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1.
Nat Commun ; 15(1): 680, 2024 Jan 23.
Article in English | MEDLINE | ID: mdl-38263289

ABSTRACT

The limited reserves of neutrophils are implicated in the susceptibility to infection in neonates, however the regulation of neutrophil kinetics in infections in early life remains poorly understood. Here we show that the developmental endothelial locus (DEL-1) is elevated in neonates and is critical for survival from neonatal polymicrobial sepsis, by supporting emergency granulopoiesis. Septic DEL-1 deficient neonate mice display low numbers of myeloid-biased multipotent and granulocyte-macrophage progenitors in the bone marrow, resulting in neutropenia, exaggerated bacteremia, and increased mortality; defects that are rescued by DEL-1 administration. A high IL-10/IL-17A ratio, observed in newborn sepsis, sustains tissue DEL-1 expression, as IL-10 upregulates while IL-17 downregulates DEL-1. Consistently, serum DEL-1 and blood neutrophils are elevated in septic adult and neonate patients with high serum IL-10/IL-17A ratio, and mortality is lower in septic patients with high serum DEL-1. Therefore, IL-10/DEL-1 axis supports emergency granulopoiesis, prevents neutropenia and promotes sepsis survival in early life.


Subject(s)
Interleukin-10 , Neonatal Sepsis , Neutropenia , Sepsis , Adult , Animals , Humans , Mice , Hematopoiesis , Interleukin-17 , Infant, Newborn
2.
Mar Drugs ; 21(6)2023 Jun 02.
Article in English | MEDLINE | ID: mdl-37367668

ABSTRACT

Obesity and type 2 diabetes are characterized by low-grade systemic inflammation and glucose intolerance, which can be partially controlled with nutritional interventions. Protein-containing nutritional supplements possess health-promoting benefits. Herein, we examined the effect of dietary supplementation with protein hydrolysates derived from fish sidestreams on obesity and diabetes, utilizing a mouse model of High-Fat Diet-induced obesity and type 2 diabetes. We examined the effect of protein hydrolysates from salmon and mackerel backbone (HSB and HMB, respectively), salmon and mackerel heads (HSH and HMH, respectively), and fish collagen. The results showed that none of the dietary supplements affected weight gain, but HSH partially suppressed glucose intolerance, while HMB and HMH suppressed leptin increase in the adipose tissue. We further analyzed the gut microbiome, which contributes to the metabolic disease implicated in the development of type 2 diabetes, and found that supplementation with selected protein hydrolysates resulted in distinct changes in gut microbiome composition. The most prominent changes occurred when the diet was supplemented with fish collagen since it increased the abundance of beneficial bacteria and restricted the presence of harmful ones. Overall, the results suggest that protein hydrolysates derived from fish sidestreams can be utilized as dietary supplements with significant health benefits in the context of type 2 diabetes and diet-induced changes in the gut microbiome.


Subject(s)
Diabetes Mellitus, Type 2 , Gastrointestinal Microbiome , Glucose Intolerance , Insulin Resistance , Mice , Animals , Glucose Intolerance/metabolism , Protein Hydrolysates/pharmacology , Protein Hydrolysates/metabolism , Mice, Obese , Diabetes Mellitus, Type 2/metabolism , Obesity/drug therapy , Obesity/etiology , Obesity/metabolism , Adipose Tissue/metabolism , Dietary Supplements , Diet, High-Fat/adverse effects , Collagen/metabolism , Mice, Inbred C57BL
3.
Curr Top Microbiol Immunol ; 436: 165-196, 2022.
Article in English | MEDLINE | ID: mdl-36243844

ABSTRACT

Macrophages display an array of activation phenotypes depending on the activation signal and the cellular microenvironment. The type and magnitude of the response depend on signaling molecules as well as on the epigenetic and metabolic status of the cells at the time of activation. The AKT family of kinases consists of three isoforms encoded by independent genes possessing similar functions and structures. Generation of research tools such as isoform-specific gene deletion mutant mice and cells and isoform-specific antibodies has allowed us to understand the role of each kinase isoform in macrophage activation and homeostasis. This chapter discusses the current evidence on the role of AKT kinases in macrophage activation, polarization, and homeostasis, highlighting the gaps in knowledge and future challenges in the field.


Subject(s)
Macrophage Activation , Proto-Oncogene Proteins c-akt , Animals , Macrophages , Mice , Protein Isoforms/genetics , Protein Isoforms/metabolism , Proto-Oncogene Proteins c-akt/genetics , Proto-Oncogene Proteins c-akt/metabolism , Signal Transduction
4.
Pathogens ; 11(10)2022 Sep 30.
Article in English | MEDLINE | ID: mdl-36297190

ABSTRACT

Group B Streptococcus (GBS) is a gram-positive bacterium that is harmless for healthy individuals but may provoke invasive disease in young infants and immunocompromised hosts. GBS invades the epithelial barriers to enter the bloodstream, and thus strategies that enhance epithelial cell responses may hamper GBS invasion. In the present study, we sought to investigate whether the inhibition of Akt, a kinase that regulates host inflammatory responses and autophagy via suppression of mTOR, can enhance the response of non-phagocytic alveolar epithelial cells against GBS. Treatment of the alveolar epithelial cell line A549 with the Akt inhibitor MK-2206 resulted in the enhanced production of reactive oxygen species and inflammatory mediators in response to GBS. Additionally, Akt inhibition via MK-2206 resulted in elevated LC3II/I ratios and increased autophagic flux in alveolar epithelial cells. Importantly, the inhibition of Akt promoted GBS clearance both in alveolar epithelial cells in vitro and in lung tissue in vivo in a murine model of GBS pneumonia. The induction of autophagy was essential for GBS clearance in MK-2206 treated cells, as knockdown of ATG5, a critical component of autophagy, abrogated the effect of Akt inhibition on GBS clearance. Our findings highlight the role of Akt kinase inhibition in promoting autophagy and GBS clearance in the alveolar epithelium. The inhibition of Akt may serve as a promising measure to strengthen epithelial barriers and prevent GBS invasion in susceptible hosts.

5.
Mar Drugs ; 19(7)2021 Jul 15.
Article in English | MEDLINE | ID: mdl-34356821

ABSTRACT

Restoring homeostasis following tissue damage requires a dynamic and tightly orchestrated sequence of molecular and cellular events that ensure repair and healing. It is well established that nutrition directly affects skin homeostasis, while malnutrition causes impaired tissue healing. In this study, we utilized fish sidestream-derived protein hydrolysates including fish collagen as dietary supplements, and investigated their effect on the skin repair process using a murine model of cutaneous wound healing. We explored potential differences in wound closure and histological morphology between diet groups, and analyzed the expression and production of factors that participate in different stages of the repair process. Dietary supplementation with fish sidestream-derived collagen alone (Collagen), or in combination with a protein hydrolysate derived from salmon heads (HSH), resulted in accelerated healing. Chemical analysis of the tested extracts revealed that Collagen had the highest protein content and that HSH contained the great amount of zinc, known to support immune responses. Indeed, tissues from mice fed with collagen-containing supplements exhibited an increase in the expression levels of chemokines, important for the recruitment of immune cells into the damaged wound region. Moreover, expression of a potent angiogenic factor, vascular endothelial growth factor-A (VEGF-A), was elevated followed by enhanced collagen deposition. Our findings suggest that a 5%-supplemented diet with marine collagen-enriched supplements promotes tissue repair in the model of cutaneous wound healing, proposing a novel health-promoting use of fish sidestreams.


Subject(s)
Collagen/drug effects , Protein Hydrolysates/pharmacology , Salmon , Wound Healing/drug effects , Animals , Chemokines/metabolism , Dietary Supplements , Male , Mice , Mice, Inbred C57BL , Models, Animal , Protein Hydrolysates/administration & dosage
6.
Mar Drugs ; 19(6)2021 May 28.
Article in English | MEDLINE | ID: mdl-34071180

ABSTRACT

Inflammatory bowel disease is characterized by extensive intestinal inflammation, and therapies against the disease target suppression of the inflammatory cascade. Nutrition has been closely linked to the development and suppression of inflammatory bowel disease, which to a large extent is attributed to the complex immunomodulatory properties of nutrients. Diets containing fish have been suggested to promote health and suppress inflammatory diseases. Even though most of the health-promoting properties of fish-derived nutrients are attributed to fish oil, the potential health-promoting properties of fish protein have not been investigated. Fish sidestreams contain large amounts of proteins, currently unexploited, with potential anti-inflammatory properties, and may possess additional benefits through bioactive peptides and free amino acids. In this project, we utilized fish protein hydrolysates, based on mackerel and salmon heads and backbones, as well as flounder skin collagen. Mice fed with a diet supplemented with different fish sidestream-derived protein hydrolysates (5% w/w) were exposed to the model of DSS-induced colitis. The results show that dietary supplements containing protein hydrolysates from salmon heads suppressed chemically-induced colitis development as determined by colon length and pro-inflammatory cytokine production. To evaluate colitis severity, we measured the expression of different pro-inflammatory cytokines and chemokines and found that the same supplement suppressed the pro-inflammatory cytokines IL-6 and TNFα and the chemokines Cxcl1 and Ccl3. We also assessed the levels of the anti-inflammatory cytokines IL-10 and Tgfb and found that selected protein hydrolysates induced their expression. Our findings demonstrate that protein hydrolysates derived from fish sidestreams possess anti-inflammatory properties in the model of DSS-induced colitis, providing a novel underexplored source of health-promoting dietary supplements.


Subject(s)
Anti-Inflammatory Agents/therapeutic use , Colitis/drug therapy , Fishes , Protein Hydrolysates/therapeutic use , Waste Products , Animals , Anti-Inflammatory Agents/pharmacology , Colitis/chemically induced , Colitis/genetics , Colitis/pathology , Colon/drug effects , Colon/immunology , Colon/pathology , Cytokines/blood , Cytokines/genetics , Dextran Sulfate , Dietary Supplements , Female , Food Industry , Mice, Inbred C57BL , Protein Hydrolysates/pharmacology
7.
Mar Drugs ; 19(5)2021 May 11.
Article in English | MEDLINE | ID: mdl-34064922

ABSTRACT

Metabolic syndrome-related diseases affect millions of people worldwide. It is well established that changes in nutritional habits and lifestyle can improve or prevent metabolic-related pathologies such as type-2 diabetes and obesity. Previous reports have shown that nutritional supplements have the capacity to limit glucose intolerance and suppress diabetes development. In this study, we investigated the effect of dietary supplementation with fish-derived extracts on obesity and type 2 diabetes and their impact on gut microbial composition. We showed that nutritional supplements containing Fish Complex (FC), Fish Complex combined with Cod Powder (FC + CP), or Cod Powder combined with Collagen (CP + C) improved glucose intolerance, independent of abdominal fat accumulation, in a mouse model of diet-induced obesity and type 2 diabetes. In addition, collagen-containing supplements distinctly modulate the gut microbiome in high-fat induced obesity in mice. Our results suggest that fish-derived supplements suppress diet-induced type 2 diabetes, which may be partly mediated through changes in the gut microbiome. Thus, fish-derived supplements and particularly the ones containing fish collagen have potential beneficial properties as dietary supplements in managing type 2 diabetes and metabolic syndrome via modulation of the gut microbiome.


Subject(s)
Diabetes Mellitus, Type 2/drug therapy , Dietary Supplements , Fishes , Gastrointestinal Microbiome/drug effects , Hypoglycemic Agents/pharmacology , Obesity , Tissue Extracts/pharmacology , Abdominal Fat/drug effects , Animals , Body Weight/drug effects , Diabetes Mellitus, Type 2/chemically induced , Diabetes Mellitus, Type 2/complications , Diet, High-Fat/adverse effects , Dietary Supplements/microbiology , Disease Models, Animal , Female , Glucose Intolerance/drug therapy , Hypoglycemic Agents/therapeutic use , Insulin Resistance , Leptin/metabolism , Mice, Inbred C57BL , Obesity/chemically induced , Obesity/complications , Tissue Extracts/isolation & purification , Tissue Extracts/therapeutic use
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