A case report of inherited surfactant protein deficiency: unknown cause of diffuse infiltrative diseases in Tunisia.

INTRODUCTION: Children's Interstitial Lung Diseases (cHILD) are a heterogeneous group of rare respiratory diseases. Their common characteristics are gas exchange abnormalities and diffuse pulmonary infiltrates on chest imaging. This group includes inherited surfactant protein deficiency (ISPD), a little-known etiology in Tunisia. CASE PRESENTATION: A 22-month-old boy was referred to investigate recurrent respiratory infections. He had polypnea, cyanosis, finger clubbing, pectus carinatum, intercostal retraction, and bilateral crackles on pulmonary auscultation. The chest imaging revealed a diffuse ground-glass appearance consistent with cHILD. Lung biopsy was suggestive of ISPD. The infant was mainly treated with intravenous corticosteroids. At the age of nine, he was still dependent on oxygen but had better exercise tolerance. CONCLUSION: This case showed that recurrent respiratory infections can hide cHILD which may be related to ISPD, particularly in infants. A better knowledge of this disease was necessary to start specific treatment. Early management would lead to better prognosis.

Prevalence of Epstein-Barr Virus Infection and Mismatch Repair Protein Deficiency and the Correlation of Immune Markers in Tibetan Patients with Gastric Cancer.

Background: Gastric cancer (GC) is a major cause of cancer-related death in China. Immunotherapies based on PD-1/PD-L1 inhibitors have improved the survival of some patients with GC. Epstein-Barr virus (EBV) infection, mismatch repair (MMR) deficiency, and tumor immune microenvironment (TIME) markers (such as CD3, CD8, and PD-L1) may help to identify specific patients who will respond to PD-1/PD-L1 inhibitors. Considering racial heterogeneity, the pattern of TIME markers in Tibetan patients with GC is still unclear. We aimed to identify the prevalence of EBV infection and the MMR status and their association with immune markers in Tibetan GC to aid in patient selection for immunotherapy. Materials and Methods: From 2001 to 2015, we retrospectively collected 120 tissue samples from consecutive Tibetan GC patients and constructed tissue microarrays. EBV infection was assessed by Epstein-Barr-encoded RNA (EBER) in situ hybridization, and MMR protein levels were measured. Immune markers (including CD3 and CD8) in intraepithelial, stromal, and total areas were detected by immunohistochemistry (IHC). PD-L1 expression was assessed by the combined positive score (CPS). We also analyzed the relationships of EBV infection and MMR status with immune markers. Results: Of the 120 samples, 11 (9.17%) were EBV positive (+), and 6 (5%) were MMR deficient (dMMR). PD-L1 CPS ≥1% was found in 32.5% (39/120) of Tibetan GC patients. EBV infection was associated with higher numbers of CD3+ T cells (P < 0.05) and CD8+ T cells (P < 0.05) and higher PD-L1 expression (P < 0.05). For the limited number of dMMR patients, no significant relationship was observed between dMMR and TIME markers (P > 0.05). Conclusions: In Tibetan GC patients, the rates of EBV infection, dMMR, and positive PD-L1 expression were 9.17%, 5%, and 32.5%, respectively. EBV infection was associated with the numbers of CD3+ T cells and CD8+ T cells and PD-L1 expression within the tumor. These markers may guide the selection of Tibetan GC patients for immunotherapy.

Impaired social cognition caused by perinatal protein malnutrition evokes neurodevelopmental disorder symptoms and is intergenerationally transmitted.

Nutritional inadequacy before birth and during postnatal life can seriously interfere with brain development and lead to persistent deficits in learning and behavior. In this work, we asked if protein malnutrition affects domains of social cognition and if these phenotypes can be transmitted to the next generation. Female mice were fed with a normal or hypoproteic diet during pregnancy and lactation. After weaning, offspring were fed with a standard chow. Social interaction, social recognition memory, and dominance were evaluated in both sexes of F1 offspring and in the subsequent F2 generation. Glucose metabolism in the whole brain was analyzed through preclinical positron emission tomography. Genome-wide transcriptional analysis was performed in the medial prefrontal cortex followed by gene-ontology enrichment analysis. Compared with control animals, malnourished mice exhibited a deficit in social motivation and recognition memory and displayed a dominant phenotype. These altered behaviors, except for dominance, were transmitted to the next generation. Positron emission tomography analysis revealed lower glucose metabolism in the medial prefrontal cortex of F1 malnourished offspring. This brain region showed genome-wide transcriptional dysregulation, including 21 transcripts that overlapped with autism-associated genes. Our study cannot exclude that the lower maternal care provided by mothers exposed to a low-protein diet caused an additional impact on social cognition. Our results showed that maternal protein malnutrition dysregulates gene expression in the medial prefrontal cortex, promoting altered offspring behavior that was intergenerationally transmitted. These results support the hypothesis that early nutritional deficiency represents a risk factor for the emergence of symptoms associated with neurodevelopmental disorders.

Very low-density lipoprotein receptor increases in a liver-specific manner due to protein deficiency but does not affect fatty liver in mice.

Very low-density lipoprotein receptor (VLDLR) is a member of the LDL receptor family that is involved in the uptake of VLDL into cells. Increased hepatic VLDLR under endoplasmic reticulum (ER) stress has been shown to cause fatty liver. In this study, the effect of dietary protein restriction on hepatic VLDLR and the role of VLDLR in fatty liver were investigated using Vldlr knockout (KO) mice. Growing wild-type (WT) and KO mice were fed a control diet containing 20% ​​protein or a low protein diet containing 3% protein for 11 days. In WT mice, the amount of hepatic Vldlr mRNA and VLDLR protein increased by approximately 8- and 7-fold, respectively, due to protein restriction. Vldlr mRNA and protein levels increased in both type 1 and type 2 VLDLR. However, neither Vldlr mRNA nor protein levels were significantly increased in heart, muscle, and adipose tissue, demonstrating that VLDLR increase due to protein restriction occurred in a liver-specific manner. Increased liver triglyceride levels during protein restriction occurred in KO mice to the same extent as in WT mice, indicating that increased VLDLR during protein restriction was not the main cause of fatty liver, which was different from the case of ER stress.

Taurine treatment reverses protein malnutrition-induced endothelial dysfunction of the pancreatic vasculature: The role of hydrogen sulfide.

BACKGROUND: Protein malnutrition in childhood predisposes individuals to vascular and pancreatic endocrine dysfunction, thus increasing the risk of diabetes and hypertension. Because taurine may reduce cardiometabolic risk, we hypothesized that taurine treatment has a beneficial effect on the pancreatic vasculature during protein restriction. METHODS AND RESULTS: Weaned mice were fed a normal or a low-protein diet and were treated with or without taurine for 3 months. The lieno-pancreatic artery (LPA) from low-protein diet-treated mice exhibited impaired endothelium-dependent relaxation to acetylcholine that was associated with decreased endothelium-derived hyperpolarization (EDH), hydrogen sulfide (H2S) production, and H2S-synthesizing CBS expression and impaired vasorelaxation to an H2S-donor, NaHS. These changes were prevented by taurine treatment. We compared the effects of taurine with the effects of the direct vasodilator hydralazine and found that both normalized blood pressure and the endothelial vasodilator function of the LPA in the mice fed a protein-restricted diet. However, only taurine restored the CBS expression in the LPA and insulin secretion in response to high glucose. The LPA supplies the pancreas and shares morphometry with the mesenteric resistance artery (MRA). However, in the MRA, low-protein diet-induced endothelial dysfunction is driven by impaired NOS-derived NO with no changes in H2S signaling. CONCLUSIONS: The results suggest that taurine protects against protein malnutrition-induced endothelial dysfunction in the LPA by upregulating the CBS-H2S pathway. Considering the importance of the pancreatic vasculature for endocrine islet activity, taurine may be a potential therapy for the vascular and metabolic dysfunction associated with malnutrition and comorbidities.

Protein deficiency during Trichinella spiralis infection impairs lung immunity against newborn larvae.

The goal of this study was to analyse the effects of a protein-deficient (PD) diet on antibody-dependent cell-mediated cytotoxicity (ADCC) in vitro against newborn larvae (NBL) of Trichinella spiralis in the lungs of infected rats. Two groups of weaning Wistar rats received a PD diet (6.5% casein) and other two received a control diet (C, 20% casein). After ten days, one group of each diet was infected (PDI and CI ) with muscle larvae. Lung tissue extracts (LTE) and lung cell suspension (LCS) were obtained. PDI had lower titres of anti-NBL antibodies in LTE than CI . In ADCC assays using control cells, NBL mortality percentage was lower with LTE from PDI than LTE from CI (P < .01). In assays using control cytotoxic sera, ADCC was exerted by LCS from CI at all days post-infection (p.i.), but only by LCS from 13 days p.i. from PDI . ADCC assays combining LTE and LCS from the same group showed a lower response for PDI than for CI (P < .0001). LCS from PDI contained lower numbers of neutrophils, eosinophils and FcεRI+ cells than CI . PD may diminish ADCC activity against T spiralis NBL in lungs through alterations in specific antibodies and effector cells.

Dietary Protein and Amino Acid Deficiency Inhibit Pancreatic Digestive Enzyme mRNA Translation by Multiple Mechanisms.

BACKGROUND & AIMS: Chronic amino acid (AA) deficiency, as in kwashiorkor, reduces the size of the pancreas through an effect on mammalian target of rapamycin complex 1 (mTORC1). Because of the physiological importance of AAs and their role as a substrate, a stimulant of mTORC1, and protein synthesis, we studied the effect of acute protein and AA deficiency on the response to feeding. METHODS: ICR/CD-1 mice were fasted overnight and refed for 2 hours with 4 different isocaloric diets: control (20% Prot); Protein-free (0% Prot); control (AA-based diet), and a leucine-free (No Leu). Protein synthesis, polysomal profiling, and the activation of several protein translation factors were analyzed in pancreas samples. RESULTS: All diets stimulated the Protein Kinase-B (Akt)/mTORC1 pathway, increasing the phosphorylation of the kinase Akt, the ribosomal protein S6 (S6) and the formation of the eukaryotic initiation factor 4F (eIF4F) complex. Total protein synthesis and polysome formation were inhibited in the 0% Prot and No Leu groups to a similar extent, compared with the 20% Prot group. The 0% Prot diet partially reduced the Akt/mTORC1 pathway and the activity of the guanine nucleotide exchange factor eIF2B, without affecting eIF2α phosphorylation. The No Leu diet increased the phosphorylation of eIF2α and general control nonderepressible 2, and also inhibited eIF2B activity, without affecting mTORC1. Essential and nonessential AA levels in plasma and pancreas indicated a complex regulation of their cellular transport mechanisms and their specific effect on the synthesis of digestive enzymes. CONCLUSIONS: These studies show that dietary AAs are important regulators of postprandial digestive enzyme synthesis, and their deficiency could induce pancreatic insufficiency and malnutrition.

Implications of protein malnutrition and inflammatory disorders in the pathophysiology of Alzheimer's disease.

Lean body mass (LBM) agglomerates the bulk of nitrogen (N)-containing molecules following well-identified age and sex evolutionary patterns best appraised in clinical practice using the serial measurement of plasma transthyretin (TTR). Methionine (Met), the sole essential amino acid bearing a sulfur (S) atom, presides at the initiation of protein synthesis while maintaining stable body tissue S:N molar ratios of approximately 1:14.5. In protein- depleted states, N- and Met-deficiencies operate as limiting factors for LBM protein synthesis and accretion, causing growth retardation and subnormal TTR plasma values. In inflammatory disorders, LBM is subjected to cytokine-induced tissue breakdown reflecting the S:N ratio found in healthy tissues whereas the liver secretion of TTR declines in proportion. Both malnutrition and inflammation are characterized by stepwise LBM downsizing and reduced bioavailability of Met body stores setting in motion molecular mechanisms safeguarding Met homeostasis at the expense of augmented homocysteine (Hcy) values in biological fluids. Divergent TTR and Hcy alterations indicate that rising Hcy values measured in plasma and cerebrospinal fluid should be regarded as the dark side of efficient compensatory processes. As a result, the neuroprotective activities normally exerted by TTR are weakened, whereas the oxidative burden generated by supranormal Hcy concentrations are strengthened. The combination of protein malnutrition and inflammatory disorders of any cause maximizes the risk of incurable neurodegenerative effects.

Unusual Late-onset Enteropathy in a Patient With Lipopolysaccharide-responsive Beige-like Anchor Protein Deficiency.

In recent years, monogenic causes of immune dysregulation syndromes, with variable phenotypes, have been documented. Mutations in the lipopolysaccharide-responsive beige-like anchor (LRBA) protein are associated with common variable immunodeficiency, autoimmunity, chronic enteropathy, and immune dysregulation disorders. The LRBA protein prevents degradation of cytotoxic T-lymphocyte antigen 4 (CTLA4) protein, thus inhibiting immune responses. Both LRBA and CTLA4 deficiencies usually present with immune dysregulation, mostly characterized by autoimmunity and lymphoproliferation. In this report, we describe a patient with an atypical clinical onset of LRBA deficiency and the patient's response to abatacept, a fusion protein-drug that mimics the action of CTLA4.

Dietary protein insufficiency: an important consideration in fatty liver disease?

Dietary protein insufficiency has been linked to excessive TAG storage and non-alcoholic fatty liver disease (NAFLD) in developing countries. Hepatic TAG accumulation following a low-protein diet may be due to altered peroxisomal, mitochondrial and gut microbiota function. Hepatic peroxisomes and mitochondria normally mediate metabolism of nutrients to provide energy and substrates for lipogenesis. Peroxisome biogenesis and activities can be modulated by odd-chain fatty acids (OCFA) and SCFA that are derived from gut bacteria, for example, propionate and butyrate. Also produced during amino acid metabolism by peroxisomes and mitochondria, propionate and butyrate concentrations correlate inversely with risk of obesity, insulin resistance and NAFLD. In this horizon-scanning review, we have compiled available evidence on the effects of protein malnutrition on OCFA production, arising from loss in mitochondrial, peroxisomal and gut microbiota function, and its association with lipid accumulation in the liver. The methyl donor amino acid composition of dietary protein is an important contributor to liver function and lipid storage; the presence and abundance of dietary branched-chain amino acids can modulate the composition and metabolic activity of the gut microbiome and, on the other hand, can affect protective OCFA and SCFA production in the liver. In preclinical animal models fed with low-protein diets, specific amino acid supplementation can ameliorate fatty liver disease. The association between low dietary protein intake and fatty liver disease is underexplored and merits further investigation, particularly in vulnerable groups with dietary protein restriction in developing countries.

Club Cell Secretory Protein Deficiency Leads to Altered Lung Function.

RATIONALE: CC16 (club cell secretory protein-16), a member of the secretoglobin family, is one of the most abundant proteins in normal airway secretions and has been described as a serum biomarker for obstructive lung diseases. OBJECTIVES: To determine whether low CC16 is a marker for airway pathology or is implicated in the pathophysiology of progressive airway damage in these conditions. METHODS: Using human data from the birth cohort of the Tucson Children's Respiratory Study, we examined the relation of circulating CC16 levels with pulmonary function and responses to bronchial methacholine challenge from childhood up to age 32 years. In wild-type and CC16-/- mice, we set out to comprehensively examine pulmonary physiology, inflammation, and remodeling in the naive airway. MEASUREMENTS AND MAIN RESULTS: We observed that Tucson Children's Respiratory Study participants in the lowest tertile of serum CC16 had significant deficits in their lung function and enhanced airway hyperresponsiveness to methacholine challenge from 11 years throughout young adult life. Similarly, CC16-/- mice had significant deficits in lung function and enhanced airway hyperresponsiveness to methacholine as compared with wild-type mice, which were independent of inflammation and mucin production. As compared with wild-type mice, CC16-/- mice had significantly elevated gene expression of procollagen type I, procollagen type III, and α-smooth muscle actin, areas of pronounced collagen deposition and significantly enhanced smooth muscle thickness. CONCLUSIONS: Our findings support clinical observations by providing evidence that lack of CC16 in the lung results in dramatically altered pulmonary function and structural alterations consistent with enhanced remodeling.

Maternal protein malnutrition induces autism-like symptoms in rat offspring.

Objective: We tested the correlation between maternal protein malnutrition and autistic-like symptoms using behavioral tests in rodents that measure main behavioral characteristics observed in humans with autism spectrum disorder (ASD). Methods: Pregnant female rats were fed a normal diet or a hypoproteic diet during gestation and lactation periods. The litters were weighed every 3 days during lactation, and the offspring were tested in behavioral tasks during infancy (postnatal day (PND) 5: quantification of ultrasonic vocalizations; PND 13: homing behavior test) and adolescence (PND 30-32: open field, hole-board, play social behavior, and object recognition tests) in order to capture the prevalence of some of the core and associated symptoms of ASD. Results: Litters of the hypoproteic diet group had a lesser weight gain during lactation. In addition, pups of dams fed with a hypoproteic diet vocalized less compared to those fed with a normal diet, and they showed impaired social discrimination abilities in the homing behavior test. In adolescence, both male and female offspring of the hypoproteic diet group showed no impairment in locomotor activity; however, they exhibited stereotypic behavior in the hole-board test and a decrease in social play behaviors. Male offspring showed increased interest in exploring a familiar object rather than a novel object. Conclusion: Our results show that maternal protein malnutrition in rats causes offspring behaviors that resemble core and associated ASD symptoms.

Protein malnutrition effects of perivascular bone marrow microenvironment on the regulation of hematopoiesis / Efeitos da desnutrição proteica sobre o microambiente perivascular medular na regulação da hematopoese

Protein malnutrition (PM) causes anemia and leukopenia by reduction of hematopoietic precursors and impaired production of mediators that induce hematopoiesis, as well as structural and ultrastructural changes in the bone marrow (BM) extracellular matrix. Hematopoiesis occurs in the bone marrow (BM) in distinct regions called niches, which modulate the processes of differentiation, proliferation and self-renewal of the hematopoietic stem cell (HSC). The perivascular niche, composed mainly by mesenchymal stem cells (MSC) and endothelial cells (EC), is the major modulator of HSC and its function extends to the migration of mature hematopoietic cells into the peripheral blood through the production of cytokines and growth factors. Thus, our hypothesis is that PM changes the perivascular niche and our objective is to evaluate whether PM affects the modulatory capacity of MSC and EC on hematopoiesis. C57BL/6 male mice were divided into Control and Malnourished groups, which received for 5 weeks, respectively, a normal protein diet (12% casein) and a low protein diet (2% casein). After this period, animals were euthanized, nutritional and hematological evaluations were performed, featuring the PM. We performed leukemic myelo-monoblasts cells transplantation and observed that these cells have a lower proliferation rate and are rather in the cell cycle G0/G1 phases in malnourished mice, indicating that the BM microenvironment is compromised in PM. MSC were isolated, characterized and differentiated in vitro into EC cells, which were evidenced by CD31 and CD144 markers. We performed the quantification of HSC and hematopoietic progenitors, as well as some regulators of proliferation and differentiation, ex vivo and after cultures with MSC or EC. We observed that PM reduces HSC and hematopoietic progenitors ex vivo. In PM, MSC promote increase in HSC and suppress hematopoietic differentiation, whereas ECs induce cell cycle arrest. Additionally, we verified that PM affects granulopoesis by decreasing the expression of G-CSFr in granule-monocytic progenitors. Thus, we conclude that PD compromises hematopoiesis due to intrinsic alterations in HSC, as well as alterations in the medullary perivascular niche

A desnutrição proteica (DP) provoca anemia e leucopenia decorrente da redução de precursores hematopoéticos e comprometimento da produção de mediadores indutores da hematopoese. A hematopoese ocorre na medula óssea (MO) em regiões distintas chamadas de nichos, que modulam os processos de diferenciação, proliferação e auto renovação da célula tronco hematopoiética (CTH). O microambiente perivascular, composto principalmente por células tronco mesenquimais (CTM) e células endoteliais (CE), é o principal modulador das CTH e sua função se estende até a migração das células hematopoiéticas maduras para o sangue periférico, através da produção de citocinas e fatores de crescimento. Dessa forma, nossa hipótese é que a DP altera o microambiente perivascular e objetivamos avaliar se a DP afeta a capacidade modulatória das CTM e CE sobre a hematopoese. Utilizamos camundongos C57BL/6 machos, divididos em grupos Controle e Desnutrido, sendo que o grupo Controle recebeu ração normoproteica (12% caseína) e o grupo Desnutrido recebeu ração hipoproteica (2% caseína), ambos durante 5 semanas. Após este período, os animais foram eutanasiados, foi realizada a avaliação nutricional e hematológica, caracterizando a DP. Realizamos transplantes de mielomonoblastos leucêmicos e observamos que estas células apresentam menor taxa de proliferação e se encontram em maior quantidade nas fases G0/G1 do ciclo celular em camundongos desnutridos, indicando que o microambiente medular está comprometido. Isolamos CTM, que foram caracterizadas e diferenciadas in vitro em CE, o que foi evidenciado pelos marcadores CD31 e CD144. Quantificamos CTH e progenitores hematopoéticos, bem como reguladores de proliferação e diferenciação, ex vivo e após culturas com CTM ou CE. Observamos que a DP reduz CTH e progenitores hematopoéticos ex vivo. Na DP, as CTM promovem incremento de CTH e suprimem a diferenciação hematopoética, enquanto que as CE induzem parada no ciclo celular. Adicionalmente, observamos que a DP afeta a granulopoese por diminuição da expressão de G-CSFr nos progenitores grânulo-monocíticos. Dessa forma, concluímos que a DP compromete a hematopoese por alterações intrínsecas na CTH, como também por alterações ocasionadas no microambiente perivascular medular

Protein deficiency reduces efficacy of oral attenuated human rotavirus vaccine in a human infant fecal microbiota transplanted gnotobiotic pig model.

BACKGROUND: Low efficacy of rotavirus (RV) vaccines in developing African and Asian countries, where malnutrition is prevalent, remains a major concern and a challenge for global health. METHODS: To understand the effects of protein malnutrition on RV vaccine efficacy, we elucidated the innate, T cell and cytokine immune responses to attenuated human RV (AttHRV) vaccine and virulent human RV (VirHRV) challenge in germ-free (GF) pigs or human infant fecal microbiota (HIFM) transplanted gnotobiotic (Gn) pigs fed protein-deficient or -sufficient bovine milk diets. We also analyzed serum levels of tryptophan (TRP), a predictor of malnutrition, and kynurenine (KYN). RESULTS: Protein-deficient pigs vaccinated with oral AttHRV vaccine had lower protection rates against diarrhea post-VirHRV challenge and significantly increased fecal virus shedding titers (HIFM transplanted but not GF pigs) compared with their protein-sufficient counterparts. Reduced vaccine efficacy in protein-deficient pigs coincided with altered serum IFN-α, TNF-α, IL-12 and IFN-γ responses to oral AttHRV vaccine and the suppression of multiple innate immune parameters and HRV-specific IFN-γ producing T cells post-challenge. In protein-deficient HIFM transplanted pigs, decreased serum KYN, but not TRP levels were observed throughout the experiment, suggesting an association between the altered TRP metabolism and immune responses. CONCLUSION: Collectively, our findings confirm the negative effects of protein deficiency, which were exacerbated in the HIFM transplanted pigs, on innate, T cell and cytokine immune responses to HRV and on vaccine efficacy, as well as on TRP-KYN metabolism.

Comportamento social em ratos recuperados após desnutrição proteica: análise comparativa entre machos e fêmeas / Social behavior in rats recovered from protein malnutrition: comparative analysis between males and females

A maturação do sistema nervoso central depende, entre outros fatores, da ingestão adequada de nutrientes. Períodos de desnutrição podem afetar seu desenvolvimento, comprometendo a capacidade cognitiva. O objetivo do trabalho foi avaliar o comportamento social de ratos e ratas Wistar alimentados com dieta hipoproteica e posteriormente recuperados com dieta normoproteica. Foram utilizados ratos Wistar (machos e fêmeas) divididos em dois grupos: Controle (C), alimentado com dieta normoproteica (AIN 14% de proteína) durante 12 semanas e Recuperado (R), desnutrido com dieta hipoproteica (AIN 6% de proteína) por 6 semanas e posteriormente alimentado com dieta normoproteica da 7ª a 12ª semanas. A massa corporal foi verificada semanalmente e após o período experimental os animais foram submetidos aos testes de labirinto em cruz elevado e reconhecimento social. Foram avaliados os parâmetros sensoriais utilizados pelos ratos no reconhecimento de seus pares no lócus de convívio. Utilizou-se o paradigma intruso-residente na análise, sendo observado que a dieta hipoproteica comprometeu o ganho de massa corporal em machos e fêmeas, como também foi verificado redução na capacidade de reconhecer seus pares, após exposição consecutiva de curta duração, e ainda, houve uma intensa manifestação de agressividade nos machos do grupo recuperado, fato que não foi observado pelas fêmeas indicando que a intensidade de comprometimento no sistema nervoso central, gerado pela desnutrição pode ter relação com o dimorfismo sexual. (AU)

The maturation of the central nervous system depends, among other factors, proper intake of nutrients. Periods of malnutrition can affect your development, undermining the cognitive ability. The objective of this work was to evaluate the social behavior of mice and Wistar rats fed with hipoproteica diet and later recovered with present diet. Wistar rats were used (males and females) divided into two groups: control (C), fed up with the present diet (AIN 14% protein) for 12 weeks and recovered (R), malnourished with diet hipoproteica (AIN 6% protein) for 6 weeks and subsequently fed with the present diet of 7th to 12th weeks. Body mass was checked weekly and after the trial period the animals were subjected to the tests of high cross maze and social recognition. We evaluated the sensory parameters used by rats in the recognition of his peers in locus. The intruder-resident paradigm in the analysis, being observed that diet hipoproteica undertook the weight gain in males and females and verified reduction in ability to recognize their peers, after successive exposure of short duration, and yet, there was an intense manifestation of aggression in males of the group recovered, a fact that was not observed for females, indicating that the intensity of commitment in the central nervous system, generated by malnutrition may be related to sexual dimorphism. (AU)

Early Protein Inadequacy Is Associated With Longer Intensive Care Unit Stay and Fewer Ventilator-Free Days: A Retrospective Analysis of Patients With Prolonged Surgical Intensive Care Unit Stay.

BACKGROUND: Failure to provide adequate nutrition in the intensive care unit (ICU) may be particularly harmful for patients with prolonged critical illness. We hypothesized that early nutrition inadequacy is more influential for those requiring a longer ICU stay versus those requiring a shorter stay. METHODS: We enrolled 280 adult patients with prolonged surgical ICU stay who were receiving enteral nutrition for >72 hours. Subjects were divided into 2 groups: shortICU (<14 days) and longICU (≥14 days). Nutrition deficits at ICU days 3 and 7 were calculated. To investigate whether early nutrient deficit was associated with ICU length of stay (LOS), hospital LOS, 28-day ventilator-free days, and discharge disposition (home/rehabilitation vs death/nursing home), we performed linear and logistic regression analyses controlling for age, sex, body mass index, and APACHE II (Acute Physiology and Chronic Health Evaluation). RESULTS: While the shortICU (n = 163) and longICU (n = 117) groups were similar in age, APACHE II, Injury Severity Score, energy/protein prescription, and enteral nutrition initiation within 48 hours, the longICU group was more commonly male (76% vs 61%, P = .007) and had higher body mass index (27.4 vs 25.6, P = .007). Significant interactions occurred: in the longICU group but not the shortICU group, protein deficits were associated with longer ICU stay and fewer 28-day ventilator-free days. CONCLUSIONS: Early protein deficits accumulating at ICU days 3 and 7 are associated with worse clinical outcomes among patients requiring longer ICU stays. Additional studies are required to confirm these findings.

Generation of the Maternal Low-Protein Rat Model for Studies of Metabolic Disorders.

Poor nutrition during pregnancy leads to an increased risk of metabolic disorders and other diseases in the offspring. This can be modelled in animals through manipulation of the maternal diet. One such model is the maternal low-protein rat which gives rise to offspring characterized by insulin resistance. This chapter gives a detailed protocol for generation of the maternal low-protein rat, which has been used in the study of several disorders including diabetes and psychiatric disorders.

A participação da autofagia na regulação da célula-tronco hemopoética em camundongos knockouts para Atg7 e transglutaminase 2 / The participation of autophagy in hemopoietic stem cell regulation in mice Knockouts for Atg7 and transglutaminase 2

A desnutrição é um dos principais problemas de saúde pública do mundo, que contribui significativamente para o aumento da morbidade e mortalidade. Estima-se um total de 815 milhões de pessoas subnutridas no mundo, e apesar da melhoria dos recursos alimentares o número de pessoas desnutridas ainda é alarmante. Estudos de nosso laboratório tem demonstrado, em modelo murino de desnutrição proteica, hipoplasia medular com evidências histológicas de alterações na matriz extracelular (MEC) e permanência da célula-tronco hemopoética (CTH) na fase G0/G1 do ciclo celular em camundongos desnutridos. Dados deste trabalho evidenciaram alterações nas proteínas Akt /mTOR, que podem contribuir para o aumento da expressão autofágica nas CTHs e CTPHs (célula-tronco progenitora). A literatura demonstra que desequilíbrios nutricionais e metabólicos podem induzir ativação autofágica. Autofagia é um processo catabólico que participa da manutenção da homeostase celular, da MEC e na regulação das CTHs, dados deste trabalho demonstram diminuição da quantidade de CTH e CTPH em camundongos desnutridos sem a presença do gene Atg7, proteína participativa no processo autofágico. Já camundongos com deleção da transglutaminase 2 (TG2) e submetidos a privação de nutrientes por 24 horas , apresentou diminuição da quantidade de CTH e aumento da diferenciação da CTPH. A TG2 tem participação na impulsão e formação do fagóforo (processo inicial autofágico). Considerando que a desnutrição proteica leva a comprometimento da hemopoese, alterações no ciclo celular das CTHs e hipoplasia medular com pancitopenia periférica e que privação e ou jejum prolongado de nutrientes pode aumentar a atividade autofágica, concluímos nesse projeto que autofagia é importante para regulação da CTH e diferenciação da CTPH, entretanto a desnutrição proteica e privação de nutrientes estimula de maneira diversa o mecanismo de diferenciação da CTH

Malnutrition is one of the world's major public health problems, which contributes significantly to increased morbidity and mortality. An estimated 815 million people are undernourished in the world, and despite the improvement in food resources the number of undernourished people is still alarming. Studies of our laboratory have demonstrated in murine model of protein malnutrition, medullary hypoplasia with histological evidence of extracellular matrix (ECM) changes and hemopoietic stem cell (HSC) stay in the G0/ G1 phase of the cell cycle in malnourished mice. Data from this work showed alterations in Akt / mTOR proteins, which may contribute to the increase of autophagic expression in HSC and HPC (progenitor stem cell). The literature demonstrates that nutritional and metabolic imbalances can induce autophagic activation. Autophagy is a catabolic process that participates in the maintenance of cellular homeostasis, ECM and in the regulation of HSC, data from this work demonstrate a decrease in the amount of HSC and HPC in malnourished mice without the presence of the Atg7 gene, a participatory protein in the autophagic process. Mice with transglutaminase 2 deletion (TG2) and submitted to nutrient deprivation for 24 hours showed a decrease in the amount of HSC and an increase in the differentiation of HPC. TG2 plays a role in the uptake and formation of phagophore (autophagic initial process). Considering that protein malnutrition leads to hemopoiesis, alterations in the cell cycle of HSC and spinal cord hypoplasia with peripheral pancytopenia, and that prolonged nutrient starvation or fasting may increase the autophagic activity, we conclude in this project that autophagy is important for regulation of HSC and differentiation of HPC, however, protein malnutrition and nutrient deprivation stimulate in a different way the mechanism of differentiation of HSC

[Unusual case of struvite urolithiasis in a dog. A case report]. / Ungewöhnlicher Fall von Struvit-Urolithiasis bei einem Hund. Ein Fallbericht.

A dog was referred for nutrition consultation after surgical removal of struvite uroliths from the bladder. Inspection of the dog's current ration revealed a pronounced vitamin-A deficiency together with a marked deficiency of protein, phosphorus and magnesium. Therefore, a supersaturation of the urine with ammonium, magnesium and phosphate, the three constituents of struvite, as a cause of struvite calculi formation appears rather unlikely. Vitamin-A deficiency can promote urinary infections and consequently struvite stone formation because of the lack of the protective effect of vitamin A on the epithelia of the urinary tract. Not only common causes for struvite urolith formation, including urinary supersaturation with stone-forming constituents and urinary tract infection, but also less common causes, including vitamin-A deficiency, which was the presumed trigger in the present case study, have to be taken into consideration. Dietetic measures appear to be a useful tool in such cases to prevent uroliths from reoccurring.

Hambre oculta / Hidden Hunger

El hambre oculta es un problema a nivel mun-dial que ocasiona altas tasas de mortalidad si se compara con algunas de las enfermedades infectocontagiosas como malaria y tuberculo-sis. Cuando existe la desnutrición aumenta el deterioro en la capacidad de producción, trabajo y por ende en la producción de alimen-tos. Hambre oculta se de ne como la de cien-cia crónica de micronutrientes. Afecta la salud de forma silenciosa y grave, llegando a ocasio-nar en muchos casos la muerte. El problema engloba a los niños con desnutrición y también a aquellos con sobrepeso que esconden la escasez de nutrientes, por lo que debemos educar a la población sobre como recibir una alimentación balanceada y equilibrada.En Centroamérica y el Caribe existe un dé cit importante de micronutrientes. Debemos de ser proactivos en mejorar la alimentación para disminuir la desnutrición y obesidad. Para ello debemos mejorar la producción de alimentos. La forti cación de granos y cereales es la opción más rentable y sostenible en las mejo-ras del estado nutricional, aumentando su biodisponibilidad de los nutrientes.Erradicar el hambre y la desnutrición debe ser nuestra meta concreta, por lo que el objetivo de esta revisión es resaltar la importancia de administrar una cantidad y composición adecuada de micronutrientes desde el primer día de la gestación para hacer que disminuyaeste agelo. Es nuestra responsabilidad, y debe ser parte de la política pública, ya que a los problemas éticos ligados a la desnutrición, se añaden consecuencias negativas que afecta-ran a todos los niños...(AU)