Biochemistry Hormones PDF

Summary

These lecture notes cover the topic of hormones in biochemistry. The notes include concepts on the endocrine system, diversity of the endocrine system, cellular response, and relevant hormones.

Full Transcript

BIOCHEMISTRY | BLOCK 2.2
Part I: Hormones
Dr. Celina Vilches | September 12, 2022 | 7:30 – 9:30 AM
Transcribed by: Balbuena, Barranco, Bulcase, Canapit

OUTLINE Old Concept
- Hormone/s of single cell type and
1. Concepts on Endocrine System few kinds of cell elicit a unique
a. Hormones response.
b. Target Organs Modern Concept
c. Receptors - Hormone/s of single cell type and
2. Diversity of the Endocrine System several cell types can elicit a
a. Steroid Hormones, Amines Hormones, positive or negative response.
Polypeptide and Protein Hormones
b. Classification of Hormones PHYSIOLOGICALLY RELEVANT HORMONE –
RECEPTOR INTERACTION

CELLULAR RESPONSE Features:

Binding is specific.
Stimulus from immediate environment - Influenced by the presence of an
- Extracellular matrix antagonist or an agonist.
- Cellular attachment Binding should be saturable.
Distant sources of stimulus Binding should occur within the concentration
- Soluble extracellular molecules range of the expected biochemical response.

EXTRACELLULAR MOLECULES
FACTORS THAT WILL INFLUENCE TARGET ORGAN
RESPONSE TO THE HORMONE
HORMONES
Derived from a Greek term that means “to
CONCENTRATION OF THE HORMONE
arouse activity”.
Substance that is synthesized in one organ and
transported by the circulatory system to act on 1. The rate of synthesis and secretion of the
another tissue. hormones.
Paracrine
2. The proximity of the target cell to the hormone
- Can act on the adjacent cells. source (dilution effect).
Autocrine
3. The affinity (dissociation constant; Kd) of the
- Can act on the cell in which they hormone with specific plasma transport proteins
were synthesized without entering (if any).
the systemic circulation. 4. The conversion of inactive or suboptimally
active forms of the hormone into the fully active
form.
TARGET ORGANS 5. The rate of clearance of hormone from plasma,
Any cell which contains a receptor wherein a by other tissues, or by digestion, metabolism, or
hormone can bind to it. The binding may or may not excretion.
elicit a response.

1 References: Harper’s Illustrated Biochemistry
Dr. Celina Vilches’ PPT
DETERMINANTS OF THE TARGET CELL RESPONSE RECEPTORS ARE PROTEINS

1. The number, relative activity, and state of INSULIN RECEPTOR
occupancy of the specific receptors on the Is a heterotetramer composed of two copies of
plasma membrane or in the cytoplasm or two different protein subunits (α2β2) linked by
nucleus. multiple disulfide bonds in which the
2. The metabolism (activation or inactivation) of extracellular α subunit binds insulin and the
the hormones in the target cell. membrane-spanning β subunit transduces the
3. The presence of other factors within the cell signal through the tyrosine protein kinase
that is necessary for the hormone response. domain located in the cytoplasmic portion of
4. Up- or down-regulation of the receptor this polypeptide.
consequent to the interaction with its ligand.
5. Post-receptor desensitization of the cell, INSULIN-LIKE GROWTH FACTOR I (IGF-I) AND
including down-regulation of the receptor. EPIDERMAL GROWTH FACTOR (EGF) RECEPTORS
Generally similar in structure to the insulin
RECEPTORS receptor.

GROWTH HORMONE AND PROLACTINE RECEPTORS
Cell associated recognition molecules in the
Also span the plasma membrane of target cells
target organs.
but do not contain intrinsic protein kinase
Hormone-Receptor Interaction
activity.
Binding will result in initiation of hormone
Ligand binding to these receptors, however,
activity.
results in association and activation of a
Dissociation will result in termination of
completely different protein kinase signaling
hormone activity.
pathway, the JakStat pathway.
It is a protein.
It has a dynamic quality.
POLYPEPTIDE AND PROTEIN HORMONES AND
CATECHOLAMINE RECEPTORS
Transduce signals by altering the rate of
production of cAMP through G proteins, are
characterized by the presence of seven
domains that span the plasma membrane.

Receptors of the steroid or thyroid type are members
of a large superfamily of nuclear receptors.
Many related members of this family currently
have no known ligand and thus are called
Contain at least 2 functional domains: orphan receptors.
Receptor domain – Site in the receptor Nuclear receptor superfamily plays a critical
where hormone recognition and binding role in the regulation of gene transcription by
occurs. hormones.
Coupling domain – Generates signals that
couples hormone recognition to some
intracellular function.

2 References: Harper’s Illustrated Biochemistry
Dr. Celina Vilches’ PPT
 COMPARISON BETWEEN RECEPTORS AND - The skin, liver and kidney are
TRANSPORT PROTEINS required for the production of
calcitriol.

DIVERSITY OF THE ENDOCRINE SYSTEM Most precursor is produced by the malphigian layer of
the epidermis from 7-dehydrocholesterol in an
Hormones are synthesized in a variety of cellular
arrangements. ultraviolet light mediated reaction
Hormones are chemically diverse.
Hormones are synthesized and modified for full Vit. D binding protein binds Vit. D from the skin or GIT
activity in variety of ways.
undergo 25 hydroxylation (obligatory process) in the
HORMONES ARE SYNTHESIZED IN A VARIETY OF ER to produce 25(OH)2D.
CELLULAR ARRANGEMENTS
25(0H)2D undergoes hydroxylation at C1 position in
Synthesized in discrete organs the mitochondria of the proximal convoluted tubule
Designed solely for this specific purpose and become biologically active.
- Thyroid glands – triiodothyronine
- Adrenals – glucocorticoids and HORMONES ARE CHEMICALLY DIVERSE
mineralocorticoids
- Pituitary – TSH, FSH, LH, GH, PRL, Synthesized from a wide variety of chemical
ACTH building blocks
Designed to perform 2 related functions Cholesterol
- Ovaries – produce mature oocytes Glucocorticoids; Mineralocorticoids;
and the reproductive hormones Estrogens; Progestens, Calcitriols.
estradiol and progesterone. Some steroid hormones can act as
- Testes – produce mature precursor to another hormone.
spermatozoa and testosterone. - Progesterone Glucocorticoids
Specialized cells within the organ Large series is derived from cholesterol.
- Pancreas – beta cells – insulin - Glucocorticoids
- Kidney – angiotensin II - Mineralocorticoids
- Thyroid – parafollicular cells (C - Androgens
cells) – calcitonin - Estrogens
Require parenchymal cells of more than 1 organ - Progestins
Calcitriol (1,25(OH)2-D3) - 1,25(OH)2-D3
- Derived from Cholesterol

3 References: Harper’s Illustrated Biochemistry
Dr. Celina Vilches’ PPT
 Amino acids Tyrosine
Catecholamines, Thyroid hormones Norepinephrine
Polypeptides or Glycoproteins - Produced by sympathetic nerves
Vary in sizes - 80% is made in situ
Tripeptides TRH
Multiple amino acids (GH; 191
amino acids)
Heterodimers Insulin (AB chain)

HORMONES ARE SYNTHESIZED AND MODIFIED FOR
FULL ACTIVITY IN VARIETY OF WAYS

Synthesized in their final form and secreted
immediately.
- Hormones derived from
Cholesterol. Clinical Application
Synthesized in their final form and stored in the Parkinson’s Disease
producing cell. - Catecholamines cannot cross the
Synthesized from precursor molecule in the blood brain barrier.
producing cell then are processed and secreted - Deficiency of dopamine synthesis.
upon physiologic cue. - Treatment:
- Insulin ▪ L-dopa → Dopamine (Catalyzed
by Dopa-decarboxylase)
Converted to active forms in the periphery. α – Methyldopa
- T3 Act as competitive inhibitor.
Anti-hypertensive.
AMINE HORMONES T3 AND T4 SYNTHESIS

Requires an element for bioactivity
- Iodine
Synthesized as part of a very large precursor
molecule
- Thyroglobulin
Stored in an intracellular reservoir
- Colloid
Peripheral conversion
- T4→T3

CATECHOLAMINES

Dopamine, Epinephrine & Norepinephrine
Synthesized from tyrosine in the chromaffin
cells of the adrenal medulla.
Epinephrine
- 80% in the adrenal medulla

4 References: Harper’s Illustrated Biochemistry
Dr. Celina Vilches’ PPT
 A. Structure of insulin.
B. Formation of human insulin from
preproinsulin. S-S = disulfide bond.

PEPTIDE HORMONES

PARATHYROID HORMONE

SEVERAL HORMONES ARE MADE FROM LARGER
PEPTIDE PRECURSORS

INSULIN

Synthesized as a preprophormone (MW: 11,500),
which is the prototype for peptides that are Secreted as an 84-Amino-Acid Peptide.
processed from larger precursor molecules Biosynthesis of PTH and its subsequent secretion
are regulated by the plasma ionized calcium (Ca2+)
concentration.
Acute decrease of Ca2+ results in a marked
increase of PTH mRNA, and this is followed by an
increased rate of PTH synthesis and secretion.
ANGIOTENSIN II

Renin-angiotensin system is involved in the
regulation of blood pressure and electrolyte
metabolism (through production of aldosterone).
Insulin and C-peptide molecules are connected at
two sites by dipeptide links. An initial cleavage by a
trypsin-like enzyme (open arrows) followed by
several cleavages by a carboxypeptidase-like
enzyme (solid arrows) results in the production of
the heterodimeric (AB) insulin molecule (colored)
and the C-peptide (white).

FORMATION, METABOLISM, AND SELECTED
PHYSIOLOGIC ACTIVITIES OF ANGIOTENSINS

5 References: Harper’s Illustrated Biochemistry
Dr. Celina Vilches’ PPT
ANGIOTENSIN CONVERTING ENZYME (ACE) INHIBITOR

Nonapeptide analogs of angiotensin I and other
compounds act as competitive inhibitors of
converting enzyme and are used to treat renin-
dependent hypertension.

PRO-OPIOMELANOCORTIN (POMC) PEPTIDE FAMILY

POMC family consists of peptides that act as
hormones (ACTH, LPH, MSH) and others that may
serve as neurotransmitters or neuromodulators
(endorphins). ADRENOCORTICAL HORMONES
Synthesized as a precursor molecule of 285 amino
acids and is processed differently in various regions Mineralocorticoids
of the pituitary. Glucocorticoids
Androgens

ADRENAL STEROIDOGENESIS

The adrenal steroid hormones are mostly
derived from the plasma, but a small portion is
synthesized in situ from acetyl-CoA via
mevalonate and squalene.
Cholesterol in the adrenal is esterified and
There are three basic peptide groups: (1) ACTH, which stored in cytoplasmic lipid droplets.
can give rise to α-MSH and corticotropin-like Upon stimulation of the adrenal by ACTH, an
intermediate lobe peptide (CLIP); (2) β-lipotropin (β- esterase is activated, and the free cholesterol
LPH), which can yield γ-LPH, β-MSH, and β-endorphin formed is transported into the mitochondrion,
(and thus α- and γ-endorphins); and (3) a large amino where a cytochrome P450 side chain cleavage
terminal peptide, which generates γ-MSH. enzyme (P450scc) converts cholesterol to
pregnenolone.
STEROID HORMONES Cleavage of the side chain involves sequential
hydroxylations, first at C22 and then at C20.
Synthesized from cholesterol and are not stored. ACTH-dependent steroidogenic acute
Steroids are highly lipid soluble, once they are regulatory (StAR) protein is essential for the
synthesized, they simply diffuse across the cell transport of cholesterol to P450scc in the inner
membrane and enter the interstitial fluid and mitochondrial membrane.
then the blood. All mammalian steroid hormone are formed
from cholesterol via pregnenolone.
- Occur either in the mitochondrial or in
the ER.

6 References: Harper’s Illustrated Biochemistry
Dr. Celina Vilches’ PPT
 Exhibits cellular specificity Steroidogenesis thus involves the repeated
- Mineralocorticoid synthesis → Zona shuttling of substrates into and out of the
Glomerulosa mitochondria.
- Glucocorticoid synthesis → Zona
fasciculata and reticularis. ANDROGEN SYNTHESIS

MINERALOCORTICOID SYNTHESIS Major androgen precursor
‘ Dehydroepiandrosterone (DHEA)
ALDOSTERONE - Produced by the adrenal cortex
Zona Glomerulosa Androstenedione - more potent androgen
Pregnenolone → Progesterone formed in the adrenal by the action of the lyase
2 sER enzymes on 17α-hydroxyprogesterone.
Hydroxysteroid dehydrogenase Testosterone - result as a reduction of
Δ5,4 isomerase androstenedione at the C17 position the most
Process involved Hydroxylation potent adrenal androgen.
Cortisone → 18hydroxylase → Aldosterone Small amounts of testosterone are produced in
Aldosterone synthase the adrenal by this mechanism, but most of this
This unique distribution of enzymes and the conversion occurs in the testes.
special regulation of the zona glomerulosa by K Follows the glucocorticoid pathway
+ and angiotensin II have led some Increased Adrenal Androgen production
investigators to suggest that, in addition to the Glucocorticoid biosynthesis is
adrenal being two glands, the adrenal cortex is impeded
actually two separate organs. Adrogenital syndrome
GLUCOCORTICOID SYNTHESIS
TESTICULAR STEROIDOGENESIS
Requires 3 hydroxylases located in zona
fasciculata and reticularis. Testicular androgens
Hydroxylation of C11 is slow. Synthesized in the interstitial tissue by
Should occur last, if it occurs first then the Leydig cells
mineralocorticoid pathway is followed. precursor → Cholesterol
Hydroxylation of C17 Rate limiting step is the delivery of
Fast; Enzyme 17α-hydroxylase cholesterol to the inner mitochondrial
sER enzyme membrane
Progesterone/Pregnenolone StAR
(substrate) Reaction is promoted by LH
Pregnenolone → hydroxylated at C17 → 17a
hydroxyprogesterone → Hydroxylated at C21 OVARIAN STEROIDOGENESIS
→ 11 deoxycortisol -→ hydroxylated at C11 →
Cortisol 17B-estradiol is the primary estrogen of
3 Enzymes involved ovarian origin
17α-hydroxylase In pregnancy → estriol→ placenta
11β-Hydroxylase Estrogen are formed by aromatization of
Mitochondrial enzyme androgens
21 Hydroxylase

7 References: Harper’s Illustrated Biochemistry
Dr. Celina Vilches’ PPT
 Clinical implication
Aromatase Inhibitors inhibits CLASSIFICATION OF HORMONES
Estrogen formation
Use as chemo drugs for Hormones can be classified according to:
breast cancer Chemical composition
Post-menopausal women Solubility properties
Conversion of andostenedione Location of receptors
→ estrone Nature of the signal used to mediate hormonal
Major source of estrogen action within the cell.
Aromatase activity is present in the adipose
cells, liver, skin other tissues GENERAL CLASSIFICATION OF HORMONES
Obesity → breast Ca
Liver diseases, Hyperthyroidism,
Aging, Obesity
Increased aromatase activity
“Estrogenization”.

COMPARISON OF PEPTIDE, STEROID AND AMINO
ACID-DERIVATIVE HORMONES

CLASSIFICATION OF HORMONES AS TO ITS
SOLUBILITY

A. LIPID-SOLUBLE HORMONES (GROUP I)

Hormones in group I are lipophilic.
Associated with plasma transport or carrier
proteins, a process that circumvents the
problem of solubility.
DIVERSITY IN THE STORAGE OF HORMONES
Prolonging the plasma half- life of the hormone.
Relative percentages of bound and free
hormone are determined by the amount,
binding affinity, and binding capacity of the
transport protein
Free hormones encounter receptors in either
the cytosol or nucleus of target cells.
FREE HORMONE

Biologically active form
Readily traverses the lipophilic plasma
membrane of all cells

8 References: Harper’s Illustrated Biochemistry
Dr. Celina Vilches’ PPT
 These second messengers affect gene
transcription and influence a variety of other
biological processes.

G-PROTEIN COUPLED RECEPTORS
Group II hormones bind to receptors that couple
to effectors through a guanine-binding protein
(G-proteins) intermediary.
Receptors of this class, which signal through G-
proteins, are known as G-protein–coupled
receptors (GPCRs).

Encounters receptors in either the cytosol or
nucleus of target cells
Ligand-receptor complex is the intracellular
messenger in this group

B. WATER-SOLUBLE HORMONES (GROUP II)

PEPTIDE & CATECHOLAMINE
cAMP IS THE INTRACELLULAR SIGNAL FOR MANY
Many hormones are water-soluble. RESPONSES
Have no transport proteins
Cyclic AMP was the first intracellular second
Have a short plasma half-life
messenger signal identified in mammalian cells.
Initiate a response by binding to a receptor
Several components comprise a system for the
located in the plasma membrane
generation, degradation, and action of cAMP.
Uses intracellular signals for their mechanism of
action; cAMP (cyclic AMP, 3′,5′-adenylic acid). C. GROUP II.A
Cells communication is dependent on
intracellular metabolic processes through
intermediary molecules called second Second messenger concept arose from an
messengers (the hormone itself is the first
observation that epinephrine binds to the plasma
messenger).
membrane of certain cells and increases
Synthesis of second messengers (Ca2+; and
intracellular cAMP.
phosphatidylinositides) is triggered by the
presence of the primary hormone (molecule) Series of experiments confirmed that cAMP
binding its receptor. mediate the effects of many hormones.

9 References: Harper’s Illustrated Biochemistry
Dr. Celina Vilches’ PPT
 SUBCLASSIFICATION OF GROUP II.A

D. GROUP II.B

Atrial natriuretic factor (ANF) uses cGMP as its
second messenger.

E. GROUP II.C

Several hormones, many of which were
previously thought to affect cAMP, appear to
use ionic calcium (Ca2+) or metabolites of
complex phosphoinositides (or both) as the
intracellular second messenger signal.

F. GROUP II.D

Intracellular messenger for group II-D is a
protein kinase–phosphatase cascade.
Several have been identified, may use more
than one kinase cascade.

10 References: Harper’s Illustrated Biochemistry
Dr. Celina Vilches’ PPT