Oxytocin and prolactin

Oxytocin and prolactin

Atestace

Atestace

Anatomy of the pelvic girdle
Anatomy of the pelvic cavity
Anatomy of the female urogenital triangle
Anatomy of the female reproductive organs of the pelvis
Anatomy and physiology of the female reproductive system
Anatomy clinical correlates: Female pelvis and perineum
Nerves and lymphatics of the pelvis
Menstrual cycle
Estrogen and progesterone
Abnormal uterine bleeding: Clinical
Amenorrhea
Amenorrhea: Clinical
Amenorrhea: Pathology review
Premature ovarian failure
Kallmann syndrome
Androgen insensitivity syndrome
5-alpha-reductase deficiency
Menopause
Contraception: Clinical
Estrogens and antiestrogens
Progestins and antiprogestins
Polycystic ovary syndrome
Virilization: Clinical
Endometriosis
Infertility: Clinical
Puberty and Tanner staging
Precocious puberty
Delayed puberty
Turner syndrome
Pelvic inflammatory disease
Ovarian torsion
Genito-pelvic pain and penetration disorder
Endometritis
Gardnerella vaginalis (Bacterial vaginosis)
Vulvovaginitis: Clinical
Urinary incontinence
Urinary incontinence: Pathology review
Vulvar cancer: Clinical
Vaginal cancer: Clinical
Vaginal and vulvar disorders: Pathology review
Cervical cancer: Clinical
Cervical cancer
Cervical cancer: Pathology review
Uterine fibroid
Endometrial hyperplasia
Endometrial cancer
Endometrial hyperplasia and cancer: Clinical
Uterine disorders: Pathology review
Gestational trophoblastic disease: Clinical
Choriocarcinoma
Ovarian cyst
Ovarian surface epithelial tumors
Krukenberg tumor
Ovarian germ cell tumors
Ovarian sex-cord stromal tumors
Ovarian cysts and tumors: Pathology review
Mastitis
Fibrocystic breast changes
Intraductal papilloma
Benign breast conditions: Pathology review
Breast cancer
Breast cancer: Clinical
Breast cancer: Pathology review
Paget disease of the breast
Androgens and antiandrogens
Uterine stimulants and relaxants
Female sexual interest and arousal disorder
Orgasmic dysfunction
Disorders of sex chromosomes: Pathology review
Disorders of sexual development and sex hormones: Pathology review
Pregnancy
Oxytocin and prolactin
Stages of labor
Breastfeeding
Complications during pregnancy: Pathology review
Congenital TORCH infections: Pathology review
Postpartum hemorrhage: Clinical

Flashcards

Oxytocin and prolactin

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Questions

USMLE® Step 1 style questions USMLE

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A group of investigators are studying the hypothalamic-pituitary axis involved in the release of prolactin. Which of the following is true regarding the regulation of prolactin release?  

Transcript

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Oxytocin and prolactin are two hormones that are mostly involved in the production and release of milk from the breasts during the nursing period. Prolactin - pro meaning “for” and “lactin” referring to milk - it stimulates the production of milk.

Oxytocin, on the other hand, makes the smooth muscle cells around the glands in the breasts contract so that they release the milk.

Oxytocin also helps the muscle in the uterus contract during labor. Both of these hormones are synthesized all the way up in the brain, by two interconnected structures – the hypothalamus and the pituitary gland.

So, basically, the hypothalamus is a part of the brain made up of several nuclei – or clusters of neurons.

Two of these nuclei, the paraventricular and supraoptic nuclei, contain neurons that secrete oxytocin, as well as other hormones like vasopressin, or antidiuretic hormone, which is involved in regulating the amount of water in our body.

When oxytocin is produced, it travels down the axons of these neurons, and reaches the posterior lobe of the pituitary gland.

Down the length of these axons, there are small dilations called Herring bodies – which store the oxytocin until it’s released in the blood.

Outside of pregnancy, oxytocin levels are low, but production increases just a bit during an orgasm - so here’s the reason for that lovely “afterglow”.

Prolactin, on the other hand, is synthesized by special cells called lactotrophs, which are in the anterior lobe of the pituitary.

In women that are not pregnant or breastfeeding, and in men, prolactin levels are usually kept in check by the hypothalamus in two ways.

The first way is the most important, and it’s when the hypothalamus secretes a constant stream of dopamine - which is also called prolactin inhibiting factor.

Dopamine binds to specific receptors on the lactotrophs and inhibits the release of prolactin.

The second way is when the hypothalamus secretes thyrotropin releasing hormone, also called prolactin releasing hormone, which can stimulate prolactin release.

Both oxytocin and prolactin bind to receptors on cells in the breasts - so let’s take a closer look at them.

Each breast is made up of 15 to 20 lobules, and each lobule consists of clusters of hollow alveoli lined by a single layer of milk-secreting epithelial cells.

Each lobule continues with a lactiferous duct, which is also lined with contractile myoepithelial cells, and it opens at the nipple.

During pregnancy, oxytocin and prolactin, along with the estrogen and progesterone produced by the placenta, stimulate the growth of the milk-producing alveoli.

In turn, this makes the breasts themselves grow and prepare for lactation.

Key Takeaways

Oxytocin and prolactin are two hormones that are involved in a variety of physiological processes, including reproductive and lactation functions. During pregnancy, these hormones prepare the breasts for lactation, by stimulating the maturation of the milk-secreting alveoli.

Oxytocin is produced by the hypothalamus and released by the posterior pituitary gland. It plays a role in childbirth, lactation, and sexual behavior. It is also thought to have a role in social bonding and attachment. On the other hand, prolactin is produced by the anterior pituitary gland and plays a role in lactation and the production of breast milk. It is also involved in the regulation of the menstrual cycle and fertility.

Sources

  1. "Medical Physiology" Elsevier (2016)
  2. "Physiology" Elsevier (2017)
  3. "Human Anatomy & Physiology" Pearson (2018)
  4. "Principles of Anatomy and Physiology" Wiley (2014)
  5. "Biosynthesis of Human Growth Hormone and Prolactin" The Journal of Clinical Endocrinology & Metabolism (1970)
  6. "Dopamine: A Prolactin-Inhibiting Hormone*" Endocrine Reviews (1985)
  7. "Nonsocial functions of hypothalamic oxytocin" ISRN Neurosci (2013)
  8. "Oxytocin and Estrogen Receptor β in the Brain: An Overview" Front Endocrinol (Lausanne) (2015)
  9. "Prolactin: Structure, Function, and Regulation of Secretion" Physiological Reviews (2000)