Cell physiology:
Cell membrane:
Composed of phospholipids and proteins.
Lipid bilayer:
Phospholipids with glycerol.
Lipid soluble substances (O2,CO2 and steroid hormone)
Water soluble substances (Na+, Cl-, glucose and H2O)
Proteins:
Integral proteins: nachored and imeded in the cells membrane through hydorphbic
interaction. And it spans the cell membrane. Such as Ion channels, transport protein.
Receptors.
Peripheral proteins: not imbedded, not covalent binded and loosely attached
through electrostatic interaction.
Intercellular connections:
Tight junctions: zona occludens
Attachment btw cell. Tight in the renal DCT. And leaky in the PCT, gallbladder.
Gap junctions: permit interceullar communication.
In the cotransporter and counter one there is inhibition of the ATP Na+ pump.
Transport across cell membrane:
Simple diffusion:
Not carrier mediated.
Down the electrochemical
No energy needed
Permeability:
Ease of the solute to diffuse through membrane.
Increase by decrease radius of the solute, increase the oil/water partition, and
decrease the membrane thickness.
Carrier mediated transport:
It is stereospecific.
Has saturation limit.
Has competition for molecules.
Facilitated diffusion:
Down electrochemical.
Passive.
Rapid than simple diffusion and carrier mediated one. i.e. glucose in insuline
response
Primary active transport:
Against electrochemical.
Needs energy. Carrier mediated. Such as Na+/K+, Ca2+ pump and H+,K+ pump.
Secondary active transport:
, Coupled transport. Symport (Na+, glucose) vs antiport( Na+, Ca2+)
Osmosis:
Osmolarity:
Can be measured by freezing point depression.
Osmosis: is the flow of the water across semipermeable membrane according to the
gradient.
Calculating the osmotic pressure.
It increases when the amount of solutes increases.
Reflection coeffieient if is One it is not Permeable. If is Zero it is Super Permeable.
AP, RMP and diffusion potential:
Ion channels:
Integral proteins.
Selective ones.
Voltage gated channels: responds to change in tehj membrane potential.
Ligand gated channels respond to the hormones and second messenger.
Diffusion and equilibrium potentials:
The size diffusion potential depends on the difference of the concetration gradient
Resting membrane potential:
-70 mV.
Na+/K+ pump contribute indirectly.
Results form the difference in the pearmeation potential to the diffusion of ions.
Action potentials:
Depo, makes the membrane potential less negative.
Hyperpola, make it more negative.
Accommodation occurs when the cell membrane is held at depolarized levels.
Without firing AP. Due to inacitavton of Na+ channels. Seen during hyperkalemia.
,
Spatial summation when two AP arrive at the same time to the postsynaptic junction.
Temporal when we have different timed interval AP generated.
Dopamine:
D1 receptor work by activation adenylase cyclase thru Gs proteins
D2 receptor inhibit adenylase cyclase thru Gi protein.
Parkinson disease involves the degeneration of D2 receptor.
Schizophrenia involves increase D2 receptor.
Serotonin: from tryptophan and converted to melatonin.
GABA:
Gaba A works thru Cl- conductance.
Gaba B work thru K+ conductance.
Skeletal muscle:
Muscle fibers has bundles of myofibrils. Surrounded by SR, and invaginated by T tubules.
Thick filament: has myosin. With the two heads attach to single tail.
Thin filament contain actin. With troponine and tropomyosin
Tropomysin has 3 segments. T attached to tropomyosin. I inhibits interaction, actin,
and myosin. C Ca2+ bind protein.
Isometric contraction is the length
is constant, no shoretening.
Isotonic contraction isteh load
held is constant and there is
shortening of the muscle.
Neurophysiology:
, Autonomic nervous system:
Set of pathway from CNS to regulate Smooth muscle, Cardiac muscle and Glands.
Organization of ANS:
Parasymp ganglia located near the effector organ
Symp ganglia located near the paravertebral chain.
Preganglionic neurons: have their cell bodies in CNS and synapse in autonomic ganglia.
Preganglionic of sympathetic nervous originated from T1 to L3 thoracolumba .
Preganglionic of the parasympathetic nervous system originated form sacral part S2-S4
and craniosacral part.
Neurotransmitter of the ANS.
Adregenic neuron secrets Norepinephrine.
Cholinergic neurons which secrets acetylcholine.
Nonadregenic, Noncholinergic releases substance P, VIP, NO.
Receptors types in the ANS:
a1 Receptors: located in the vascular smooth muscle. Of skin and splanchnic regions. GI,
Bladder sphincter and iris. Prduce contraction. Acts thru Gq protein to increase
phospholipase C and thus increase in IP3 and Ca2+.
a2 Receptors: on the symp. Postganglionic nerve terminals. Platelets, fat cells. And the
wall of GI. Produce inhibtion. Thru Gi. Decrease in cAMP,
B1 receptors. Located in the SA, AV, nodes and ventricular muscle of the heart. Produces
contraction. Thru Gs and increases cAMP.
B2 receptors: located on the vascular smooth
muscle of the skeletal, bronchial, and GI, bladder
walls. Produce relaxation /dilation . thru Gs
increase cAMP.
Cholinergic receptors:
Nicotinic receptors: located in the
autonomic ganglia, of neuromuscular and
adrenal medulla. Activated by
acetyl/nicotine. Produces excitation.
Muscarinic receptors: M1 nervous, M2
heart, M3 smooth and glands. Inhibitory in
heart(Gi). Excitatory in smooth and glands
(Gs). Activated by muscarin/acetyl.
Autonomic centres:
Cell membrane:
Composed of phospholipids and proteins.
Lipid bilayer:
Phospholipids with glycerol.
Lipid soluble substances (O2,CO2 and steroid hormone)
Water soluble substances (Na+, Cl-, glucose and H2O)
Proteins:
Integral proteins: nachored and imeded in the cells membrane through hydorphbic
interaction. And it spans the cell membrane. Such as Ion channels, transport protein.
Receptors.
Peripheral proteins: not imbedded, not covalent binded and loosely attached
through electrostatic interaction.
Intercellular connections:
Tight junctions: zona occludens
Attachment btw cell. Tight in the renal DCT. And leaky in the PCT, gallbladder.
Gap junctions: permit interceullar communication.
In the cotransporter and counter one there is inhibition of the ATP Na+ pump.
Transport across cell membrane:
Simple diffusion:
Not carrier mediated.
Down the electrochemical
No energy needed
Permeability:
Ease of the solute to diffuse through membrane.
Increase by decrease radius of the solute, increase the oil/water partition, and
decrease the membrane thickness.
Carrier mediated transport:
It is stereospecific.
Has saturation limit.
Has competition for molecules.
Facilitated diffusion:
Down electrochemical.
Passive.
Rapid than simple diffusion and carrier mediated one. i.e. glucose in insuline
response
Primary active transport:
Against electrochemical.
Needs energy. Carrier mediated. Such as Na+/K+, Ca2+ pump and H+,K+ pump.
Secondary active transport:
, Coupled transport. Symport (Na+, glucose) vs antiport( Na+, Ca2+)
Osmosis:
Osmolarity:
Can be measured by freezing point depression.
Osmosis: is the flow of the water across semipermeable membrane according to the
gradient.
Calculating the osmotic pressure.
It increases when the amount of solutes increases.
Reflection coeffieient if is One it is not Permeable. If is Zero it is Super Permeable.
AP, RMP and diffusion potential:
Ion channels:
Integral proteins.
Selective ones.
Voltage gated channels: responds to change in tehj membrane potential.
Ligand gated channels respond to the hormones and second messenger.
Diffusion and equilibrium potentials:
The size diffusion potential depends on the difference of the concetration gradient
Resting membrane potential:
-70 mV.
Na+/K+ pump contribute indirectly.
Results form the difference in the pearmeation potential to the diffusion of ions.
Action potentials:
Depo, makes the membrane potential less negative.
Hyperpola, make it more negative.
Accommodation occurs when the cell membrane is held at depolarized levels.
Without firing AP. Due to inacitavton of Na+ channels. Seen during hyperkalemia.
,
Spatial summation when two AP arrive at the same time to the postsynaptic junction.
Temporal when we have different timed interval AP generated.
Dopamine:
D1 receptor work by activation adenylase cyclase thru Gs proteins
D2 receptor inhibit adenylase cyclase thru Gi protein.
Parkinson disease involves the degeneration of D2 receptor.
Schizophrenia involves increase D2 receptor.
Serotonin: from tryptophan and converted to melatonin.
GABA:
Gaba A works thru Cl- conductance.
Gaba B work thru K+ conductance.
Skeletal muscle:
Muscle fibers has bundles of myofibrils. Surrounded by SR, and invaginated by T tubules.
Thick filament: has myosin. With the two heads attach to single tail.
Thin filament contain actin. With troponine and tropomyosin
Tropomysin has 3 segments. T attached to tropomyosin. I inhibits interaction, actin,
and myosin. C Ca2+ bind protein.
Isometric contraction is the length
is constant, no shoretening.
Isotonic contraction isteh load
held is constant and there is
shortening of the muscle.
Neurophysiology:
, Autonomic nervous system:
Set of pathway from CNS to regulate Smooth muscle, Cardiac muscle and Glands.
Organization of ANS:
Parasymp ganglia located near the effector organ
Symp ganglia located near the paravertebral chain.
Preganglionic neurons: have their cell bodies in CNS and synapse in autonomic ganglia.
Preganglionic of sympathetic nervous originated from T1 to L3 thoracolumba .
Preganglionic of the parasympathetic nervous system originated form sacral part S2-S4
and craniosacral part.
Neurotransmitter of the ANS.
Adregenic neuron secrets Norepinephrine.
Cholinergic neurons which secrets acetylcholine.
Nonadregenic, Noncholinergic releases substance P, VIP, NO.
Receptors types in the ANS:
a1 Receptors: located in the vascular smooth muscle. Of skin and splanchnic regions. GI,
Bladder sphincter and iris. Prduce contraction. Acts thru Gq protein to increase
phospholipase C and thus increase in IP3 and Ca2+.
a2 Receptors: on the symp. Postganglionic nerve terminals. Platelets, fat cells. And the
wall of GI. Produce inhibtion. Thru Gi. Decrease in cAMP,
B1 receptors. Located in the SA, AV, nodes and ventricular muscle of the heart. Produces
contraction. Thru Gs and increases cAMP.
B2 receptors: located on the vascular smooth
muscle of the skeletal, bronchial, and GI, bladder
walls. Produce relaxation /dilation . thru Gs
increase cAMP.
Cholinergic receptors:
Nicotinic receptors: located in the
autonomic ganglia, of neuromuscular and
adrenal medulla. Activated by
acetyl/nicotine. Produces excitation.
Muscarinic receptors: M1 nervous, M2
heart, M3 smooth and glands. Inhibitory in
heart(Gi). Excitatory in smooth and glands
(Gs). Activated by muscarin/acetyl.
Autonomic centres:
