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PITUITARY HORMONES. Yulia Komarova , Ph.D. 312-996-1332 ykomarov@uic.edu. Knowledge Objectives.
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PITUITARY HORMONES YuliaKomarova, Ph.D. 312-996-1332 ykomarov@uic.edu
Knowledge Objectives 1. Understand the regulation of growth hormone (GH) biosynthesis and secretion including the roles of growth hormone releasing hormone (GH-RH) and Gh releasing peptides, glucose levels, somatostatin, and dopamine 2. Understandthe adverse effects of GH therapy in children and adults 3. Understand the regulation of prolactin biosynthesis, secretion and release by suckling; effects of dopaminergic agonists and antagonists 4. Understand the medical problems related to hypersecretion of prolactin in the female and in the male 5. Know the structure and actions of oxytocin and its roles in parturition and lactation 6. Know the uses of vasopressin for the treatments of diabetes insipidus
Case Study • A 3-year-old boy presents with short stature and mild generalized obesity. • Normal birth weight and birth length, but a progressive fall off in height velocity relative to age-matched normal ranges starting at 6 months of age. • Genital examination reveals descended but small testes. • Laboratory evaluation demonstrates growth hormone (GH) deficiency and a delayed bone age of 18 months • Clinical Approach: • The replacement with recombinant human GH at a dose of 40 mg/kg/d subcutaneously. • Outcome: • After 1 year of treatment, his height velocity has increased from 5 cm/yr to 11 cm/yr.
Growth Hormone Deficiency • GH deficiency is a result of a genetic mutations or damage to the pituitary or hypothalamus by a tumor, infection, surgery, or radiation therapy. • In most patients, the deficiency is idiopathic, with normal production of other pituitary hormones and no obvious structural abnormalities. • Children with GH deficiency present with short stature, delayed bone age, a low age-adjusted growth velocity, hypoglycemia and adiposity. • Criteria for diagnosis are: (1) a growth rate below 4 cm per year and (2) the absence of a serum GH response to two GH secretagogues.
Growth Hormone (GH) • Structure • GH is a 191-amino-acid peptide with two sulfhydryl bridges. It composed of the four-helix bundle with two pairs of parallel helices joined antiparallel • Absorption, Metabolism, and Excretion • Circulating endogenous GH has a t1/2 ~ 20–25 minutes and is cleared by the liver • Developmental Actions • is required during childhood for attainment of normal adult size and body composition • stimulates longitudinal bone growth • Metabolic Effects • increases the production of Insulin-like Growth Factor (IGF)-1 in the liver, bone, cartilage, muscle, and the kidney • controls lipid and carbohydrate metabolism, and lean body mass • reduces insulin sensitivity
Molecular and Cellular Effects of GH hGH receptor contains 620 amino acids, approximately 250 of which are extracellular, 24 of which are transmembrane, and 350 of which are cytoplasmic. JAK2, a cytoplasmic tyrosine kinase of the Janus kinase family; STAT (Signal Transducers and Activators of Transcription), Shc (an adapter protein that regulates the Ras/MAPK signaling pathway), and IRS-1 and IRS-2 (insulin-receptor substrate proteins that activate the PI3K pathway).
Therapeutic Uses of Somatropin • Somatropin is administered subcutaneously 6–7 times per week. • In children, somatropin is administered in a dose of 25-50 mg/kg per day subcutaneously in the evening; higher daily doses (e.g., 50-67 mg/kg) are employed for patients with Noonan's syndrome or Turner's syndrome, who have partial GH resistance • For adults, a typical starting dose is 150-300 mg per day, with higher doses used in younger patients transitioning from pediatric therapy; lower doses are used in older patients (e.g., >60 years of age). • Because estrogen inhibits GH action, women taking oral—but not transdermal—estrogen may require larger GH doses to achieve the target IGF-1 level.
Somatropin Side Effects & Contraindications • Children: • rarely intracranial hypertension, which may manifest as vision changes, headache, nausea • pseudotumorcerebri • hyperglycemia • scoliosis as a result of rapid growth • upper airway obstruction or sleep apnea • patients with Turner syndrome have an increased risk of otitis media. • hypothyroidism , pancreatitis, gynecomastia, and nevus growth • Adults: • peripheral edema, myalgias, and arthralgias (especially in the hands and wrists) occur commonly but remit with dosage reduction. • rarely proliferative retinopathy • Contraindications: • known malignancy
Before using somatropin, tell your doctor if you use insulin or take oral (by mouth) medicine to treat diabetes. Somatropin may affect blood sugar levels and you may need to adjust your dose of the diabetes medication. Do not change the dose of your diabetes medication without your doctor's advice. Tell your doctor if you use any type of steroid medicine such as cortisone, dexamethasone, methylprednisolone, prednisone, and others. Steroids can make somatropin less effective and your doses may need to be adjusted. Do not stop using a steroid suddenly. Follow your doctor's instructions. Tell your doctor about all other medications you use, especially cyclosporine (Gengraf, Neoral, Sandimmune), seizure medication, birth control pills, anabolic steroids, or hormone replacement medications for men or women. This list is not complete and other drugs may interact with somatropin. Tell your doctor about all medications you use. This includes prescription, over-the-counter, vitamin, and herbal products. Do not start a new medication without telling your doctor. Drug Interactions • Patients with diabetes mellitus: dose of insulin or oral medicine should be adjusted • Steroids such as cortisone, dexamethasone, methylprednisolone, prednisone can make somatropin less effective • Some other medications, especially cyclosporine (Gengraf, Neoral, Sandimmune), seizure medication, anabolic steroids can make somatropin less effective • Oral estrogens may reduce the serum IGF-I response to somatropin treatment. Patients receiving oral estrogen replacement may require greater somatropin dosages
Recombinant Human Insulin-like growth factor-1 (IGF1) (mecasermin) • Uses • impaired growth secondary to mutations in the GH receptor or postreceptor signaling pathway • in patients with GH deficiency who develop antibodies against GH • in patients with IGF-1 gene defects that lead to primary IGF-1 deficiency • Doses • 40-80 mg/kg per dose twice daily by subcutaneous injection, with a maximum of 120 mg/kg per dose twice daily. Administrated shortly after meal. • Side Effects • Hypoglycemia and tonsillar hypertrophy in >10% • Cardiac murmur, dizziness, headache, convulsion, lipohypertrophy, thymus hypertrophy, ear problems <10% • Drug Interactions • Patients with diabetes mellitus: dose of insulin or oral medicine should be adjusted
Excess Production of Growth Hormone • Acromegaly, a result GH-secreting pituitary adenomas, which is characterized by abnormal growth of cartilage and bone tissue, and many organs including skin, muscle, heart, liver, and the gastrointestinal tract. Gigantism is a result of GH-secreting adenoma occurring before the long bone epiphyses close.
Somatostatin (SST) and SST Analogs • SST - inhibits the release of GH, TSH, glucagon, insulin, and gastrin. • Somatostatin analogs: octreotide, octreotide acetate, lanreotide, vapreotide • the amino acid residues in positions 7-10 of the SST-14 peptide (Phe-Trp-Lys-Thr) are the major determinants of biological activity. Trp8 and Lys9 are essential, whereas conservative substitutions at Phe7 and Thr10 are permissible. • active SST analogs retain this core segment constrained in a cyclic structure by a disulfide bond
Therapeutic Uses of Octreotide • acromegaly • metastatic carcinoid tumors • gastrinoma • glucagonoma • nesidioblastosis • hypokalemia and achlorhydria (WDHA) syndrome • the watery and diabetic diarrhea • Octreotide (50-200 mg) is administered subcutaneously three times daily, peak effects are seen within 30 min, serum t1/2 is 90 min, and duration of action is 12 hour. • Octreotide acetate, a long-acting, slow-release form (SANDOSTATIN-LAR DEPOT) in which the active species is incorporated into microspheres is administered intramuscularly in a dose of 20 -40 mg every 4 week. A lower dose of 10 mg per injection should be used in patients requiring hemodialysis or with hepatic cirrhosis.
Side Effects & Interactions • Side effects • GI side effects—including diarrhea, nausea, and abdominal pain—occur in up to 50% of patients • 25% of patients develop gallbladder sludge or even gallstones, presumably due to decreased gallbladder contraction and bile secretion. • cardiac effects include sinus bradycardia (25%) and conduction disturbances (10%) • Drug Interactions • Octreotide acetate may have an effect on absorption of orally administered drugs. • Concomitant administration of octreotide acetate with cyclosporine may decrease blood levels of cyclosporine and result in transplant rejection • Patients receiving insulin, oral hypoglycemic agents, beta blockers (e.g., metoprolol, propranolol, calcium channel blockers (e.g., diltiazem, verapamil), or agents to control fluid and electrolyte balance, may require dose adjustments of these therapeutic agents • Concomitant administration of octreotide and bromocriptine (dopamine agonist) increases the availability of bromocriptine
Pegvisomant, GH Receptor Antagonist • Uses • Pegvisomant (SOMAVERT) is FDA-approved therapy for the treatment of acromegaly and provides a highly effective alternative for use in patients who have not responded to SST analogs. • is administered subcutaneously as a 40-mg initial dose under physician supervision, followed by self-administration of 10 mg per day. The dose is titrated at 4- to 6-week intervals to a maximum of 40 mg per day • Side Effects • an allergic reaction • liver problems (yellowing of the skin or eyes, vomiting, abdominal pain, unusual fatigue, loss of appetite, itching, clay-colored stools, or dark urine) • Contraindications • an unexplained elevation of hepatic transaminases • Drug Interactions • Patients receiving insulin, oral hypoglycemic agents may require dose reductions of insulin and/or oral hypoglycemic agents • In clinical studies, patients taking opioids often needed higher SOMAVERT doses to normalize IGF-I concentrations compared with patients not receiving opioids. The mechanism of this interaction is not known
Regulation of Prolactin Secretion • Hypothalamic regulation of prolactin secretion is predominantly inhibitory. • The major regulator of prolactin secretion is DA, which is released by tuberoinfundibular neurons and interacts with the D2 receptor on lactotropes to inhibit prolactin secretion
Excess Production of Prolactin • Hyperprolactinemia is developed as a result of impaired transport of dopamine (prolactin-inhibiting hormone) to the pituitary or more commonly, as a result of prolactin-secreting adenomas. • Hyperprolactinemia produces a syndrome of amenorrhea and galactorrheain women, and loss of libido and infertility in men. • Hypogonadism and infertility associated with hyperprolactinemia result from inhibition of release of Gonadotropin-releasing hormone (GnRH).
Dopamine Agonists • Quinagolide, a drug approved in Europe, is a nonergot agent with similarly high D2 receptor affinity. • Bromocriptine and cabergolineare ergot derivatives with a high affinity for dopamine D2 receptors. • Pharmacokinetics • All dopamine agonists are oral preparations, which are eliminated by metabolism. • Cabergoline, with a half-life of approximately 65 hours, has the longest duration of action. • Quinagolide has a half-life of about 20 hours • Bromocriptine has the half-life about 7 hours.
Therapeutic Uses of Dopamine Agonists Hyperprolactinemia • dopamine agonists shrink pituitary prolactin-secreting tumors, lower circulating prolactin levels, and restore ovulation in approximately 70% of women with microadenomas and 30% of women with macroadenomas • Cabergoline is initiated at 0.25 mg twice weekly orally or vaginally. It can be increased gradually up to a maximum of 1 mg twice weekly. • Bromocriptine is generally taken daily after the evening meal at the initial dose of 1.25 mg; the dose is then increased as tolerated. Most patients require 2.5–7.5 mg daily. • Acromegaly • A dopamine agonist alone or in combination with pituitary surgery, radiation therapy, or octreotide administration can be used to treat acromegaly • The doses are 20–30 mg/d of bromocriptine unless the pituitary tumor secretes prolactin as well as GH.
Side Effects & Contraindications of Dopamine Agonists • Side Effects • nausea, headache, light-headedness, orthostatic hypotension, and fatigue • occasional psychiatric manifestations • high dosages can cause cold-induced peripheral digital vasospasm • pulmonary infiltrates have occurred with chronic high-dosage therapy • rare reports of stroke or coronary thrombosis in postpartum women taking bromocriptine to suppress postpartum lactation • Contraindications • uncontrolled high blood pressure • a history of heart valve problems or certain fibrotic (scarring) disorders (eg, of the lung, heart, kidneys) • a rare hereditary problem of galactose intolerance, severe lactase deficiency, or glucose-galactosemalabsorption • therapy during the early weeks of pregnancy has not been associated with an increased risk of spontaneous abortion or congenital malformations • patients with very large adenomas continue a dopamine agonist treatment throughout pregnancy
Drug Interactions • Cabergoline • should not be administered concurrently with D2-antagonists, such as phenothiazines, butyrophenones, thioxanthenes, or metoclopramide. • The dose of some antipsychotic medications (such as chlorpromazine, haloperidol, thiothixene) might be adjusted • Certain azoleantifungals (such as itraconazole, ketoconazole, posaconazole), macrolide antibiotics (such as clarithromycin, erythromycin), HIV protease inhibitors (such as ritonavir, saquinavir) can affect the removal of cabergoline from a body. • Bromocriptine • ethanol can increase nervous system side effects of bromocriptine such as dizziness, drowsiness, and difficulty concentrating. • bromocriptine may interact with dopamine antagonists, butyrophenones; this results in a decreased efficacy of bromocriptine. • the concomitant use of macrolide antibiotics such as erythromycin was shown to increase the plasma levels of bromocriptine. • concomitant use of bromocriptine with other ergot alkaloids is not recommended.
Posterior Pituitary Hormones Oxytocinand Vasopressin are synthesized in neuronal cell bodies in the hypothalamus and transported via their axons to the posterior pituitary, where they are stored and then released into the circulation. Oxytocin is a 9-amino-acid peptide with an intrapeptide disulfide cross-link. Its amino acid sequence differs from that of vasopressin at positions 3 and 8. Desmopressin acetate (DDAVP, 1-desamino-8-D-arginine vasopressin) is a long-acting synthetic analog of vasopressin.
Therapeutic Uses of Oxytocin • Oxytocin is used to induce labor for conditions requiring early vaginal delivery such as Rh problems, maternal diabetes, preeclampsia, or ruptured membranes. • It is also used to augment abnormal labor that is protracted or displays an arrest disorder. • Oxytocin is usually administered intravenously via an infusion pump with an initial infusion rate of 0.5–2 mU/min. • For induction of labor, rate is increased every 30–60 minutes until a physiologic contraction pattern is established. The maximum infusion rate is 20 mU/min. • For postpartum uterine bleeding, 10–40 units are added to 1 L of 5% dextrose, and the infusion rate is titrated to control uterine atony. • Contraindications: • fetal distress • prematurity, abnormal fetal presentation • cephalopelvic disproportion
Side Effects and Interactions of Oxytocin • Side Effects • Anaphylactic reaction • Postpartum hemorrhage • Cardiac arrhythmia • Fatal afibrinogenemia • Nausea • Vomiting • Premature ventricular contractions • Pelvic hematoma • Hypertensive episodes • Rupture of the uterus • Drug Interactions • Severe hypertension may occur if combined with prophylactic administration of a vasoconstrictor • Cyclopropaneanesthesia may modify oxytocin's cardiovascular effects, so as to produce unexpected results such as hypotension
Vasopressin • Vasopressin is a peptide hormone released by the posterior pituitary in response to rising plasma tonicity or falling blood pressure. • A deficiency of Vasopressin results in diabetes insipidus • is used for the treatments of pituitary diabetes insipidus • is administered intramuscularly or subcutaneously at three-or four-hour intervals. The dose by injection is 5 to 10 U repeated two or three times daily as needed • may be administered intranasally on cotton pledgets, by nasal spray, or by dropper
Side Effects and Interactions of Vasopressin • Side Effects • anaphylaxic shock has been observed shortly after injection of vasopressin. • cardiac arrest, arrhythmias, decreased cardiac output, angina, myocardial ischemia, peripheral vasoconstruction and gangrene. • abdominal cramps, nausea, vomiting. • tremor, "pounding" in head. • bronchial constriction. • sweating, urticaris, cutaneous gangrene. • Drug Interactions • concurrent use of carbamazepine; chlorpropamide; clofibrate; urea; fludrocortisone; tricyclic antidepressants may potentiate the antidiuretic effect of vasopressin • demeclocyline; norepinephrine; lithium; heparin, alcohol may decrease the antidiuretic effect of vasopressin • ganglionic blocking agents may produce a marked increase in sensitivity to the pressor effects of vasopressin.
Literature: • Bertram G. Katzung, Susan B. Masters, Anthony J. Trevor • Basic & Clinical Pharmacology, 12e, • Chapter 37 Hypothalamic & Pituitary Hormones • Laurence L. Brunton, Bruce A. Chabner, Björn C. KnollmannGoodman & Gilman's The Pharmacological Basis of Therapeutics, 12e • Chapter 38 Introduction To Endocrinology: The Hypothalamic-Pituitary Axis