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Regulation of Food Intake01:30

Regulation of Food Intake

Short-term regulation of food intake primarily involves neural signals from the gastrointestinal (GI) tract, blood nutrient levels, and GI tract hormones. Communication between the gut and brain via vagal nerve fibers plays a significant role in evaluating the contents of the gut. Clinical studies have shown that protein ingestion produces a more prolonged response in these nerve fibers compared to an equivalent amount of glucose. Additionally, the activation of stretch receptors caused by GI...
Target Cell Response to Hormones01:22

Target Cell Response to Hormones

Hormones intricately bind to receptors on the surface or within target cells, initiating a cascade of cellular responses.
Notably, the cellular response can be regulated by altering the number of receptors expressed in the cell. For example, prolonged exposure to elevated hormone levels results in a gradual decline or down-regulation in the number of receptors for that specific hormone on the cell surface. Conversely, in response to low hormone levels, cells may use up-regulation, producing an...
Feedback Loops01:01

Feedback Loops

In most cases, excessive hormone production is prevented by negative feedback—a loop that starts with a stimulus inducing the release of a particular substance, like a hormone, to maintain a certain level before triggering a signal that results in a decrease in further release of the hormone.
Hypothalamic-Pituitary Axis01:37

Hypothalamic-Pituitary Axis

The response to stress—be it physical or psychological, acute or chronic—involves activation of the Hypothalamic-Pituitary-Adrenal (HPA) axis. The HPA axis is part of the neuroendocrine system because it involves both neuronal and hormonal communication. Its function is to regulate homeostatic systems—metabolic, cardiovascular, and immune—providing the necessary means to respond to a stressor.
Hormones Regulating Blood Glucose01:16

Hormones Regulating Blood Glucose

Insulin is released by beta cells of the pancreas when blood glucose levels are high. It facilitates glucose absorption and utilization in insulin-dependent cells with insulin receptors on their plasma membranes. Insulin promotes glucose uptake by increasing the number of glucose transport proteins in the cell membrane, allowing glucose to enter the cell. As a result, glucose utilization and ATP production are enhanced.
In addition to accelerating glucose uptake and utilization, insulin has...
Regulation of Hormone Secretion01:19

Regulation of Hormone Secretion

Regulation of hormone secretion is a finely tuned orchestration driven by various types of stimuli, encompassing neural, humoral, and hormonal signals. Environmental cues instigate neural stimuli, where action potentials traverse nerve fibers to reach their designated targets. An illustrative scenario is the body's response to stress, wherein the sympathetic nervous system releases epinephrine from the adrenal glands, inducing the well-known 'fight or flight' reaction.
Humoral stimuli,...

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Related Experiment Video

Updated: Jun 17, 2026

Assessment of the Metabolic Effects of Isocaloric 2:1 Intermittent Fasting in Mice
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Nutritional programming affects hypothalamic organization and early response to leptin.

Bérengère Coupé1, Valérie Amarger, Isabelle Grit

  • 1Institut National de la Recherche Agronomique, Unité Mixte de Recherche 1280 Physiologie des Adaptations Nutritionnelles, Université de Nantes, Nantes, France.

Endocrinology
|December 18, 2009
PubMed
Summary

Nutritional programming impacts the hypothalamus, affecting appetite regulation. Early catch-up growth in intrauterine growth restriction (IUGR) rats improves hypothalamic organization and neurodevelopmental factors.

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Area of Science:

  • Neuroscience
  • Developmental Biology
  • Metabolic Disorders

Background:

  • Nutritional programming in utero or early life influences adult metabolic and appetite disorders.
  • Intrauterine growth restriction (IUGR) is a model for studying early nutritional impacts on development.

Purpose of the Study:

  • To investigate the molecular and cellular changes in the hypothalamus of IUGR rats.
  • To determine the impact of early catch-up growth on hypothalamic organization and neurodevelopment.

Main Methods:

  • Gene expression screening in hypothalami of IUGR rats at birth and postnatal day 12.
  • Immunohistochemical analysis of hypothalamic nuclei (paraventricular and arcuate).
  • Analysis of plasma leptin levels and leptin signaling in arcuate nucleus neurons.
  • Investigation of epigenetic regulation and mRNA expression of appetite-regulating neuropeptides.

Main Results:

  • IUGR rats showed altered gene expression related to neurodevelopment (cell differentiation, cytoskeleton).
  • Reduced agouti-related protein and alpha-MSH-immunoreactive fibers were observed in IUGR rats.
  • Early catch-up growth in IUGR rats positively affected neurodevelopmental factors and arcuate nucleus projections.
  • Reduced and delayed leptin surge in IUGR rats correlated with molecular/cellular anomalies, but leptin signaling remained intact.
  • Sustained protein restriction led to hypothalamic immaturity.

Conclusions:

  • Early catch-up growth is crucial for mitigating abnormal hypothalamic organization in IUGR.
  • Nutritional programming significantly impacts hypothalamic pathways involved in energy homeostasis.
  • Hypothalamic development and function are sensitive to early nutritional status and postnatal recovery.