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High school biology
Course: High school biology > Unit 8
Lesson 1: Body structure and homeostasisTissues, organs, & organ systems
Learn about the main tissue types and organ systems of the body and how they work together.
Key points
- Humans—and other complex multicellular organisms—have systems of organs that work together, carrying out processes that keep us alive.
- The body has levels of organization that build on each other. Cells make up tissues, tissues make up organs, and organs make up organ systems.
- The function of an organ system depends on the integrated activity of its organs. For instance, digestive system organs cooperate to process food.
- The survival of the organism depends on the integrated activity of all the organ systems, often coordinated by the endocrine and nervous systems.
Introduction
If you were a single-celled organism and you lived in a nutrient-rich place, staying alive would be pretty straightforward. For instance, if you were an amoeba living in a pond, you could absorb nutrients straight from your environment. The oxygen you would need for metabolism could diffuse in across your cell membrane, and carbon dioxide and other wastes could diffuse out. When the time came to reproduce, you could just divide yourself in two!
However, odds are you are not an amoeba—given that you're using Khan Academy right now—and things aren’t quite so simple for big, many-celled organisms like human beings. Your complex body has over 30 trillion cells, and most of those cells aren’t in direct contact with the external environment.start superscript, 1, end superscript A cell deep inside your body—in one of your bones, say, or in your liver—can’t get the nutrients or oxygen it needs directly from the environment.
How, then, does the body nourish its cells and keep itself running? Let's take a closer look at how the organization of your amazing body makes this possible.
Multicellular organisms need specialized systems
Most cells in large multicellular organisms don't directly exchange substances like nutrients and wastes with the external environment, instead, they are surrounded by an internal environment of extracellular fluid—literally, fluid outside of cells. The cells get oxygen and nutrients from this extracellular fluid and release waste products into it. Humans and other complex organisms have specialized systems that maintain the internal environment, keeping it steady and able to provide for the needs of the cells.
Different systems of the body carry out different functions. For example, your digestive system is responsible for taking in and processing food, while your respiratory system—working with your circulatory system—is responsible for taking up oxygen and getting rid of carbon dioxide. The muscular and skeletal systems are crucial for movement; the reproductive system handles reproduction; and the excretory system gets rid of metabolic waste.
Because of their specialization, these different systems are dependent on each other. The cells that make up the digestive, muscular, skeletal, reproductive, and excretory systems all need oxygen from the respiratory system to function, and the cells of the respiratory system—as well as all the other systems—need nutrients and must get rid of metabolic wastes. All the systems of the body work together to keep an organism up and running.
Overview of body organization
All living organisms are made up of one or more cells. Unicellular organisms, like amoebas, consist of only a single cell. Multicellular organisms, like people, are made up of many cells. Cells are considered the fundamental units of life.
The cells in complex multicellular organisms like people are organized into tissues, groups of similar cells that work together on a specific task. Organs are structures made up of two or more tissues organized to carry out a particular function, and groups of organs with related functions make up the different organ systems.
At each level of organization—cells, tissues, organs, and organ systems—structure is closely related to function. For instance, the cells in the small intestine that absorb nutrients look very different from the muscle cells needed for body movement. The structure of the heart reflects its job of pumping blood throughout the body, while the structure of the lungs maximizes the efficiency with which they can take up oxygen and release carbon dioxide.
Types of tissues
As we saw above, every organ is made up of two or more tissues, groups of similar cells that work together to perform a specific task. Humans—and other large multicellular animals—are made up of four basic tissue types: epithelial tissue, connective tissue, muscle tissue, and nervous tissue.
Epithelial tissue
Epithelial tissue consists of tightly packed sheets of cells that cover surfaces—including the outside of the body—and line body cavities. For instance, the outer layer of your skin is an epithelial tissue, and so is the lining of your small intestine.
Epithelial cells are polarized, meaning that they have a top and a bottom side. The apical, top, side of an epithelial cell faces the inside of a cavity or the outside of a structure and is usually exposed to fluid or air. The basal, bottom, side faces the underlying cells. For instance, the apical sides of intestinal cells have finger-like structures that increase surface area for absorbing nutrients.
Epithelial cells are tightly packed, and this lets them act as barriers to the movement of fluids and potentially harmful microbes. Often, the cells are joined by specialized junctions that hold them tightly together to reduce leaks.
Connective tissue
Connective tissue consists of cells suspended in an extracellular matrix. In most cases, the matrix is made up of protein fibers like collagen and fibrin in a solid, liquid, or jellylike ground substance. Connective tissue supports and, as the name suggests, connects other tissues.
Loose connective tissue, show below, is the most common type of connective tissue. It's found throughout your body, and it supports organs and blood vessels and links epithelial tissues to the muscles underneath. Dense, or fibrous, connective tissue is found in tendons and ligaments, which connect muscles to bones and bones to each other, respectively.
Specialized forms of connective tissue include adipose tissue—body fat—bone, cartilage, and blood, in which the extracellular matrix is a liquid called plasma.
Muscle tissue
Muscle tissue is essential for keeping the body upright, allowing it to move, and even pumping blood and pushing food through the digestive tract.
Muscle cells, often called muscle fibers, contain the proteins actin and myosin, which allow them to contract. There are three main types of muscle: skeletal muscle, cardiac muscle, and smooth muscle.
Skeletal muscle, which is also called striated—striped—muscle, is what we refer to as muscle in everyday life. Skeletal muscle is attached to bones by tendons, and it allows you to consciously control your movements. For instance, the quads in your legs or biceps in your arms are skeletal muscle.
Cardiac muscle is found only in the walls of the heart. Like skeletal muscle, cardiac muscle is striated, or striped. But it's not under voluntary control, so—thankfully!—you don’t need to think about making your heart beat. The individual fibers are connected by structures called intercalated disks, which allow them to contract in sync.
Smooth muscle is found in the walls of blood vessels, as well as in the walls of the digestive tract, the uterus, the urinary bladder, and various other internal structures. Smooth muscle is not striped, striated, and it's involuntary, not under conscious control. That means you don't have to think about moving food through your digestive tract!
Nervous tissue
Nervous tissue is involved in sensing stimuli—external or internal cues—and processing and transmitting information. It consists of two main types of cells: neurons, or nerve cells, and glia.
The neurons are the basic functional unit of the nervous system. They generate electrical signals called conducted nerve impulses or action potentials that allow the neurons to convey information very rapidly across long distances. The glia mainly act to support neuronal function.
Organs
Organs, such as the heart, the lungs, the stomach, the kidneys, the skin, and the liver, are made up of two or more types of tissue organized to serve a particular function. For example, the heart pumps blood, the lungs bring in oxygen and eliminate carbon dioxide, and the skin provides a barrier to protect internal structures from the external environment.
Most organs contain all four tissue types. The layered walls of the small intestine provide a good example of how tissues form an organ. The inside of the intestine is lined by epithelial cells, some of which secrete hormones or digestive enzymes and others of which absorb nutrients. Around the epithelial layer are layers of connective tissue and smooth muscle, interspersed with glands, blood vessels, and neurons. The smooth muscle contracts to move food through the gut, under control of its associated networks of neurons.squared
Organ systems
Organs are grouped into organ systems, in which they work together to carry out a particular function for the organism.
For example, the heart and the blood vessels make up the cardiovascular system. They work together to circulate the blood, bringing oxygen and nutrients to cells throughout the body and carrying away carbon dioxide and metabolic wastes. Another example is the respiratory system, which brings oxygen into the body and gets rid of carbon dioxide. It includes the nose, mouth, pharynx, larynx, trachea, and lungs.
Major organ systems of the human body
Organ system | Function | Organs, tissues, and structures involved |
---|---|---|
Cardiovascular | Transports oxygen, nutrients, and other substances to the cells and transports wastes, carbon dioxide, and other substances away from the cells; it can also help stabilize body temperature and pH | Heart, blood, and blood vessels |
Lymphatic | Defends against infection and disease and transfers lymph between tissues and the blood stream | Lymph, lymph nodes, and lymph vessels |
Digestive | Processes foods and absorbs nutrients, minerals, vitamins, and water | Mouth, salivary glands, esophagus, stomach, liver, gallbladder, exocrine pancreas, small intestine, and large intestine |
Endocrine | Provides communication within the body via hormones and directs long-term change in other organ systems to maintain homeostasis | Pituitary, pineal, thyroid, parathyroids, endocrine pancreas, adrenals, testes, and ovaries. |
Integumentary | Provides protection from injury and fluid loss and provides physical defense against infection by microorganisms; involved in temperature control | Skin, hair, and nails |
Muscular | Provides movement, support, and heat production | Skeletal, cardiac, and smooth muscles |
Nervous | Collects, transfers, and processes information and directs short-term change in other organ systems | Brain, spinal cord, nerves, and sensory organs—eyes, ears, tongue, skin, and nose |
Reproductive | Produces gametes—sex cells—and sex hormones; ultimately produces offspring | Fallopian tubes, uterus, vagina, ovaries, mammary glands (female), testes, vas deferens, seminal vesicles, prostate, and penis (male) |
Respiratory | Delivers air to sites where gas exchange can occur | Mouth, nose, pharynx, larynx, trachea, bronchi, lungs, and diaphragm |
Skeletal | Supports and protects soft tissues of the body; provides movement at joints; produces blood cells; and stores minerals | Bones, cartilage, joints, tendons, and ligaments |
Urinary | Removes excess water, salts, and waste products from the blood and body and controls pH | Kidneys, ureters, urinary bladder, and urethra |
Immune | Defends against microbial pathogens—disease-causing agents—and other diseases | Leukocytes, tonsils, adenoids, thymus, and spleen |
This table is modified from Major organ systems of the human body by CK-12 Foundation, CC BY-NC 3.0.
Although we often talk about the different organ systems as though they were distinct, parts of one system may play a role in another system. The mouth, for instance, belongs to both the respiratory system and the digestive system.
There's also a lot of functional overlap among the different systems. For instance, while we tend to think of the cardiovascular system as delivering oxygen and nutrients to cells, it also plays a role in maintaining temperature. The blood also transports hormones produced by the glands of the endocrine system, and white blood cells are a key component of the immune system.
Organs in a system work together.
Just like workers on an assembly line, the organs of an organ system must work together for the system to function as a whole. For instance, the function of the digestive system—taking in food, breaking it down into molecules small enough to be absorbed, absorbing it, and eliminating undigested waste products—depends on each successive organ doing its individual job.start superscript, 3, comma, 4, end superscript
Digestion is the breakdown of food so that its nutrients can be absorbed. It includes both mechanical digestion and chemical digestion. In mechanical digestion, chunks of food are broken into smaller pieces. In chemical digestion, large molecules like proteins and starches are broken into simpler units that can be readily absorbed.
Mechanical digestion, along with some initial chemical digestion, takes place in the mouth and stomach. Chewing breaks food into smaller pieces, and the stomach churns the food up into a fluid mixture. The stomach also acts as a storage tank, releasing partially digested food into the small intestine at a rate the small intestine can handle.start superscript, 4, end superscript
The small intestine is the major site of chemical digestion, which is carried out by enzymes released from the pancreas and liver. The small intestine is also the main site of nutrient absorption; molecules like sugars and amino acids are taken up by cells and transported into the bloodstream for use.
The mouth, stomach, small intestine, and other digestive system organs work together to make digesting food and absorbing nutrients efficient. Digestion wouldn’t so work well if your stomach stopped churning or if one of your enzyme-producing glands—like the pancreas—decided to take the day off!
Organ systems work together, too.
Just as the organs in an organ system work together to accomplish their task, so the different organ systems also cooperate to keep the body running.
For example, the respiratory system and the circulatory system work closely together to deliver oxygen to cells and to get rid of the carbon dioxide the cells produce. The circulatory system picks up oxygen in the lungs and drops it off in the tissues, then performs the reverse service for carbon dioxide. The lungs expel the carbon dioxide and bring in new oxygen-containing air. Only when both systems are working together can oxygen and carbon dioxide be successfully exchanged between cells and environment.
There are many other examples of this cooperation in your body. For instance, the blood in your circulatory system has to receive nutrients from your digestive system and undergo filtration in your kidneys, or it wouldn't be able to sustain the cells of your body and remove the wastes they produce.
Control and coordination
Many body functions are controlled by the nervous system and the endocrine system. These two regulatory systems use chemical messengers to affect the function of the other organ systems and to coordinate activity at different locations in the body.
How do the endocrine and nervous systems differ?
- In the endocrine system, the chemical messengers are hormones released into the blood.
- In the nervous system, the chemical messengers are neurotransmitters sent straight from one cell to another across a tiny gap.
Since hormones have to travel through the bloodstream to their targets, the endocrine system usually coordinates processes on a slower time scale than the nervous system in which messages are delivered directly to the target cell. In some cases, such as the fight-or-flight response to an acute threat, the nervous and endocrine systems work together to produce a response.
Want to join the conversation?
- Are glial cells part of nervous tissue?(9 votes)
- Yes. Glial cells are the neuron's "helper". They provide neurons with support, insulation, and protection.(12 votes)
- Do you think that increasing the complexity of the organ systems and/or tissues, lead to a better survival of an organism/ species or do you think that would be a disadvantage?(4 votes)
- I would say it depends on the organism and how it functions! For example, we are quite complex (organ-wise) and are obviously quite successful animals. But there are also sponges in the oceans (Porifera) that are some of the oldest animals, and they have continued to survive and thrive, with systems that aren't nearly as complex as ours! This was a very good question(7 votes)
- Which hormones are made in the brain(5 votes)
- One of the more well-known hormones that are made in the brain is the Growth Hormone, which is produced by the pituitary gland. It is a small gland that sits in the sella turcica (‘Turkish saddle’), a bony hollow in the base of the skull, underneath the brain and behind the bridge of the nose.
Apart from the growth hormone, other hormones produced in the brain included follicle stimulating hormone, also known as gonadotrophins. They act on the ovaries or testes to stimulate sex hormone production, and egg and sperm maturity. Apart from that, the brain also produces the prolactin, which stimulates milk production, and the thyroid stimulating hormone, which stimulates the thyroid gland to secrete thyroid hormones -- which are hormones that can affect energy levels, mood, even weight. They can also be factors in depression.(5 votes)
- how does connective tissue repair injured parts of the body?(2 votes)
- Cells of connective tissue work in synergy.
They provide matrix (as some form of a skeleton) which is 'invaded' with mobile or fixed cells of connective tissue. Also, it's mobility helps. By signaling from other cells they get 'orders' to come closer and work together until they seal wounds and form a fibrous patch.
However, that fibrous patch may reduce the lifespan and decrease the quality of the organ (for example after cardiac arrest fibrous tissue starts to form on your heart. You know that the heart is myokard, heart muscle, which has the function of conducting an electrical signal and contracting. In the case of fibrous scar, fibrous tissue cannot conduct electricity or contract. It is just a physical barrier to open wound but nothing else.)(8 votes)
- Why don't you have anything about the arteries(1 vote)
- They do — arteries are a type of blood vessel (i.e. an element of the cardiovascular system), which is mentioned in this article.
In the future, for questions like this I encourage you to search on the Khan Academy website — for example, doing this for "arteries" would lead you to this material:
https://www.khanacademy.org/search?page_search_query=arteries
For example, you can start to learn more about arteries and the cardiovascular system on Khan Academy — here:
https://www.khanacademy.org/science/health-and-medicine/circulatory-system-diseases/blood-vessel-diseases/v/arteries-vs-veins-what-s-the-difference
Does that help?(9 votes)
- What primary tissue would be heavily involved in coordinating functions of different organs in an organ system?(2 votes)
- Every tissue has its role in an organ!
Epithelial gives protection, skeletal gives support, muscle helps locomotion and neural conducting signals!
If you say primary, it depends which organ system and which organ.
E.g. in the heart you can find cardiac muscle as the most abundant and primary tissue.(5 votes)
- what tissues are in the cardiovascular system?(3 votes)
- Arteries have an outer tube of connective tissue for structural support. And smooth muscle tissue makes next layer. Smooth muscle tissue layer allows to change the diameter of the arteries.(2 votes)
- what is the largest level of organization?(2 votes)
- The biosphere-- consisting of all life on earth.(1 vote)
- What is the difference between the Lymphatic system and the Immune system? They both prevent infections and viruses from spreading.(3 votes)
- The lymphatic system is part of the immune system.(1 vote)
- what are some tissues in the urinary system?(2 votes)
- Epithelial tissue, mucle tissue.
So when you do cross section of urethra, urinary bladder (apart from kidneys) you see epithelial tissue (tunica mucosa, layer of muscle tissue and tunica adventitia or serosa for bladder.(3 votes)