MSK Flashcards
3 TYPES
- SMOOTH - visceral, many body organs and blood vessels
- SKELETAL - voluntary, mainly attached to bony skeleton - striated
- CARDIAC - only at heart, branching/striated
OTHER CONTRACTILES
- PERICYTES (along some blood vessels)
- MYOFIBROBLASTS (scar formation
- MYOEPITHELIAL CELLS (milk @ lactate
SMOOTH MUSCLE
- discrete cells with cell junctions - function as whole
- LONGITDUINAL - FUSIFORM w/ cylindrical nuclei
- TRANSVERSE - ROUND cell and nuclei
- CENTRAL NUCLEUS / NO STRIATIONS
not organised into sarcomeres
- anchored to cell membrane in clumps
- reticulin (collagen T3) rich external lamina / BM that joins cells together
- electrically coupled via gap junctions
- surface receptors for hormonal stimuli
this slide- double layer of smooth muscle @ intestines
SMOOTH MUSCLE ARRANGEMENT AND GAP JUNCTIONS
- each junction = 6 CONNEXON PROTEINS span cell membrane and link interior of adjacent cells
- vital for co-ordinated contraction
- guarded central pore - small molecules to pass from one cell to the next (signal molecules) electrical coupling - freely and quicker than transporting
SKELETAL MUSCLE TERMINOLOGY
- sarcomere - regular repeat structure within myofibrils = interdigitated actin and myosin
- myofibril - small intracellular fibril - sarcomeres joined end to end
- muscle fibre - fusion of many myocytes with 100s of myofibrils. surrounded by common plasmalemma, behaves as single cell - many nuclei
- fasciculus - bundle of muscle fibres surrounded by connective tissue
- endomyosium - lace work of connective tissue between muscle fibres
- perimysium - surrounds group of fibres to form fasciculus
- epimysium - connective tissue around fasciuli to form muscles
MUSCLE FIBRE & LONGITUTIDNAL SKELETAL MUSCLE
- long unbranched
- many nuclei
- LONGITUDINALLY - nuclei at fibre edges
- TRANSVERSELY - aggregated to fasciuli, nuclei at edges
this slide - tongue (with longitudinal muscle fibres)
EXTRINSIC FIBRES - poke out motuh
INTRINSIC FIBRES - manipulate food
myofibrils in register = striations
SKELETAL MUSCLE (TRANSVERSE)
- loosely aggregated to fasciuli by PERIMYSIUM
- nuclei at periphery of fibre
SKELETAL MUSCLE INDIVIDUALLY INNERVATED IN MOTOR UNITS
MITOCHONDRIA BETWEEN MUSCLE FIBRILS WITH MUSCLE FIBRES
MAY SEE GLYCOGEN AND LIPID DROPLETS
SARCOMERE (IRON HAEMATOXYLIN)
- unit structure of sacromere
- Z line to Z line
- thin actin to Z line
- interdigitate thick myosin
- in contraction shortens up to 1/3
- I band - actin only
- A band - actin and myosin
- H band - myosin only (with M line)
- myofibrils run in parallel with sarcomeres in register = STRIATIONS
SARCOMERES JOINED END TO END AND SIDE TO SIDE AT Z-LINE
CARDIAC MUSCLE
- discrete rectangular cells - end to end
- central nuclei
- branch
- connected by intercalated discs - hold cells physically and electrically coupled
- desomosomes
- adherent junctions
- gap junctions
- sarcomes i.e. STRIATED with myofibrils but with different protein isoforms to skeletal
- many mitochondria (ox phos dependent) therefore aerobic respiration only
don’t necessarily have own nerve supply as have innate contractility (SA and AV node regulated)
SARCOMERES
- when stimulated actin fibres slide within th A-band
- brings Z-lines close together
- shortens sarcomere up to 30% - extrinsic work
- tension increases - intrinsic work
- structural protein - titin
between myofibrils:
T-tubules - conduct impulse
sarcoplasmic reticulum - sequester calcium
glycogen/lipid storage
mitochondria - ATP production
UPPER FIBIRL - contractile
LOWER FIBRIL - structural
SKELETAL MUSCLE LONGITUDINAL
- each skeletal muscle fibre = hundreds of myoblasts fused to syncitium
- each fibre = many nuclei under plasmalemma at side of fibre - DISTINGUISHING POINT
this slide -tongue
n.b. small fascicles usuall denote smaller motor units = fine control
SKELETAL MUSCLE TRANSVERSE
- polygonal pink fibres
- arranged in clumps = fascicles
not all skeletal muscle is attached to bone
when skeletal muscles are attached together by fibrous connective tissue = RAPHE
SKELETAL MUSCLE BANDING (IRON HAEMATOXYLIN)
- I band - pale, predominantly actin
- Z line - @ centre of I band
- A band - darker staining, MYOSIN RICH
A band is not actin
@ centre of each A band = paler H band with M line
I stands for ISOTROPIC
A stands for ANISOTROPIC
FIBRE ARRANGEMENT LONGITDUINAL
- striations (myofibrils and repeat sarcolemmas)
- Dark = A band
- Light = I band
- Z lines connected
IN REGISTER
between myofibrils = mitochondria and elements of sarcoplamic reticulum
DYSTROPHIN - binds actin to plasmalemma of muscle cells - structural integrity
FIBRE ARRANGEMENT TRANSVERSE
- actin and myosin appear as dots
- @ I band = small dots only (light)
- @ A band = small and large dots - actin and myosin (dark)
between myofibrils may see parts of T-tubules and sarcoplasmic reticulum. also glycogen and mitochondria.
Z DISC COMPOSITION
lipid = 60% - electrostatically binds proteins
major protein = ALPHA ACTININ
SKELETAL MUSCLE: TYPE 1 & 2(a/b)
most fibres contain all 3 but proportions vary
- TYPE 1 - SLOW TWITCH: oxidative / fatigue-resistant / postural muscles
- TYPE 2a - FAST TWITCH: oxidative / glycolytic - moderately fatigue resistant
- TYPE 2b - FAST TWITCH: depend on glycolytic processes and are therefore fatigue sensitive (SPRINT MUSCLES)
this slide - stained for fibrillar ATPase (DARK BROWN) and greatest in slow twitch with greater number of mitochondria
postural muscles at spine have largest proportion of slow twitch
fingers have highest proportion of fast twitch
SKELETAL MUSCLE: TYPE 1
- type 1 - rows of mitochondria between myofibrils
- fat globules alongside mitochondria used for ATP production