL2, which were detected as early as 2 days post-infection (pi) and persisted until day 50 pi. Mice deficient in FGL2 (fgl2^−/−) had increased viral titers of LCMV WE in the liver early p.i but cleared the virus by day 12 similar to wild type mice. Dendritic cells (DC) isolated from the spleens of LCMV WE infected fgl2^−/− had increased expression of the DC maturation markers CD80 and MHC Class II compared to wild type (fgl2^+/+). Frequencies of CD8⁺ and CD4⁺ T cells producing IFNγ in response to ex vivo peptide re-stimulation isolated from the spleen and lymph nodes were also increased in LCMV WE infected fgl2 ^−/− mice. Increased frequencies of CD8⁺ T cells specific for LCMV tetramers GP₃₃ and NP₃₉₆ were detected within the liver of fgl2^−/− mice. Plasma from fgl2^−/− mice contained higher titers of total and neutralizing anti-LCMV antibody. Enhanced anti-viral immunity in fgl2^−/− mice was associated with increased levels of serum alanine transaminase (ALT), hepatic necrosis and inflammation following LCMV WE infection. These data demonstrate that targeting FGL2 leads to early increased viral replication but enhanced anti-viral adaptive T & B cell responses. Targeting FGL2 may enhance the efficacy of current anti-viral therapies for hepatotropic viruses.     

CD4+CD25?Nrp1+ T Cells Synergize with Rapamycin to Prevent Murine Cardiac Allorejection in Immunocompetent Recipients

Besides CD4⁺CD25⁺Foxp3⁺ regulatory T cells (Tregs), other immunosuppressive T cells also participated in the regulation of immune tolerance. Reportedly, neuropilin-1 (Nrp1) might be one of the molecules by which regulatory cells exert their suppressive effects. Indeed, CD4⁺CD25⁻Nrp1⁺ T cells exhibit potent suppressive function in autoimmune inflammatory responses. Here we investigated the specific role of CD4⁺CD25⁻Nrp1⁺ T cells in the setting of the transplant immune response. Through MLR assays, we found that CD4⁺CD25⁻Nrp1⁺ T cells suppressed the proliferation of naive CD4⁺CD25⁻ T cells activated by allogeneic antigen-stimulation. Adoptive transfer of CD4⁺CD25⁻Nrp1⁺ T cells synergized with rapamycin to induce long-term graft survival in fully MHC-mismatched murine heart transplantation, which was associated with decreased IFN-γ, IL-17 and increased IL-10, TGF-β, Foxp3 and Nrp1 expression in the grafts. Importantly, our data indicated that CD4⁺CD25⁻Nrp1⁺ T cell transfer augments the accumulation of Tregs in the recipient, and creates conditions that favored induction of hyporesponsiveness of the T effector cells. In conclusion, this translational study indicates the possible therapeutic potential of CD4⁺CD25⁻Nrp1⁺ T cells in preventing allorejection. CD4⁺Nrp1⁺ T cells might therefore be used in bulk as a population of immunosuppressive cells with more beneficial properties concerning ex vivo isolation as compared to Foxp3⁺ Tregs.     

Tolerance of a Phage Element by Streptococcus pneumoniae Leads to a Fitness Defect during Colonization

The pathogenesis of the disease caused by Streptococcus pneumoniae begins with colonization of the upper respiratory tract. Temperate phages have been identified in the genomes of up to 70% of clinical isolates. How these phages affect the bacterial host during colonization is unknown. Here, we examined a clinical isolate that carries a novel prophage element, designated Spn1, which was detected in both integrated and episomal forms. Surprisingly, both lytic and lysogenic Spn1 genes were expressed under routine growth conditions. Using a mouse model of asymptomatic colonization, we demonstrate that the Spn1⁻ strain outcompeted the Spn1⁺ strain >70-fold. To determine if Spn1 causes a fitness defect through a trans-acting factor, we constructed an Spn1⁺ mutant that does not become an episome or express phage genes. This mutant competed equally with the Spn1⁻ strain, indicating that expression of phage genes or phage lytic activity is required to confer this fitness defect. In vitro, we demonstrate that the presence of Spn1 correlated with a defect in LytA-mediated autolysis. Furthermore, the Spn1⁺ strain displayed increased chain length and resistance to lysis by penicillin compared to the Spn⁻ strain, indicating that Spn1 alters the cell wall physiology of its host strain. We posit that these changes in cell wall physiology allow for tolerance of phage gene products and are responsible for the relative defect of the Spn1⁺ strain during colonization. This study provides new insight into how bacteria and prophages interact and affect bacterial fitness in vivo.     

Galectin-3 Ablation Enhances Liver Steatosis,but Attenuates Inflammation and IL-33-Dependent Fibrosis in Obesogenic Mouse Model of Nonalcoholic Steatohepatitis

The importance of Galectin-3 (Gal-3) in obesity-associated liver pathology is incompletely defined. To dissect the role of Gal-3 in fibrotic nonalcoholic steatohepatitis (NASH), Gal-3-deficient (LGALS3^−/−) and wild-type (LGALS3^+/+) C57Bl/6 mice were placed on an obesogenic high fat diet (HFD, 60% kcal fat) or standard chow diet for 12 and 24 wks. Compared to WT mice, HFD-fed LGALS3^−/− mice developed, in addition to increased visceral adiposity and diabetes, marked liver steatosis, which was accompanied with higher expression of hepatic PPAR-γ, Cd36, Abca-1 and FAS. However, as opposed to LGALS3^−/− mice, hepatocellular damage, inflammation and fibrosis were more extensive in WT mice which had an elevated number of mature myeloid dendritic cells, proinflammatory CD11b⁺Ly6C^hi monocytes/macrophages in liver, peripheral blood and bone marrow, and increased hepatic CCL2, F4/80, CD11c, TLR4, CD14, NLRP3 inflammasome, IL-1β and NADPH-oxidase enzymes mRNA expression. Thus, obesity-driven greater steatosis was uncoupled with attenuated fibrotic NASH in Gal-3-deficient mice. HFD-fed WT mice had a higher number of hepatocytes that strongly expressed IL-33 and hepatic CD11b⁺IL-13⁺ cells, increased levels of IL-33 and IL-13 and up-regulated IL-33, ST2 and IL-13 mRNA in liver compared with LGALS3^−/− mice. IL-33 failed to induce ST2 upregulation and IL-13 production by LGALS3^−/− peritoneal macrophages in vitro. Administration of IL-33 in vivo enhanced liver fibrosis in HFD-fed mice in both genotypes, albeit to a significantly lower extent in LGALS3^−/− mice, which was associated with less numerous hepatic IL-13-expressing CD11b⁺ cells. The present study provides evidence of a novel role for Gal-3 in regulating IL-33-dependent liver fibrosis.     

An rne-1 pnp-7 Double Mutation Suppresses the Temperature-Sensitive Defect of lacZ Gene Expression in a divE Mutant

A divE mutant, which has a temperature-sensitive mutation in the tRNA₁^Ser gene, exhibits differential loss of the synthesis of certain proteins, such as β-galactosidase and succinate dehydrogenase, at nonpermissive temperatures. In Escherichia coli, the UCA codon is recognized only by tRNA₁^Ser. Several genes containing UCA codons are normally expressed after a temperature shift to 42°C in the divE mutant. Therefore, it is unlikely that the defect in protein synthesis at 42°C is simply caused by a defect in the decoding function of the mutant tRNA₁^Ser. In this study, we sought to determine the cause of the defect in lacZ gene expression in the divE mutant. It has also been shown that the defect in lacZ gene expression is accompanied by a decrease in the amount of lacZ mRNA. To examine whether inactivation of mRNA degradation pathways restores the defect in lacZ gene expression, we constructed divE mutants containing rne-1, rnb-500, and pnp-7 mutations in various combinations. We found that the defect was almost completely restored by introducing an rne-1 pnp-7 double mutation into the divE mutant. Northern hybridization analysis showed that the rne-1 mutation stabilized lacZ mRNA, whereas the pnp-7 mutation stabilized mutant tRNA₁^Ser, at 44°C. We present a mechanism that may explain these results.