Inside the Brain: Unraveling the Mystery of Alzheimer's Disease [HQ]

Alzheimer Universal

29 Jul 201004:22

Summary

TLDRThe human brain, a complex organ of chemical and electrical processes, enables communication through neurons and neurotransmitters. Alzheimer's disease disrupts this by forming toxic beta-amyloid plaques and neurofibrillary tangles, impairing neuron function and leading to memory loss. Scientific research is uncovering the brain's changes in Alzheimer's, aiming to treat and prevent this devastating condition, while exploring the influence of aging, genetics, and lifestyle on its development.

Takeaways

🧠 The human brain is a complex organ that enables various functions like speech, movement, vision, memory, emotions, and decision-making through the communication of billions of neurons.
🚀 Neurons communicate by transmitting electrical charges and releasing neurotransmitters, which are chemical messengers that cross synapses to bind to receptors on adjacent neurons.
🔍 Alzheimer's disease disrupts this communication by impairing the ability of neurons to interact, leading to a decline in memory and cognitive skills.
🔬 Scientific research has identified beta amyloid plaques and neurofibrillary tangles as key biological markers of Alzheimer's disease.
🧬 Beta amyloid plaques form when amyloid precursor protein (APP) is processed abnormally, releasing toxic fragments that clump together and interfere with neuronal function.
🧪 The enzyme gamma secretase plays a role in the production of beta amyloid, contributing to the formation of plaques in Alzheimer's disease.
🌐 Neurofibrillary tangles are formed when the protein tau is abnormally modified, causing the breakdown of microtubules and impairing the neuron's internal transport system.
💔 The disconnection and death of neurons in certain brain regions due to Alzheimer's disease result in memory loss and cognitive decline.
🧠 The brain's shrinkage and loss of function as neurons die contribute to the progression of Alzheimer's disease.
🔍 Ongoing scientific research aims to understand other changes in the aging brain and how factors like genetics, lifestyle, and other diseases might influence the risk of developing Alzheimer's.

Q & A

What is the primary function of neurons in the human brain?
-Neurons in the human brain are responsible for constant communication with one another, receiving and transmitting messages through electrical charges and chemical messengers called neurotransmitters.
How do neurotransmitters facilitate communication between neurons?
-Neurotransmitters are released at the end of a neuron and move across the synapses to bind to receptor sites on the dendrites of the next neuron, enabling communication within the brain.
What is the impact of Alzheimer's disease on the communication between neurons?
-Alzheimer's disease disrupts the communication between neurons by compromising the ability of neurons to communicate with one another, leading to the destruction of memory and thinking skills over time.
What are the two abnormal structures associated with Alzheimer's disease?
-The two abnormal structures associated with Alzheimer's disease are beta-amyloid plaques and neurofibrillary tangles, which are classic biological hallmarks of the disease.
How do beta-amyloid plaques form in the brain?
-Beta-amyloid plaques form when fragments of the amyloid precursor protein (APP), processed differently due to the action of enzymes like beta-secretase and gamma-secretase, clump together and become toxic, interfering with neuron function.
What role does the tau protein play in the formation of neurofibrillary tangles?
-In Alzheimer's disease, the tau protein becomes abnormally modified, separating from microtubules and causing them to fall apart. Strands of this modified tau protein combine to form tangles inside neurons, disabling the transport system and leading to cell death.
How does the disruption of the neuron's internal transport system contribute to Alzheimer's disease?
-The disruption of the neuron's internal transport system by neurofibrillary tangles prevents the delivery of nutrients and other cellular cargo to all parts of the neuron, ultimately leading to neuron death and contributing to memory loss.
What is the current state of scientific research on Alzheimer's disease?
-Scientific research has made significant progress in understanding the changes that take place in the brain with Alzheimer's disease, but there is still much to learn about other changes in the aging brain, the influence of other diseases, genetics, and lifestyle factors on the risk of developing Alzheimer's.
What are the long-term effects of Alzheimer's disease on the brain's structure and function?
-As Alzheimer's disease progresses, it causes neurons in certain brain regions to disconnect from each other and eventually die, leading to brain shrinkage and loss of function.
What is the ultimate goal of ongoing research into Alzheimer's disease?
-The ultimate goal of ongoing research into Alzheimer's disease is to discover ways to treat and ultimately prevent this devastating and fatal disease.
What are some of the factors that researchers are investigating in relation to Alzheimer's disease risk?
-Researchers are investigating factors such as changes in the aging brain, the influence of other diseases, genetics, and lifestyle factors to understand their impact on the risk of developing Alzheimer's disease.