1. Endocrine System

2. Endocrine System
Although we rarely think about them, the glands of the endocrine system and the hormones they release influence almost every cell, organ, and function of our bodies.
The endocrine system is instrumental in regulating mood, growth and development, tissue function, and metabolism, as well as sexual function and reproductive processes.

3. Endocrine System
Te endocrine system is in charge of body processes that happen slowly, such as cell growth
Endocrine glands usually not connected
Considered a “system” because of functional similarity

4. Endocrine system
The foundations of the endocrine system are the hormones and glands.
As the body's chemical messengers, hormones transfer information and instructions from one set of cells to another.
Although many different hormones circulate throughout the bloodstream, each one affects only the cells that are genetically programmed to receive and respond to its message.

5. The major glands that make up the human endocrine system are the hypothalamus, pituitary, thyroid, parathyroids, adrenals, pineal body, and the reproductive glands, which include the ovaries and testes.
The pancreas is also part of this hormone-secreting system, even though it is also associated with the digestive system because it also produces and secretes digestive enzymes.
Although the endocrine glands are the body's main hormone producers, some non-endocrine organs — such as the brain, heart, lungs, kidneys, liver, thymus, skin, and placenta — also produce and release hormones.

6. What the Endocrine system does
Once a hormone is secreted, it travels from the endocrine gland through the bloodstream to target cells designed to receive its message.
Along the way to the target cells, special proteins bind to some of the hormones. The special proteins act as carriers that control the amount of hormone that is available to interact with and affect the target cells
Also, the target cells have receptors that latch onto only specific hormones, and each hormone has its own receptor, so that each hormone will communicate only with specific target cells that possess receptors for that hormone.
When the hormone reaches its target cell, it locks onto the cell's specific receptors and these hormone-receptor combinations transmit chemical instructions to the inner workings of the cell

7. What the Endocrine System does
When hormone levels reach a certain normal or necessary amount, further secretion is controlled by important body mechanisms to maintain that level of hormone in the blood.
This regulation of hormone secretion may involve the hormone itself or another substance in the blood related to the hormone.
For example, if the thyroid gland has secreted adequate amounts of thyroid hormones into the blood, the pituitary gland senses the normal levels of thyroid hormone in the bloodstream and adjusts its release of thyrotropin, the pituitary hormone that stimulates the thyroid gland to produce thyroid hormones

8. What the Endocrine system does
Another example is parathyroid hormone, which increases the level of calcium in the blood. When the blood calcium level rises, the parathyroid glands sense the change and decrease their secretion of parathyroid hormone. This turnoff process is called a negative feedback system

9. Negative feedback system
One of the most important features of the endocrine system is its regulation (control) by negative feedback.
This means that the glands within the endocrine system that stimulate the release of a hormone (for example, the pituitary) from another gland (for example, the thyroid) are eventually shut off, in a sense, so that too much hormone is not produced and a hormone imbalance is avoided

11. Endocrine System Endocrine glands Contrast to exocrine glands
Masses of epithelial tissue
Cells secrete into interstitial spaces,
Secretions (hormones) diffuse into blood
No ducts!
Contrast to exocrine glands

12. Endocrine System “Hormone” Other chemical messengers
Chemical messenger secreted into blood and carried to “target cells” where it alters activity.
Other chemical messengers
Autocrines
Paracrines

13. Hormones 3-4 Chemical groups Steroids Biogenic amines Peptides
Eicosanoids
Mostly paracrines
Leukotrienes
Prostaglandins

14. Hormones Steroids Derivatives of cholesterol
Four covalently-bonded rings
Adrenal cortex
Gonads

15. Hormones Biogenic amines Derivatives of tyrosine, an amino acid
Thyroid hormones
Thyroxine (T4)
Triiodothyronine (T3)
Adrenal medulla
Epinephrine
Norepinephrine
Usually neurotransmitter

16. Hormones Peptides “Chains” of amino acids Hypothalamus
Pituitary (Ant. & Post.)
Islets of Langerhans
Parathyroid hormone
Digestive system hormones

17. Mechanisms of Hormone Action
Lipid-soluble steroids & thyroid hormones
Diffuse through plasma membrane
Enter nucleus
Forms “hormone-receptor complex”
H-R complex binds to chromosome to activate/inactivate gene(s)

18. Mechanisms of Hormone Action
Peptides & water-soluble amines
Hormone (A) binds to receptor on cell surface
Activates G- protein
Activates adenylate cyclase
Converts ATP to cAMP
cAMP activates protein kinases, which produce final effect.

19. Mechanisms of Hormone Action
Peptides & water-soluble amines
Other Hormone (B) binds to receptor on cell surface
Activates G- protein
Inhibits adenylate cyclase
Stops ATP to cAMP
 inhibits final effect of first hormone

20. Endocrine Glands Section 39-1 Hypothalamus Pineal gland
The hypothalamus makes hormones that control the pituitary gland. In addition, it makes hormones that are stored in the pituitary gland.
Pineal gland
The pineal gland releases melatonin, which is involved in rhythmic activities, such as daily sleep-wake cycles.
Thyroid
The thyroid produces thyroxine, which regulates metabolism.
Pituitary gland
The pituitary gland produces hormones that regulate many of the other endocrine glands.
Pancreas
The pancreas produces insulin and glucagon, which regulate the level of glucose in the blood.
Parathyroid glands
These four glands release parathyroid hormone, which regulate the level of calcium in the blood.
Ovary
The ovaries produce estrogen and progesterone. Estrogen is required for the development of secondary sex characteristics and for the development of eggs. Progesterone prepares the uterus for a fertilized egg.
Thymus
During childhood, the thymus releases thymosin, which stimulates Tcell development.
Testis
The testes produce testosterone, which is responsible for sperm production and the development of male secondary sex characteristics
Adrenal glands
The adrenal glands release epinephrine and nonepinephrine, which help the body deal with stress.

21. Endocrine System Glands – release products to bloodstream directly.
Horomones – products deliver messages to body
Target cells – have specific receptors for specific hormones

22. Hypothalamus
A collection of specialized cells that is located in the lower central part of the brain, is the primary link between the endocrine and nervous systems.
Nerve cells in the hypothalamus control the pituitary gland by producing chemicals that either stimulate or suppress hormone secretions from the pituitary.

23. Hypothalamus Part of brain and attached to pituitary
Controls pituitary secretions

24. Hypothalamus
It is considered the most important part of the endocrine system. It's often called the "master gland" because it makes hormones that control several other endocrine glands.
The production and secretion of pituitary hormones can be influenced by factors such as emotions and seasonal changes.
To accomplish this, the hypothalamus relays information sensed by the brain (such as environmental temperature, light exposure patterns, and feelings) to the pituitary

25. Pituitary Gland
The tiny pituitary gland is divided into two parts: the anterior lobe and the posterior lobe. The anterior lobe regulates the activity of the thyroid, adrenals, and reproductive glands. Among the hormones it produces are:
growth hormone, which stimulates the growth of bone and other body tissues and plays a role in the body's handling of nutrients and minerals
prolactin, which activates milk production in women who are breastfeeding
thyrotropin, which stimulates the thyroid gland to produce thyroid hormones
corticotropin, which stimulates the adrenal gland to produce certain hormones

26. Thyroid
The thyroid, located in the front part of the lower neck, is shaped like a bow tie or butterfly.
Produces hormones that control the rate at which cells burn fuels from food to produce energy. As the level of thyroid hormones increases in the bloodstream, so does the speed at which chemical reactions occur in the body.
Thyroid hormones also play a key role in bone growth and the development of the brain and nervous system in children.
The production and release of thyroid hormones is controlled by thyrotropin, which is secreted by the pituitary gland.

27. Parathyroid
Attached to the thyroid are four tiny glands that function together called the parathyroids.
They release parathyroid hormone, which regulates the level of calcium in the blood with the help of calcitonin, which is produced in the thyroid

28. Adrenal glands
The body has two triangular adrenal glands, one on top of each kidney.
The adrenal glands have two parts, each of which produces a set of hormones and has a different function.
The outer part, the adrenal cortex, produces hormones called corticosteroids that influence or regulate salt and water balance in the body, the body's response to stress, metabolism, the immune system, and sexual development and function.

29. Pineal gland
The pineal body, also called the pineal gland, is located in the middle of the brain. It secretes melatonin, a hormone that may help regulate the wake-sleep cycle.

30. Gonads – (males) The gonads are the main source of sex hormones.
In males, they are located in the scrotum.
Male gonads, or testes, secrete hormones called androgens, the most important of which is testosterone.
These hormones regulate body changes associated with sexual development, including enlargement of the penis, the growth spurt that occurs during puberty, and the appearance of other male secondary sex characteristics such as deepening of the voice, growth of facial and pubic hair, and the increase in muscle growth and strength.
Working with hormones from the pituitary gland, testosterone also supports the production of sperm by the testes

31. Gonads – (females)
The female gonads, the ovaries, are located in the pelvis.
They produce eggs and secrete the female hormones estrogen and progesterone.
Estrogen is involved in the development of female sexual features such as breast growth, the accumulation of body fat around the hips and thighs, and the growth spurt that occurs during puberty.
Both estrogen and progesterone are also involved in pregnancy and the regulation of the menstrual cycle

32. Pancreas
The pancreas produces (in addition to others) two important hormones, insulin and glucagon.
They work together to maintain a steady level of glucose, or sugar, in the blood and to keep the body supplied with fuel to produce and maintain stores of energy

33. Problems with the Endocrine system
Too much or too little of any hormone can be harmful to the body. For example, if the pituitary gland produces too much growth hormone, a child may grow excessively tall. If it produces too little, a child may be abnormally short

34. Problems with the Endocrine system
Controlling the production of or replacing specific hormones can treat many endocrine disorders in children and adolescents, some of which include:
Adrenal insufficiency. This condition is characterized by decreased function of the adrenal cortex and the consequent underproduction of adrenal corticosteroid hormones. The symptoms of adrenal insufficiency may include weakness, fatigue, abdominal pain, nausea, dehydration, and skin changes. Doctors treat adrenal insufficiency by giving replacement corticosteroid hormones

35. Cushing syndrome. Excessive amounts of glucocorticoid hormones in the body can lead to Cushing syndrome.
In children, it most often results when a child takes large doses of synthetic corticosteroid drugs (such as prednisone) to treat autoimmune diseases such as lupus.
If the condition is due to a tumor in the pituitary gland that produces excessive amounts of corticotropin and stimulates the adrenals to overproduce corticosteroids, it's known as Cushing disease.
Symptoms may take years to develop and include obesity, growth failure, muscle weakness, easy bruising of the skin, acne, high blood pressure, and psychological changes. Depending on the specific cause, doctors may treat this condition with surgery, radiation therapy, chemotherapy, or drugs that block the production of hormones.

36. Type 1 diabetes. When the pancreas fails to produce enough insulin, type 1 diabetes (previously known as juvenile diabetes) occurs.
In children and teens, the condition is usually an autoimmune disorder in which specific immune system cells and antibodies produced by the immune system attack and destroy the cells of the pancreas that produce insulin.
The disease can cause long-term complications including kidney problems, nerve damage, blindness, and early coronary heart disease and stroke. To control their blood sugar levels and reduce the risk of developing diabetes complications, kids with this condition need regular injections of insulin.
Type 2 diabetes. Unlike type 1 diabetes, in which the body can't produce normal amounts of insulin, in type 2 diabetes the body is unable to respond to insulin normally.
Children and teens with the condition tend to be overweight, and it is believed that excess body fat plays a role in the insulin resistance that characterizes the disease. In fact, the rising prevalence of this type of diabetes in kids has paralleled the dramatically increasing rates of obesity among kids in recent years.
The symptoms and possible complications of type 2 diabetes are basically the same as those of type 1. Some kids and teens can control their blood sugar level with dietary changes, exercise, and oral medications, but many will need to take insulin injections like patients with type 1 diabetes

37. Growth Hormone Problems
Too much growth hormone in children who are still growing will make their bones and other body parts grow excessively, resulting in gigantism.
This rare condition is usually caused by a pituitary tumor and can be treated by removing the tumor.
In contrast, when the pituitary gland fails to produce adequate amounts of growth hormone, a child's growth in height is impaired.
Hypoglycemia (low blood sugar) may also occur in kids with growth hormone deficiency, particularly in infants and young children with the condition

38. HGH and height
Increases calcium retention, and strengthens and increases the mineralization of bone
Increases muscle mass through sarcomere hyperplasia
Promotes lipolysis
Increases protein synthesis
Stimulates the growth of all internal organs excluding the brain
Plays a role in fuel homeostasis
Reduces liver uptake of glucose
Promotes gluconeogenesis in the liver[26]
Contributes to the maintenance and function of pancreatic islets
Stimulates the immune system

39. Abnormal thyroid levels in blood
Hyperthyroidism. is a condition in which the levels of thyroid hormones in the blood are excessively high.
In kids the condition is usually caused by Graves' disease, an autoimmune disorder in which specific antibodies produced by the immune system stimulate the thyroid gland to become overactive.
The disease may be controlled with medications or by removal or destruction of the thyroid gland through surgery or radiation treatments.
Hypothyroidism. is a condition in which the levels of thyroid hormones in the blood are abnormally low.
Hashimoto's thyroiditis, which results from an autoimmune process that damages the thyroid and blocks thyroid hormone production, is the most common cause of hypothyroidism in kids.
Infants can also be born with an absent or underdeveloped thyroid gland, resulting in hypothyroidism. It can be treated with oral thyroid hormone replacement

40. What other factors can effect our Endocrine system?

42. Biotechnology
Genetic engineering is the use of technology to alter the genomes of organisms.
Biotechnology includes genetic engineering and other techniques to make use of natural biological systems to achieve an end desired by humans.

43. Biotechnology Products
Effects and Uses
Anticoagulants
Involved in dissolving blood clots; used to treat heart attack patients
Colony-stimulating factors
Stimulate white blood cell production, used to treat infections and immune system deficiencies (e.g.; lupus)
Growth factors
Stimulate differentiation and growth of various cell types; used to aid wound healing (e.g.; burn victims)
Human Growth Hormone (HGH)
Used to treat dwarfism
Insulin
Involved in controlling blood sugar levels; used in treating diabetes
Interferons
Disrupt the reproduction of viruses; used to treat some cancers
Interleukins
Activate and stimulate white blood cells; used to treat wounds, HIV infections, cancer, immune deficiencies

44. Biotechnology Products
New prostate cancer vaccine (FDA app. Apr 2010)
Treats patients advanced form of prostate cancer.
Provenge : The series of three shots using a patient's own cells, and are designed to train the immune system to recognize and kill malignant cells.
Does NOT cure cancer, just make patients live longer (avg: 4 months)
$50-75K price range
Still in testing stage

45. Biotechnology Products
Transgenic Bacteria.
Insulin.
Human Growth Hormone.
Transgenic Plants.
Pest resistance.
Higher yields.

46. Genetic Engineering of Farm Animals
Transgenic Animals.
The use of transgenic farm animals to produce pharmaceuticals is currently being pursued.
Cloning transgenic animals.
Dolly (1997).

47. Genetic Engineering of Farm Animals
Production of bovine somatotropin (BST) 1994
Became commercially available for dairy farmers to increase animals’ milk production
More money
Although BST is functional, harmless, and sanctioned by the FDA, much controversy exists over whether it is actually desirable.

48. Genetic Engineering of Crop Plants
Manipulation of the genes of crop plants to make them more resistant to disease from insects and improve crop yield.
Cotton:
Over 40% of the chemical insecticides used for these crops
Bacillus thuringiensis (Bt)
Harmful to caterpillars/tomato hornworms but not harmful to humans
81% of U.S acreage is Bt cotton

49. Genetic Engineering of Crop Plants
About 80% of processed foods in the U.S. grocery shelves have genetically modified ingredients.
calcium propionate
sodium nitrate
sodium nitrite
sulfites (sulfur dioxide, sodium bisulfite, potassium sulfite, etc.)
disodium EDTA, BHA and BHT
High fructose corn syrup
Aspertain/sucrlose

50. Fish Industry in the News (recent)
Genetic Eng. Salmon
AquaBounty's Atlantic salmon contain a growth gene implanted from another variety of salmon that's activated by DNA from an eel-like creature called the ocean pout.
The altered fish can grow to "market weight" of as much as 13 pounds in two or three years, compared with three to four years required for natural salmon
Females are sterile

51. Other industries…
Fish: (ex: wild salmon) are given color (dye) pellets to eat to give them the “wild” color of real wild salmon
Beef: most meats produced by conventional methods are high in saturated fat because the animals are fed massive levels of hormones and grains made out of cattle corn in order to fatten them up quicker than normal. This can cause high cholesterol and other health problems like heart disease and obesity
Plus the antibiotics and steroids they use on ALL animals

52. Other industries… Chicken:
The Food and Drug Administration (FDA) is responsible for ensuring that animal drugs and medicated feeds are safe and effective for animals, and that food from treated animals is safe for humans to eat.
Steroid hormones are used in cattle but not in poultry.
Residue levels of these hormones in food have been demonstrated to be safe
There is no “number” of how many antibiotics are given to chickens
The FDA and CDC have recommended guidance the importance of over use of the antibiotics in the food supply
But some scientist argue that they are being overused
Hormones used in poultry is illegal now in the US
Only NATURAL occurring hormones are accepted

53. Chicken Antibiotic Resistance
Consumer reports 1/2010 looked at different drugs that had resistance by bacteria
Tetracycline
Amoxicillin
Ampicillin
Ciprofloxacin

54. National Chicken Council Statement
“No scientific study has even shown that a treatment failure in humans as resulted from the use of antibiotics in chicken. Statements about the amount of antibiotics used in poultry production are greatly exaggerated…chicken is safe.”
“Any bacteria that may be on chicken are easily killed by the heat of normal cooking.”

55. Is eating genetically modified food dangerous for your endocrine system?
EPA, FDA, and USDA approve food regulations in the U.S.
EPA approved EPSP enzyme (change in protein sequence) for human consumption
Bt (inhibits pests on cotton/corn crops) protein is approved for human consumption by the EPA

56. Benefits vs Risk Benefits: Increased pest and disease resistance
Drought tolerance
Increased food supply
Farmers make more money and keep food cost down for consumers

57. Benefits vs Risk Risk: Introducing allergens and toxins in foods
Antibiotic resistance
Adversely changing the nutrient content of a crop
Creation of “super” weeds and other environmental risk
Unknown long-term health effects

58. So, do you think that it is safe to eat genetically modified foods?
This is for you to decide…