Animal Physiology, Chapter 27faculty.fiu.edu/~noriegaf/1.power points comp physiol/20....
Transcript of Animal Physiology, Chapter 27faculty.fiu.edu/~noriegaf/1.power points comp physiol/20....
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Excretion
Basic mechanisms of Kidney function
Urine formation in Amphibians
Urine formation in Mammals
Urine formation in Insects
Nitrogen balance
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Kidneys
The most fundamental function of kidneys) is to regulate the
composition of blood plasma by removing water and
solutes from the plasma in a controlled way.
Kidneys are fluid-processing organs. They start with
blood plasma and produce urine
The regulatory role of the kidney can be evaluated by comparing the
output (urine) and the input (blood plasma). U/P ratio
UrineBlood
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Excretion
Animals need to maintain the composition
and volumes of their 3 body-fluids
compartments within viable limits.
Urine
Urine: fluid produced by the kidneys.
Complex solution of inorganic and organic solutes.
Functions: waste elimination, osmoregulation, regulation of
pH, blood pressure, etc
1. Primary urine
2. Definitive urine
1
2
Basic mechanisms of Kidney function
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Excretion
Kidney has 3 features in common:
Tubular structure (exterior)
Produce and eliminate aqueous solutions
derived from extra cellular fluids (Blood)
Function is regulation of composition and
volume of extracellular fluids by means of
controlled excretion of water and solutes.
Basic mechanisms of Kidney function
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Basic mechanisms of kidney function
Primary urine is introduced into kidneys tubules by ultra filtration
The nephron is the basic unit of the kidney
The nephron is the first interphase between
the circulatory and excretory system.
Water, inorganic ions and small organic molecules
(urea, amino acids, glucose).
HYDROSTATIC
PRESSURE
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Basic mechanisms of kidney function
Most water and molecules are reabsorbed back
The filtration rate is the rate of primary urine formation
(GRF: glomerular filtration rate)
120 ml/min in an Adult human = all blood filtered in 30 minutes
Regulation: Filtration and reabsorption
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Formation of primary urine by active solute secretion
Energy from ATP is used
to secrete X into the tube
Osmotic pressure increases
Water enters by osmosis
Solute Y is diluted
Solute Y diffuses
Following a concentration
gradient
The active secretion of X drives the diffusion of many solutesThe permeability of the epithelium determines which ones will diffuse.
Insects
WATER
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Amphibian nephrons and their connections to collecting ducts
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Urine formation in amphibians during diuresis
Prox Conv Tube: Isosmotic, reabsorbs water and solutes. Dist Conv Tube: differentially reabsorbs
water and solutes. Controls volume and
concentration of final urine.Active Na GlucoseWATER
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The distal convoluted tubule can differentially reabsorb water and solutes, controlling water excretion
Regulation of water permeability by antidiuretic hormone
Urine hyposmotic to plasma
Diluted and abundant
Two types of water: 1) required for solutes, 2) pure, osmotically free water.
UP < 1
ADH
Urine isosmotic to plasma
concentrated and small amount AquaporinUP = 1
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The action of an antidiuretic hormone (ADH)Vasopressin (ADH) regulates the balance of
water by controlling the insertion and retrieval
of aquaporin proteins
Aquaporin-2 is regulated
Aquaporin-3 is constitutive
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Aquaporin
Tetramers in the cell membrane,
Facilitate the transport of water
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Aquaporin
a: partial charges from the helix dipoles restrict the orientation of the
water molecules passing through the constriction of the pore
b and c: hydrogen bonding of a water molecule with Aspargines 76 and/or 192,
which extend their amido groups into the constriction of the pore.
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Aquaporin
The Nobel Prize in Chemistry 2003
Peter Agre
Johns Hopkins University School of Medicine
Baltimore
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Urine formation in mammals
Hyperosmotic urine: mammals, birds and insects
1. Loop of Henle,
2. Parallel array conformation
ANATOMY explains PHYSIOLOGY
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Osmotic pressure increases with depth
in the medulla of the kidney
Urine formation in mammals
ANATOMY explains
PHYSIOLOGY
Hyperosmotic urine
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Urine formation in mammalsHyperosmotic urine: mammals, birds and insects
1. Loop of Henle,
2. Parallel array conformation
ANATOMY explains PHYSIOLOGY Osmolarity
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Evolutionary development of renal papilla in mammals native to different habitats
Hyperosmotic urine: long loops of Henle
Inner medula (renal papilla): long loops of Henle
Mesic: intermediate moisture conditions
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Kidney structure
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Maximum urine concentration correlates with the relative thickness of the medulla
68 species of mammals
(medulla size relative to kidney size)
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The relation between relative medullary thickness and body size
Each point is a species of mammal
(medulla size relative to kidney size)
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Countercurrent multiplication is the key to produce concentrated urine
There is a NaCl gradient in the medullary interstitial
fluid that surrounds the collecting ducts
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Osmotic pressure increases with depth in the medulla
About 1000 mOsm greater
NaCl gradient
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Countercurrent multiplication is the key to produce concentrated urine
There is a NaCl gradient in the
medullary interstitial fluid that
surrounds the collecting ducts
The single effect is the
process that generates the side
to side gradient
Impermeable to water
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Countercurrent multiplication in the loop of Henle
The single effect is the
process that generates the side
to side gradient (active transport)
The countercurrent multiplication is the
process that generates the end to end gradient
Active transport
Only 200mOsm
Active transport
Only 200mOsm
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Osmotic pressures attributable to nonurea solutes in nephrons and collecting ducts
Collecting tubes permeable to water
Collecting tubes poorly permeable to water
ADH
Impermeable to water
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Major molecular mechanisms of NaCl reabsorption and associated processes
Cotransport of glucose, AA
Cotransport of Na, K and 2ClNa enter by a channel
Energy for Na reabsorption comes from the gradient originated by the pump
2
1
3
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Cotransport of glucose, AA
Cotransport of Na, K and 2Cl
Na enter by a channel
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Kidneys of other vertebrates
Freshwater teleosts and reptiles nephron similar to amphibians.
BIRD Birds can produce hyperosmotic urine
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The renin–angiotensin–aldosterone system
Aldosterone stimulates the
conservation of sodiumSodium pumps
and channels
Angiotensinogen : large protein
Angiotensin I : 10 AA
Angiotensin II : 8 AA
The renin–angiotensin–aldosterone system
Hypophysis
Liver
Adrenal
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Some nitrogenous compounds excreted by animals
Ammonotelic: produce ammonia
Uricotelic: produce uric acid
Ureotelic: produce urea
Ammonia: toxic and low solubility
Cheap to make (aquatic)
Urea: less toxic and high solubility
Expensive to make (4-5 ATP)
Uric acid: low toxicity and low solubility
Precipitates (easy to store). Expensive to make.
Kidneys
Gills
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The antennal gland and urine formation in a freshwater crayfish
Produce dilute urine by filtration
and active reabsorption of ions
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The kidneys of molluscs and their relations to the circulatory system
Filtration in the pericardial cavity and modification in the canals and sacs
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The Malpighian tubules of an insect form the primary urine
No filtration
Secretory mechanism
Active secretion
of K+
WaterSolutes
mg
mt
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The hindgut modulates urine composition concentration and volume
Modification of the urine in the hindgut
Water reabsorption in excess of solutes
by local osmosis produce hyperosmotic urine