Glands 1 BL5 Flashcards

1
Q

What is a gland?

A

An aggregate of epithelial cells that are specialised for the secretion of a substane

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2
Q

How do glands regulated human physiology?

A

They receive stimuli from the CNS (brain), circulating levels of chemicals and neighbouring cells

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3
Q

What are the two types of gland?

A

Endocrine (ductless, secrete to IS space so their hormones can act on distant parts of the body, eg. pituitary, thyroid, parathyroid, prolactin, all of these cells secrete) and exocrine (ducted, specific location, mostly enzymes of lubricants, eg salivary, pancreas, sweat, only cells at apex of duct secrete)

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4
Q

What are the two parts of the pituitary gland, and what does each produce?

A

Anterior - hormones (ACTH, LH, FSH, TSH, growth hormone) which regulate most of the glands of the endocrine system
Posterior - vasopressin (ADH) which prevents water loss from kidneys (alcohol prevents production of ADH), and oxytocin, which signals uterus for delivery

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5
Q

What does the thyroid gland do?

A

Produces thyroid hormones T3 and T4 which control metabolism, thermoreulation, and produces calcitonin which is involved in calcium homeostasis

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6
Q

What does the parathyroid gland do?

A

Produces parathyroid hormone which cancels the action of calcitonin, increases calcium levels

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7
Q

How are glands formed in utero? (week 4-5 of gestation)

A
Fibroblast GF (mostly FGF10) is produced by mesenchymal cells sitting under epithelium
Cells proliferate and produce extracellular protein degradation enzymes (collagenase, elastase etc.) so they can grow down through connective tissue
Exocrine - central cells die to form duct
Endocrine - produce angiogenic factors to stimulate blood vessel growth in and around epithelial cells, link to mother cells broken through apoptosis
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8
Q

How does branching occur?

A

Epithelial cells move towards signal, tubule can elongate or branch depending on which GFs are active
Elongating and branching stopped by Shh

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9
Q

What types of gland ducts are there?

A

Can be tubular or alveolar
Each of those can be simple (T-intestine), simple branched (T-stomach, A-sebaceous), or compound (T-duodenal, A-mammary)
Also, compound tubuloalveolar (salivary)

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10
Q

What does acinar mean?

A

Alveolar (acinus means berry)

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11
Q

How can cells at ends of ducts specialise to help eject secretions?

A

By changing morphology and turning into myoepithelial cells

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12
Q

What secretions does the salivary duct produce?

A

Mucous and serous

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13
Q

How do breasts develop?

A

Prepuberty - terminal end buds form, stops until puberty
Puberty - estrogen and progesterone cause ductal elongation and side branching
Pregnancy - prolactin causes lactogenic differentiation

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14
Q

What are the different ways a gland cell can secrete?

A

Merocrine - exocytosis (acinar, endocrine of pancreas)
Apocrine - top of cell is pinched off (usually duct) (lactating mammary, sweat in axilla, ext. genitalia)
Holocrine - entire cell dies to become product (sebaceous, tarsal in eyelid)
Cytocrine - cells released as secretion

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15
Q

What are the two pathways of merocrine secretion?

A

Regulated - large vesicles of many secretory granules, need calcium ions to stimulate release, usually modified by Golgi, uses ATP
Constitutive - small vesicles, continuously released, not modified, used to repopulate plasma membrane with proteins

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16
Q

How do vesicles move towards the cell surface ?

A

Along microtubules (uses dynein), uses SNARE protein to help fuse with plasmalemma

17
Q

How is insulin released?

A

When glucose enters a beta cell in the pancreas and is metabolised, ATP closes the channel which usually pumps potassium out of the cell, causing the membrane to depolarise. This causes calcium channels to open to calcium flows in, causing vesicles with insulin to move to the surface and release their contents by regulated merocrine secretion

18
Q

How do you treat a patient with type 1 diabetes?

A

They don’t have enough insulin so either insulin is injected or sulphonylurea is given which binds to the ATP sensitive potassium channel, causing an increased release of insulin

19
Q

What is the difference between the neonatal period and the lactating period in terms of secretion?

A

Neonatal - only fats secreted by apocrine secretion (signet fragment), proteins released by merocrine
Lactating - both fats and proteins released by apocrine

20
Q

What colour does sebum stain in a H&E stain?

A

Pink

21
Q

What does the Golgi apparatus do to regulated secretion?

A

It modifies the proteins (using glycosal transferases to glycosylate them) and targets them to correct addresses

22
Q

What is the difference between glycosylation and glycolation?

A

Glycolation doesn’t use enzymes, the other uses glycosal transferases

23
Q

What is the role of glycosylation?

A

Aids correct protein folding, prevents digestion by proteases and lipases, cell recognition
All known disorders of glycosylation are rare and often lethal

24
Q

How does glycosylation aid cell recognition?

A

Proteins are glycosylated in two places - on asparagines (N-glycosylation) and tyrosines (O-glycosylation), so any enzyme that recognises either of these won’t digest it
Sugars on surfaces of cells are detected by selectins; cancer cells don’t produce them so go undetected

25
Q

What types of glandular control are there?

A

Hormonal (endo), humoral (endo, essentially feedback loops), neural (only does salivary (exo))

26
Q

How does the hypothalamus communicate with the pituitary gland?

A

Via neurocrine secretion

Neurones continue into posterior pituitary