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Disorders of the Autonomic Nervous System01:18

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The autonomic nervous system (ANS) is an intricate network of nerves that controls functions such as the regulation of heart rate, digestion, and blood pressure regulation. When this system malfunctions, it can lead to various disorders that affect multiple bodily functions. One common feature of many autonomic disorders is the involvement of smooth blood vessels, which play a crucial role in regulating blood flow throughout the body.
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Homeostasis is the maintenance of a stable internal environment within the body, which is crucial for the proper functioning of cells, tissues, organs, and organ systems. The body has various control mechanisms that work together to regulate various physiological parameters such as temperature, blood pressure, pH balance, and fluid balance, to name a few. These control mechanisms are based on feedback loops that can be either positive or negative.
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Digestion begins with a cephalic phase that prepares the digestive system to receive food. When our brain processes visual or olfactory information about food, it triggers impulses in the cranial nerves innervating the salivary glands and stomach to prepare for food.
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Signaling cascades usually lack linearity. Multiple pathways interact and regulate one another, allowing cells to integrate and respond to diverse environmental stimuli.
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The biological clock is involved in many aspects of regulating complex physiology in all animals. It was in 1935 when German zoologists, Hans Kalmus and Erwin Bünning, discovered the existence of circadian rhythm in Drosophila melanogaster. However, the internal molecular mechanisms behind the circadian clock remained a mystery until 1984, when Jeffrey C. Hall, Michael Rosbash, and Michael W. Young discovered the expression of the Per gene oscillating over a 24-hour cycle. In subsequent...
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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.
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Related Experiment Video

Updated: Jul 12, 2025

Phenotypic and Functional Analysis of Activated Regulatory T Cells Isolated from Chronic Lymphocytic Choriomeningitis Virus-infected Mice
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Disease from opposing forces in regulatory control.

Steven A Frank1

  • 1Department of Ecology and Evolutionary Biology, University of California, Irvine, CA 92697-2525, USA.

Evolution, Medicine, and Public Health
|October 23, 2023
PubMed
Summary
This summary is machine-generated.

Biological systems use opposing forces to balance rapid responses and prevent disease. Imbalances in these opposing regulatory mechanisms can lead to various health conditions, from immunity disorders to developmental issues.

Keywords:
IGF2genomic conflictgenomic imprintingimmune system disorderpsychiatric disordersexual antagonism

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Area of Science:

  • Biology
  • Genetics
  • Physiology

Background:

  • Rapid responses to danger are essential but can trigger false alarms.
  • Biological systems often employ opposing forces to regulate critical processes.
  • Imbalances in these regulatory forces can lead to disease.

Purpose of the Study:

  • To explore the fundamental principle of opposing forces in biological regulation.
  • To examine how this principle applies to diverse physiological systems.
  • To understand the link between regulatory imbalance and disease pathogenesis.

Main Methods:

  • Conceptual analysis of biological regulatory mechanisms.
  • Review of existing literature on immunity, fear, growth, and gene expression.
  • Comparative examination of paternally and maternally expressed genes.

Main Results:

  • Identified opposing forces as a common theme in biological control systems.
  • Demonstrated that rapid triggers require strong negative regulation to prevent costly false alarms.
  • Highlighted that imbalances in opposing forces, such as in mammalian growth (paternal accelerators vs. maternal suppressors), lead to diseases.

Conclusions:

  • Opposing forces are crucial for maintaining biological homeostasis and preventing disease.
  • Dysregulation of these opposing forces underlies various pathologies, including immune disorders, behavioral issues, and growth abnormalities.
  • Understanding these opposing regulatory mechanisms offers insights into disease development and potential therapeutic targets.