NEUR100: Neurons are specialized cells

Only so long ago, (ie January) I started my Neuro100 class with the wonderful Professor Wasserman as our guide. If there’s anything I’ve learn in these three months, it’s that everything we want to know and ever have known was because someone asked a question. In a lot of my future science blogs, many of my notes will act as answers to questions that the textbook rhetorically asked and answers to questions I asked in office hours.

Now on to the notes!

Our first class dealt with the basics: what is the neuron, and why is it the unit of the nervous system? The brain is a grey, gelatinous mass when taken out of a human (or model organism) head. How do we find all the magically bits that describe the structures of the cells that make up the brain?

Histology in the Brain

Stains! And lots of them.

Histology: the mircoscopic study of the stucture of tissuses.

In my class, we focused on three types:

Fast luxol blue stains blue with red blood cells turquoise, and the cell bodies are red
Golgi stain silver chromate reacts with a few of the neurons to show the whole neuron
Nissl stain stains cell bodies of neurons

The Typical Neuron 

The function of neurons cannot be understood without understanding the structure and function of the membrane and its associated proteins.

Now that we can see the neurons, we can start understanding what’s going on in them. Neurons typically have a soma (cell body) 20µm diameter and filled with cystol. The neuron has a nucleus, mitochondria, rER and sER. You know, the typical cell in general.

What makes the neuron unique is its projections and excitable membrane; the axon, dendrites, and synapses. In the axon leading up to the synapse, there are loads of synaptic vesicles, mitochondria, and proteins. Surprisingly, there are not microtubules or ribosomes here. How do the proteins get to the ends of the terminals??

Transport to the hungry hungry Axons

Wallerian degeneration (the death of the axon) occurs when axoplasmic transport is halted.

How? A string is a good God.

Axoplasmic transport Fast axoplasmic transport
1-10mm per day 1000mm per day
very slow very fast

To diversify of science lingo we add two definitions that show transport in two directions.

Anterograde Transport (soma->axon->terminal) the protein “kinesin” is the walkway of most material, and it is fueled by ATP. Axoplasmic transport from a neuron’s soma to the axon terminal

Retrograde transport (terminal->axon->soma) a separate pathway from the terminal to the soma. Some viruses hitch a ride on this sort of transport. eg rabies (fatal), Herpes simplex (cold sores) Hate these!

Classifying Neurons and Glia

Glia cells.png

The Neuron Doctrine: Brain cells communicate by contact, not continuity.

So many neurons, so little time…

Uni -1 bi 2 multi- poly- many

IMG_4667

 

Rapid fire Questions

What is a synapse? The gap between two neurons.

What is a neurotransmitter? A chemical exclusively made by neurons/glia.

What do glia do? Regulate content in the extracellular space. Removes NTs; can produce NTs of their own.

What are the axon hillock and the axon terminal? The right angle at the axon leaving the soma. The end of the axon.

Conclusion 

This post is like a skydive from the classic high school course. Science beyond high school is all about asking questions and attempting to answer them. Some still don’t have answers. For example:

How does an organism priotize and intergrate sensory information to produce contextually approriate behavioural output?

The answer is we don’t know! That’s the magic of studying neuroscience, and science in general. It’s okay to ask a question that stumps a professor for a day, or a research facility for a lifetime. That’s how we learn.

Advertisements

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out / Change )

Twitter picture

You are commenting using your Twitter account. Log Out / Change )

Facebook photo

You are commenting using your Facebook account. Log Out / Change )

Google+ photo

You are commenting using your Google+ account. Log Out / Change )

Connecting to %s