Dieta normocalórica de ácidos graxos de cadeia média: Efeitos sobre a secreção de insulina, tecido adiposo e fígado de ratos jovens / Medium chain fat acid normocaloric diet: effects upon insulin secretion, adipose tissue and liver of young rats

Marçal, Anderson Carlos

15 March 2009

A suplementação dietética com AGCM induz resistência à insulina, redução de peso ponderal e aumento da adiposidade em ratos Wistar. Adipócitos isolados apresentam reduzidas captação de glicose estimulada por insulina e atividade/fosforilação da proteína AMPK. A expressão protéica do IR no tecido hepático está aumentada em animais tratados com AGCM com redução do grau de fosforilação, enquanto que o grau de fosforilação da proteína AKT permaneceu semelhante entre os grupos. Ilhotas pancreáticas isoladas apresentam redução na secreção de insulina quando incubadas com altas concentrações de glicose, diminuição do conteúdo total de insulina, hipersensibilidade a leucina e/ou arginina e aumento do percentual de morte celular com diminuída expressão da proteína AKT_1 . Desta forma, utilização em longo prazo dessa estratégia nutricional pode interferir no crescimento normal do indivíduo, na sensibilidade à insulina e possívelmente, desenvolvimento e instalação do diabetes. _______________________________________________________________________________________ ABSTRACT: The introduction of MCFA into diet induces insulin resistance, reduced body weight gain, and increased adiposity in Wistar rats. Isolated adipocytes have reduced insulin induced glucose uptake and phosphorylation/activation of AMPK protein. The insulin receptor protein expression is increased in liver of MCFA fed rats accompanied by reduced tyrosine phosphorylation, with similar AKT serine phosphorylation. Isolated pancreatic islets had reduced glucose stimulated insulin secretion due to high glucose exposure and reduced insulin content; higher insulin secretion induced by leucine and arginine, and increased apoptosis with reduced AKT protein level. In these regard, the chronic ingestion of MCFA may interfere with normal body growth, with the insulin sensitivity and may participate with the development of diabetes.

Ácidos graxos de cadeia média (AGCM)

Ilhotas pancreáticas

Resistência à insulina

Receptor para insulina

Sinalização intracelular

Tecido adiposo

Dieta normocalórica de ácidos graxos de cadeia média: Efeitos sobre a secreção de insulina, tecido adiposo e fígado de ratos jovens / Medium chain fat acid normocaloric diet: effects upon insulin secretion, adipose tissue and liver of young rats

Marçal, Anderson Carlos

21 September 2009

A suplementação dietética com AGCM induz resistência à insulina, redução de peso ponderal e aumento da adiposidade em ratos Wistar. Adipócitos isolados apresentam reduzidas captação de glicose estimulada por insulina e atividade/fosforilação da proteína AMPK. A expressão protéica do IR no tecido hepático está aumentada em animais tratados com AGCM com redução do grau de fosforilação, enquanto que o grau de fosforilação da proteína AKT permaneceu semelhante entre os grupos. Ilhotas pancreáticas isoladas apresentam redução na secreção de insulina quando incubadas com altas concentrações de glicose, diminuição do conteúdo total de insulina, hipersensibilidade a leucina e/ou arginina e aumento do percentual de morte celular com diminuída expressão da proteína AKT_1 . Desta forma, utilização em longo prazo dessa estratégia nutricional pode interferir no crescimento normal do indivíduo, na sensibilidade à insulina e possívelmente, desenvolvimento e instalação do diabetes. / The introduction of MCFA into diet induces insulin resistance, reduced body weight gain, and increased adiposity in Wistar rats. Isolated adipocytes have reduced insulin induced glucose uptake and phosphorylation/activation of AMPK protein. The insulin receptor protein expression is increased in liver of MCFA fed rats accompanied by reduced tyrosine phosphorylation, with similar AKT serine phosphorylation. Isolated pancreatic islets had reduced glucose stimulated insulin secretion due to high glucose exposure and reduced insulin content; higher insulin secretion induced by leucine and arginine, and increased apoptosis with reduced AKT protein level. In these regard, the chronic ingestion of MCFA may interfere with normal body growth, with the insulin sensitivity and may participate with the development of diabetes.

Adipose tissue

AGCM

Ilhotas pancreáticas

Insulin receptor

Insulin resistance

Intracellular signaling

MCFA

Pancreatic islets

Receptor para insulina

Resistência à insulina

Sinalização intracelular

Tecido adiposo

Dieta normocalórica de ácidos graxos de cadeia média: Efeitos sobre a secreção de insulina, tecido adiposo e fígado de ratos jovens / Medium chain fat acid normocaloric diet: effects upon insulin secretion, adipose tissue and liver of young rats

Anderson Carlos Marçal

21 September 2009

A suplementação dietética com AGCM induz resistência à insulina, redução de peso ponderal e aumento da adiposidade em ratos Wistar. Adipócitos isolados apresentam reduzidas captação de glicose estimulada por insulina e atividade/fosforilação da proteína AMPK. A expressão protéica do IR no tecido hepático está aumentada em animais tratados com AGCM com redução do grau de fosforilação, enquanto que o grau de fosforilação da proteína AKT permaneceu semelhante entre os grupos. Ilhotas pancreáticas isoladas apresentam redução na secreção de insulina quando incubadas com altas concentrações de glicose, diminuição do conteúdo total de insulina, hipersensibilidade a leucina e/ou arginina e aumento do percentual de morte celular com diminuída expressão da proteína AKT_1 . Desta forma, utilização em longo prazo dessa estratégia nutricional pode interferir no crescimento normal do indivíduo, na sensibilidade à insulina e possívelmente, desenvolvimento e instalação do diabetes. / The introduction of MCFA into diet induces insulin resistance, reduced body weight gain, and increased adiposity in Wistar rats. Isolated adipocytes have reduced insulin induced glucose uptake and phosphorylation/activation of AMPK protein. The insulin receptor protein expression is increased in liver of MCFA fed rats accompanied by reduced tyrosine phosphorylation, with similar AKT serine phosphorylation. Isolated pancreatic islets had reduced glucose stimulated insulin secretion due to high glucose exposure and reduced insulin content; higher insulin secretion induced by leucine and arginine, and increased apoptosis with reduced AKT protein level. In these regard, the chronic ingestion of MCFA may interfere with normal body growth, with the insulin sensitivity and may participate with the development of diabetes.

AGCM

Ilhotas pancreáticas

Receptor para insulina

Resistência à insulina

Sinalização intracelular

Tecido adiposo

Adipose tissue

Insulin receptor

Insulin resistance

Intracellular signaling

MCFA

Pancreatic islets

Impact Of Dynamical Core And Diurnal Atmosphere Occean Coupling On Simulation Of Tropical Rainfall In CAM 3.1, AGCM

Kumar, Suvarchal

04 1900

In first part of the study we discuss impact of dynamical core in simulation of tropical rainfall. Over years many new dynamical cores have been developed for atmospheric models to increase efficiency and reduce numerical errors. CAM3.1 gives an opportunity to study the impact of the dynamical core on simulations with its three dynamical cores namely Eulerian spectral(EUL) , Semilagrangian dynamics(SLD) and Finite volume(FV) coupled to a single parametrization package. A past study has compared dynamical cores of CAM3 in terms on tracer transport and has showed advantages using FV in terms of tracer transport. In this study we compare the dynamical cores in climate simulations and at their optimal configuration, which is the intended use of the model. The model is forced with AMIP type SST and rainfall over seasonal, interannual scales is compared. The significant differences in simulation of seasonal mean exist over tropics and over monsoon regions with observations and among dynamical cores. The differences among EUL and SLD, which use spectral transform methods are lesser compared that of with FV clearly indicating role of numerics in differences. There exist major errors in simulation of seasonal cycle in all dynamical cores and errors in simulation of seasonal means over many regions are associated with errors in simulation of seasonal cycle such as over south china sea. Seasonal cycle in FV is weaker compared to SLD and EUL. The dynamical cores exhibit different interannual variability of rainfall over Indian monsoon region, the period of maximum power corresponding to a dynamical core differs substantially with another. From this study there seems no superiority associated with FV dynamical core over all climate scales as seen in tracer transport. The next part of the study deals with impact of diurnal ocean atmosphere coupling in an AGCM,CAM3.1. Due to relatively low magnitude of diurnal cycle of SST and lack of SST observations over diurnal scales current atmospheric models are forced with SSTs of periods grater than a day. CAM 3.1 standalone model is forced with monthly SSTs but the interpolation is linear to every time step between any two months and this linear interpolation implies a linear diurnal and intraseasonal variation of SST which is not true in nature. To test the sensitivity of CAM3.1 to coupling of SST on diurnal scales, we prescribed over tropics(20S20N) a diurnal cycle of SST over daily mean interpolated SST of different magnitudes and phase comparable to observations. This idea of using a diurnal cycle of SST retaining seasonal mean SST in an atmospheric model is novel and provides an interesting frame work to test sensitivity of model to interpolations used in coupling of boundary conditions. Our analysis shows a high impact of using diurnal cycle of SST on simulation of mean rainfall over tropics. The impact in a case where diurnal cycle of SST is fixed and retained to daily mean SST implies that changes associated with a coupled model are to some extent due to change in representation of diurnal cycle of SST. A decrease of excess rainfall over western coast of Bay of Bengal and an increase of rainfall over northern bay of Bengal in such case is similar to the improvement due to coupling atmospheric model to a slab ocean model. This also implies that problems with current AMIP models in simulation of seasonal mean Indian monsoon rainfall could be due to erroneous representation of diurnal cycle of SST in models over this region where the diurnal cycle of SST is high in observations. The high spatial variability of the impact in various cases over tropics implies that a similar spatial variation of diurnal cycle could be important for accurate simulation of rainfall over tropics. Preliminary analysis shows that impact on rainfall was due to changes in moisture convergence. We also hypothesized that diurnal cycle of SST could trigger convection over regions such as northern Bay of Bengal and rainfall convergence feedback sustains it. The impact was also found on simulation of internal interannual variability of rainfall

Atmosphere and Ocean Coupling

Rainfall - Tropics - Simulation

Precipitation - Simulation

Sea Surface Temperature Coupling

Rainfall - Interannual Variability

Rainfall - Tropics

Community Atmospheric Model (CAM3.1)

SST Coupling

Diurnal Atmosphere Occean Coupling

Tropical Rainfall

Meteorology

Extended Range Predictability And Prediction Of Indian Summer Monsoon

Xavier, Prince K

05 1900

Indian summer monsoon (ISM) is an important component of the tropical climate system, known for its regular seasonality and abundance of rainfall over the country. The droughts and floods associated with the year-to-year variation of the average seasonal rainfall have devastating effect on people, agriculture and economy of this region. The demand for prediction of seasonal monsoon rainfall, therefore, is overwhelming. A number of attempts to predict the seasonal mean monsoon have been made over a century, but neither dynamical nor empirical models provide skillful forecasts of the extremes of the monsoon such as the unprecedented drought of 2002. This study investigates the problems and prospects of extended range monsoon prediction. An evaluation of the potential predictability of the ISM with the aid of an ensemble of Atmospheric General Circulation Model (AGCM) simulations indicates that the interannual variability (IAV) of ISM is contributed equally by the slow boundary forcing (‘externally’ forced variability) and the inherent climate noise (‘internal’ variability) in the atmosphere. Success in predicting the ISM would depend on our ability to extract the predictable signal from a background of noise of comparable amplitude. This would be possible only if the ‘external’ variability is separable from the ‘internal’ variability. A serious effort has been made to understand and isolate the sea surface temperature (SST) forced component of ISM variability that is not strongly influenced by the ‘internal’ variability. In addition, we have investigated to unravel the mechanism of generation of ‘internal’ IAV so that the method of isolating it from forced variability may be found. Since the primary forcing mechanism of the monsoon is the large-scale meridional gradient of deep tropospheric heat sources, large-scale changes in tropospheric temperature (TT) due to the boundary forcing can induce interannual variations of the timing and duration of the monsoon season. The concept of interannually varying monsoon season is introduced here, with the onset and withdrawal of monsoon definitions based on the reversal of meridional gradient of TT between north and south. This large scale definition of the monsoon season is representative of the planetary scale influence of the El Ni˜no Southern Oscillation (ENSO) on monsoon through the modification of TT and the cross equatorial pressure gradient over the ISM region. A sig- nificant relationship between ENSO and monsoon, that has remained steady over the decades, is discovered by which an El Ni˜no (La Ni˜na) delays (advances) the onset, advances (delays) the withdrawal and suppresses (enhances) the strength of the monsoon. The integral effect of the meridional gradient of TT from the onset to withdrawal proves to be a useful index of seasonal monsoon which isolates the boundary forced signal from the influence of internal variations that has remained steady even in the recent decades. However, consistent with the estimates of potential predictability, the boundary forced variability isolated with the above definitions explains only about 50% of the total interannual variability of ISM. Detailed diagnostics of the onset and withdrawal processes are performed to understand how the ENSO forcing modifies the onset and withdrawal, and thus the seasonal mean monsoon. It is found that during an El Ni˜no, the onset is delayed due to the enhanced adiabatic subsidence that inhibits vertical mixing of sensible heating from the warm landmass during pre-monsoon months, and the withdrawal is advanced due to the horizontal advective cooling. This link between ENSO and monsoon is realized through the advective processes associated with the stationary waves in the upper troposphere set up by the tropical ENSO heating. The remaining 50% of the monsoon IAV is governed by internal processes. To unravel the mechanism of the generation of internal IAV, we perform another set of AGCM simulations, forced with climatological monthly mean SSTs, to extract the pure internal IAV. We find that the spatial structure of the intraseasonal oscillations (ISOs) in these simulations has significant projection on the spatial structure of the seasonal mean and a common spatial mode governs both intraseasonal and interannual variability. Statistical average of ISO anomalies over the season (seasonal ISO bias) strengthens or weakens the seasonal mean. It is shown that interannual anomalies of seasonal mean are closely related to the seasonal mean of intraseasonal anomalies and explain about 50% of the IAV of the seasonal mean. The seasonal mean ISO bias arises partly due to the broadband nature of the ISO spectrum, allowing the intraseasonal time series to be aperiodic over the season and partly due to a non-linear process where the amplitude of ISO activity is proportional to the seasonal bias of ISO anomalies. The later relationship is a manifestation of the binomial character of the rainfall time series. The remaining part of IAV may arise due to the complex land-surface processes, scale interactions, etc. We also find that the ISOs over the ISM region are not significantly modulated by the Pacific and Indian Ocean SST variations. Thus, even with a perfect prediction of SST, only about 50% of the observed IAV of ISM could be predicted with the best model in forced mode. Even so, prediction of all India rainfall (AIR) representing the average conditions of the whole country and the season may not always serve the purposes of monsoon forecasting. One reason is the large inhomogeneities in the rainfall distribution during a normal seasonal monsoon. Agriculture and hydrological sector could benefit more if provided with regional scale forecasts of active/break spells 2-3 weeks ahead. Therefore, we advocate an alternative strategy to the seasonal prediction. Here, we present a method to estimate the potential predictability of active and break conditions from daily rainfall and circulation from observations for the recent 24 years. We discover that transitions from break to active conditions are much more chaotic than those from active to break, a fundamental property of the monsoon ISOs. The potential predictability limit of monsoon breaks (∼20 days) is significantly higher than that of the active conditions (∼10 days). An empirical real- time forecasting strategy to predict the sub-seasonal variations of monsoon up to 4 pentads (20 days) in advance is developed. The method is physically based, with the consideration that the large-scale spatial patterns and slow evolution of monsoon intraseasonal variations possess some similarity in their evolutions from one event to the other. This analog method is applied on NOAA outgoing longwave radiation (OLR) pentad mean data which is available on a near real time basis. The elimination of high frequency variability and the use of spatial and temporal analogs produces high and useful skill of predictions over the central and northern Indian region for a lead-time of 4-5 pentads. An important feature of this method is that, unlike other empirical methods to forecast monsoon ISOs, this uses minimal time filtering to avoid any possible end-point effects, and hence it has immense potential for real-time applications.

Monsoon - Forecasting - India

Monsoon - Interannual Variability

Monsoon Intraseasonal Oscillations

El Nino Southern Oscillation - Monsoon

Indian Summer Monsoon (ISM)

ENSO-Monsoon

Intraseasonal Oscillations (ISOs)

Community Climate Model Version 3 (CCM3)

Climatology