Early weaning is associated with changes in the developmental plasticity. Here, we studied the adipocytes morphology, adipokines expression or content in adipose tissue as well as adrenal and thyroid function of neonate and adult offspring primed by early weaning. After birth, lactating rats were divided into 2 groups: EW (early weaning)--dams were wrapped with a bandage to block access to milk during the last 3 days of lactation, and Control--dams whose pups had free access to milk throughout lactation (21 days). At postnatal day (PN) 21, EW pups had lower visceral and subcutaneous adipocyte area (-67.7% and -62%, respectively), body fat mass (-26%), and leptin expression in visceral adipocyte (-64%) but higher leptin expression in subcutaneous adipocyte (2.9-fold increase). Adrenal evaluations were normal, but neonate EW pups presented lower serum T3 (-55%) and TSH (-44%). At PN 180, EW offspring showed higher food intake, higher body fat mass (+21.6%), visceral and subcutaneous adipocyte area (both 3-fold increase), higher leptin (+95%) and ADRβ3 (2-fold increase) content in visceral adipose tissue, and higher adiponectin expression in subcutaneous adipose tissue (+47%) but lower in visceral adipose tissue (-40%). Adult EW offspring presented higher adrenal catecholamine content (+31%), but no changes in serum corticosterone or thyroid status. Thus, early weaning primed for hypothyroidism at weaning, which can be associated with the adipocyte hypertrophy at adulthood. The marked changes in catecholamine adrenal content and visceral adipocyte ADRB3 are generally found in obesity, contributing to the development of other cardiovascular and metabolic disturbances.
The lower intra-abdominal adiposity could have more beneficial effects in a short term, since it can be associated with a better insulin sensitivity and lipid profile, than the small reduction in femur and lumbar vertebra density. However, it has to be considered the incremental effect of this reduction along the aging process.
Atazanavir (ATV) has already been considered as a potential repurposing drug to 2019 coronavirus disease (COVID-19); however, there are controversial reports on its mechanism of action and effectiveness as anti-severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Through the pre-clinical chain of experiments: enzymatic, molecular docking, cell-based and in vivo assays, it is demonstrated here that both SARS-CoV-2 B.1 lineage and variant of concern gamma are susceptible to this antiretroviral. Enzymatic assays and molecular docking calculations showed that SARS-CoV-2 main protease (Mpro) was inhibited by ATV, with Morrison’s inhibitory constant (Ki) 1.5-fold higher than GC376 (a positive control) dependent of the catalytic water (H2Ocat) content. ATV was a competitive inhibitor, increasing the Mpro’s Michaelis–Menten (Km) more than sixfold. Cell-based assays indicated that different lineages of SARS-CoV-2 is susceptible to ATV. Using oral administration of ATV in mice to reach plasmatic exposure similar to humans, transgenic mice expression in human angiotensin converting enzyme 2 (K18-hACE2) were partially protected against lethal challenge with SARS-CoV-2 gamma. Moreover, less cell death and inflammation were observed in the lung from infected and treated mice. Our studies may contribute to a better comprehension of the Mpro/ATV interaction, which could pave the way to the development of specific inhibitors of this viral protease.
OBJECTIVES:A low ratio of omega-6/omega-3 polyunsaturated fatty acids is associated with healthy bone properties. However, fatty diets can induce obesity. Our objective was to evaluate intra-abdominal adiposity, insulin, and bone growth in rats fed a high-fat diet containing low ratios of omega-6/omega-3 provided in canola oil.METHODS:After weaning, rats were grouped and fed either a control diet (7S), a high-fat diet containing soybean oil (19S) or a high-fat diet of canola oil (19C) until they were 60 days old. Differences were considered to be significant if p<0.05.RESULTS:After 60 days, the 19S and 19C groups showed more energy intake, body density growth and intra-abdominal fat mass. However, the 19S group had a higher area (200%) and a lower number (44%) of adipocytes, while the 7S and 19C groups did not differ. The serum concentrations of glucose and insulin and the insulin resistance index were significantly increased in the 19C group (15%, 56%, and 78%, respectively) compared to the 7S group. Bone measurements of the 19S and 19C groups showed a higher femur mass (25%) and a higher lumbar vertebrae mass (11%) and length (5%). Computed tomography analysis revealed more radiodensity in the proximal femoral epiphysis and lumbar vertebrae of 19C group compared to the 7S and 19S groups.CONCLUSIONS:Our results suggest that the amount and source of fat used in the diet after weaning increase body growth and fat depots and affect insulin resistance and, consequently, bone health.
Litter size reduction during lactation is a good model for childhood obesity since it induces overnutrition and programming for obesity at adulthood. Adult offspring develop higher fat mass content, hyperinsulinemia and insulin resistance, hypertension, lower HDL cholesterol, hyperphagia, and leptin resistance. Leptin resistance is often associated with hyperleptinemia. Although we observed higher SOCS3 and lower STAT3 in the hypothalamus of rats raised in small litters featuring a central leptin resistance, they showed unexpected normoleptinemia at 180 days old. Then, to clarify why early overfed rats did not develop hyperleptinemia when adult, we studied the leptin production by the visceral and subcutaneous adipose tissue and skeletal muscle as well as the morphology in the 2 different fat depots. To induce EO, litter size was reduced to 3 pups/litter (SL group) on the 3 (rd) day of life. In controls (NL group), litter size was adjusted to 10 pups/litter. Rats were killed at 180 days old. The programming of adipose tissue morphology by early overnutrition is specific between the different fat depots with hypertrophy only in the visceral compartment. In addition, the visceral adipocyte showed lower leptin content that may indicate a reduced leptin synthesis. These data suggest that adipocytes from SL rats are dysfunctional, since a higher leptin production in larger adipose cells is expected. In conclusion, postnatal nutrition is determinant for future leptin production by different fat depots as well as adipocyte morphology. These changes seem to be related to the severity of obesity and its metabolic consequences.
Influenza A virus (IAV) causes a major public health concern, because it is one of the leading causes of respiratory tract infections and hospitalization. Severe influenza has been associated with the cytokine storm, and IAV productive infection cell death in airway epithelial cells may contribute to the exacerbation of this proinflammatory event. On the other hand, IAV replication in macrophages is non-permissive and whether this immune cell may contribute to severe influenza physiopathology requires more details. Here, we investigated IAV-induced macrophage death, along with potential therapeutic intervention. We found that IAV or simply its surface glycoprotein hemagglutinin (HA) triggers necroptosis in human and murine macrophages in a Toll-like receptor-4 (TLR4) and TNF-dependent manner. Anti-TNF treatment, with the clinically approved drug etanercept, prevented the engagement of the necroptotic loop and mice mortality. impaired IAV-induced pro-inflammatory cytokine storm and lung injury. Our results implicate macrophage necroptosis with severe influenza in experimental models and potentially repurpose a clinically available therapy.Author SummaryVarious fates of cell death have an integral role in the influenza A virus (IAV) pathogenesis and lung/respiratory dysfunction. IAV physiopathology is not restricted to airway epithelial cells, where this virus actively replicated. Macrophages should support both viral clearance and priming of adaptative immune response in patients that adequately control influenza. However, during severe IAV infection, macrophages – which are unable to support a permissive viral replication - undergo disruptive cell death and contribute to the exacerbated production of proinflammatory cytokines/chemokines. We characterized this process by showing that IAV or just its surface glycoprotein hemagglutinin (HA) trigger necroptosis, a disruptive and TNF-dependent cells death. Since TNF is a hallmark of pro-inflammatory cell death, we blocked this mediator with a repurposed biomedicine etanercept, which prevented the severe IAV infection in the experimental model. The present work improves the knowledge of influenza pathophysiology by highlighting the importance of macrophage cell death during severe infection.
The excessive fat intake generally might induce obesity and metabolic disturbances. Thus, the goal of the study was to assess the role of high-fat diets containing soybean or canola oil on intra-abdominal adiposity and pancreatic morphology and function of young rats. After weaning, rats were fed with a control diet (7S) or a high-fat diet containing soybean oil (19S) or canola oil (19C) until they were 60 days old, when they were sacrificed. Food intake (g/day), body mass and length, retroperitoneal and epididymal fat mass, HOMA-IR, HOMA-β and area of pancreatic islets were assessed. The results were considered different with a significant level of p<0.05. Both 19S and 19C groups showed higher body mass, length, and retroperitoneal fat mass. The 19C group showed higher HOMA-IR (+43% and +78%) and HOMA-β (+40% and +59%) than 19S and 7S groups, respectively. Both 19S and 19C groups showed lower pancreatic islets area in relation to 7S group. Meantime, 19C presented lower percentage of pancreatic islets area in comparison to 19S (-41%) and 7S group (-70%, p<0.0001). Independent of soybean or canola oil, the high fat diet promoted development of the obesity. Comparing 19C and 19S groups, the higher concentrations of monounsaturated fatty acids, present in the canola oil were worse than higher concentrations of polyunsaturated fatty acids, present in the soybean oil.
Maternal flaxseed supplementation decreases offspring adiposity and increases pituitary leptin signaling at weaning, but it induces hypertrophic adipocytes and higher thyroid leptin receptor in adulthood. The present data suggest that extensive use of flaxseed during lactation is undesirable.
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