10/5- Diseases of the Ant Pituitary 1 (Prolactinoma, Acromegaly)

Question 1

What does “primary” refer to in disorders?

Answer 1

Refers to a problem at the level of the target organ versus secondary (pituitary) and tertiary (hypothalamic)

• i.e. primary adrenal insufficiency

Question 2

Describe pituitary development

• Transcription factors
• Cells

Answer 2

Anterior pituitary precursor

-> Prop-1: Pit-1 and GATA-2

• Pit-1: somatotropes (GH), lactotropes (Prolactin), thryotropes (TSH)
• GATA-2: Thyrotropes (TSH) and Gonadotropes (LH/FSH)

-> T-pit/Tbx-19: corticotropes (ACTH) and melanotropes

Question 3

Somatotropes (GH) share a common precursor cell with what other cell type?

Answer 3

Lactotropes (prolactin)

Question 4

Thyrotropes (TSH) share a common precursor cell with what other cell type?

Answer 4

Gonadotropes (LH/FSH)

Question 5

What are the glycoprotein hormones?

• Structure?

Answer 5

TSH, LH, FSH, (beta-HCG)

• Glycoprotein heterodimers
• Common alpha subunit
• Unique beta subunit

Question 6

Describe the genetics of ACTH and how it results in various hormone products

Answer 6

• ACTH is a 39 AA peptide product of the pro-opiomelanocortin gene
• Specific “prohormone convertases” or endopeptidases cleave the pro-peptide into multiple products

Possible products:

ACTH:

• aMSH
• CLIP

Beta-LPH:

• gamma-MSH
• beta-endorphin

Question 7

What is the most common and clinically relevant lesion of the pituitary?

Answer 7

Pituitary adenomas

Question 8

Epidemiology of pituitary adenomas

• Classification

Answer 8

• 10-15% of cranial neoplasms are pituitary adenomas
• 5-25% of adults have small pituitary tumors (MRI vs. autopsy series)
• Mainly monoclonal (from a single cell)

1 cm rule:

• Microadenoma: < 1 cm
• Macroadenoma: > 1 cm

Class is based on secreted hormone

• Non-functioning (alpha-subunit)
• Lactotrophic (prolactin)
• Somatotrophic (GH)
• Corticotrophic (ACTH)
• Mixed-function (GH and prolactin)
• Gonadotrophic
• Thyrotropic (really doesn’t happen much)

Question 9

What is the anatomy surrounding the pituitary/what can result from expansion of pituitary tumors?

Answer 9

• Cavernous sinus invasion: wrap around carotid (never impinge it!) but do affect extraocular eye movements via CN III, IV, V1, V2, VI
• Optic chiasm
• CSF rhinorrhea

Question 10

What are non-hormonal signs and symptoms of a pituitary mass?

Answer 10

• Headache
• CSF rhinorrhea
• Visual field defects:
• Superior temporal quadrantanopsia or hemianopsia
• Decreased peripheral vision or “tunnel” vision
• Detected on examination by confrontation
• Humphrey (automated) or Goldmann (manual) by optometrist or ophthalmologist
• Double vision/disconjugate gaze: CN III/IV/VI

Question 11

What is seen here?

Answer 11

PItuitary adenoma causing the optic chiasm to be stretched over the mass

Question 12

Describe the regulation of prolactin secretion

Answer 12

• Pulsatile episodic pattern
• Tonic INHIBITORY control by dopaminergic (DA) neurons from the hypothalamus
• Levels rise in pregnancy and with breast stimulation in post-partum women
• Estrogen is a very potent signal for prolactin production

Question 13

How do people present with hyperprolactinemia?

Answer 13

Women:

• Galactorrhea
• Amenorrhea

Men:

• Decreased libido
• Impotence/hypogonadal symptoms
• Rare to have galactorrhea (need estrogenized breast tissue)

Question 14

What causes hyperprolactinemia?

Answer 14

Pituitary disease:

• Prolactinoma
• Macroadenoma PRL > 200
• Microadenoma PRL: 100-200 usually
• Other pituitary masses causing “stalk effect”
• Typ < 100 due to decreased dopaminergic inhibition
• Co-secretion with GH in a small proportion
• Share a common precursor cell

Question 15

Other causes of hyperprolactinemia: pituitary disease?

Answer 15

• Prolactinoma
• Acromegaly (co-secretion)
• Pituitary Stalk compression or section (i.e. adenoma)
• Empty sella syndrome

Question 16

Other causes of hyperprolactinemia: neurogenic?

Answer 16

Chest wall or spinal cord lesions (i.e. herpes zoster)

Question 17

Other causes of hyperprolactinemia: endocrine?

Answer 17

• Pregnancy
• Hypothyroidism
• High estrogen states

Question 18

Other causes of hyperprolactinemia: hypothalamic disturbances?

Answer 18

Any hypothalamic disturbance, including:

• Craniopharyngioma or other tumors
• Sarcoidosis
• Irradiation
• Stress (physical or psychological)
• Pseudocyesis

Question 19

Other causes of hyperprolactinemia: drugs?

Answer 19

Drugs (anti-dopamine action)

• Dopamine antagonists
• Phenothiazines/anti-pyschotics
• Reserpine (depletes dopamine)
• Alpha methyldopa

Question 20

Other causes of hyperprolactinemia: misc?

Answer 20

• Chronic renal failure (because prolactin is cleared by the kidney)
• Idiopathic

Question 21

Prolactinoma pearls: diagnostic testing?

Answer 21

1. Rule out pregnancy (beta-HCG)

2. Rule out hypothyroidism with thryoid function tests (TSH, free T4)

3. Other hormone levels

• IGF-1, LH, FSH, AM cortisol
• Testosterone or estrogen

4. MRI pituitary with Gad enhancement (pituitary tumors are very common and prolactinomas are common among these)

5. Formal visual field testing

Question 22

What is seen here?

Answer 22

Microprolactinoma

• Left: pre-contrast
• Right: gadolinium

Question 23

What is seen here?

Answer 23

Macroprolactinoma

Question 24

Why might GH/IGF-1 axis elevations be present with prolactinoma?

Answer 24

Common precursor cells secrete both (“somatomammotrophs”)

Question 25

What should you do if presentation is prolactinoma but the level is low?

Why does it happen?

Answer 25

Do a 1:100 dilution of serum

(“Hook effect” due to too much antigen (prolactin) in fallible immunoassays leads to falsely low values)

Question 26

Elevated prolactin with no clinical symptoms may be what?

Answer 26

Big prolactin” which is an aggregate held together by glycosylation or antibodies which is not hormonally active but is detected in the lab assays (Polyethylene glycol precipitation will solve this problem)

Question 27

Treatment of prolactinomas and hyperprolactinemia?

Answer 27

The only pituitary adenoma where surgery is not considered first-line

Dopamine agonists (for Micro- and Macro- adenomas)

• Bromocriptine – nausea, orthostasis
• Cabergoline – longer acting, better tolerated
• (Pergolide – valve dysfunction)

Careful follow-up, especially for Macro (clinical, PRL levels, MRI, visual field exams)

Question 28

What is cabergoline?

Answer 28

Used for micro/macroadenoma treatment:

• Able to bind the dopamine receptor on cells and nerves
• “Dopamine receptor agonist”

Question 29

What surgery may be done for prolactinoma?

• When should it be considered?

Answer 29

Transsphenoidal resection; surgery done for prolactinomas when:

• Non-responders or intolerant of treatment
• Significant compressive effects
• Hemorrhagic
• Young reproductive age women with macroadenomas and years of fertility ahead

Question 30

What is Growth hormone

• Secretion timing
• Stimuli

Answer 30

190 AA peptide hormone

• Secretion is diurnal; levels rise during deep sleep
• Physical activity and emotional stress stimulate GH secretion

Release is controlled by:

• GHRH: positive
• Somatostatin (used to be called Somatotropin release inhibitory factor, SRIF): negative
• analogues of these are used clinically

Question 31

What mediates most of the GH effects on somatic growth?

Answer 31

Insulin-like growth factor I (IGF-I or somatostatin C)

• Skin
• Connective tissue
• Cartilage, bone
• Organs

Question 32

What are other (non-growth) effects of IGF-1?

Answer 32

• Glucose hemeostasis: insulin resistance
• Ca metabolism: bone density
• Lipolysis: body composition

Question 33

Causes of GH excess:

• Pituitary
• Ectopic GH (rare)
• GHRH secretion (rare): hypothalamus
• Ectopic neoplasms (usually NE)

Answer 33

Pituitary

• Sporadic adenoma
• Multiple Endocrine Neoplasia Type 1 (3 P’s – Pituitary, Parathyroid, Pancreatic Islet Tumors)
• McCune Albright (Gsa subunit mutation)
• Carney complex

Ectopic GH (rare)

• Pancreatic islet cell tumor
• non-Hodgkin’s lymphoma

GHRH secretion (rare): hypothalamus:

• hamartomas
• gliomas
• gangliocytomas

Ectopic neoplasms (usually neuroendocrine)

• carcinoid
• islet cell tumor
• small cell lung ca
• medullary thyroid carcinoma

Question 34

Clinical manifestations of excess GH?

Answer 34

• Headache
• Weight gain
• Acral enlargement
• Prognathism and malocclusion
• Arthritis/arthralgias
• Hyperhidrosis
• Oily skin
• Skin tags
• Easy fatigability
• Muscle Weakness
• Hoarseness
• Cardiac disease
• Hypertension
• Dyslipidemia
• Glucose intolerance
• Galactorrhea
• Constipation
• Decreased libido/Impotence

Question 35

Facial features of acromegaly?

Answer 35

• Thickened scalp with deep folds
• Thickened calvarium of skull
• Frontal bossing
• Oily skin
• Skin Tags
• Thick lips
• Exaggeration of nasolabial folds
• Prognathism with increased interdental spacing

Question 36

Limb features of acromegaly?

Answer 36

• Increased soft tissue padding on hands and feet
• Oily skin
• Hyperhidrosis

Question 37

Musculoskeletal manifestations of acromegaly?

Answer 37

Bone growth

• Prognathia (enlarged jaw) with wide-spaced teeth (diastema), temporomandibular
• Thickening of shafts of metacarpals, metatarsals, phalanges
• Tufting of terminal phalanges
• Exostoses in bones of hands and feet - Knee, shoulder, spine

Joint:

• Cartilage growth:
• Proliferation of chondrocytes
• Thickened joint cartilage and widened joint spaces
• Osteoarthritis with joint instability, wear-and-tear

Question 38

Causes of symptoms in GH excess:

• Neuropathy
• Enlargement of visceral organs
• Glucose intolerance/overt diabetes

Answer 38

Neuropathy

• Demyelination, also secondary to DM
• Carpal tunnel syndrome with soft tissue expansion and compression of the median nerve (edema and enlarged tendons)

Enlargement of visceral organs

• Heart
• Thyroid
• Liver
• Kidneys
• Prostate

Glucose intolerance/overt diabetes:

• Insulin resistance

Question 39

What is the biochemical confirmation of excess GH?

Answer 39

Single serum GH > 100 ng/mL (very high)

• Rarely do “spot” hormone levels
• Diurnal and pulsatile rhythms
• Short half life (20-50 min)

Elevated IGF-1

• Longer half life (hours)
• What we really want to see!

“If it’s high, suppress it…“

• Oral glucose tolerance test (75 g glucose)

Question 40

What is the management of acromegaly?

Answer 40

Surgical removal of adenoma (1st line)

• Transphenoidal resection

Medical therapy

• Somatostatin analogues (inject 1/month)
• Octreotide
• Sandostatin LAR
• Lanreotide LAR
• Pegvisomant
• GH-R antagonist
• Dopamine agonist (for mild elevation of GH)
• Bromocriptine/cabergoline

Question 41

What are complications of acromegaly?

Answer 41

Patients with acromegaly have higher mortality rates (2 – 3 X)

Cardiovascular & Cerebrovascular 60%

Respiratory 25%

Malignancy 15%

• colonic polyps
• intestinal (colon, stomach, espophagus)
• depends on the study
• RR of death 1.3
• colon cancer 3.0
• breast 1.9

Question 42

What complications should people with acromegaly be screened for?

Answer 42

Cardiovascular:

• BP monitoring
• ECG
• Echo

Respiratory

• Polysomnography (sleep study)

Glucose metabolism

• Fasting glucose
• OGTT

Osteoarthritis

• Xrays of clinically significant joint problems

Cancer

• Colonoscopy

Question 43

T/F: if you reduce hormone levels, you normalize the risk of complications in people with acromegaly?

Answer 43

True

Question 44

What are inherited causes of pituitary adenomas?

Answer 44

Inappropriate signal transduction

• McCune Albright (GH)
• G protein alpha subunit (Gsa1) mutation (somatic, post-zygotic)
• Café-au-lait spots
• Precocious puberty, acromegaly or gigantism, thyrotoxicosis

Inappropriate signal transduction

- Carney complex (GH)

• PKA type 1 regulatory subunit
• GH producing adenomas
• Spotty skin pigmentation and blue nevi
• Primary pigmented nodular adrenocortical disease (micronodular) >>> Cushing’s syndrome
• Cardiac myxomas, Shwanomas
• Testicular tumors, ovarian tumors

Multiple Endocrine Neoplasia (MEN 1)

Question 45

What is Multiple Endocrine Neoplasia (MEN) 1

• Genetics
• Symptoms

Answer 45

• AD menin gene mutation (tumor suppressor)

3 Ps!

1. Pituitary adenoma (50-70%)

• Prolactinomas (60%)
• GH (10-25%)
• ACTH

2. Parathyroid hyperplasia (multiple glands) (80-90%)

• Hyperparathyroidism
• Hypercalcemia

3. Pancreatic neuroendocrine tumors (65-80%)

• Gastrinoma (50-80%) “ectopic”
• Insulinoma (10-30%)
• Glucagonoma
• Somatostatinoma
• Vasoactive intestinal polypeptide (VIPoma)

(Thymic carcinoid)