EXAM II Material Flashcards
Which of the following is NOT a characteristic of fibrocartilage?
Type II Collagen
Not surrounded by perichondrium
Found in intervertebral discs
Increased collagen in the matrix
Neither A nor B are characteristic of fibrocartilage
Type II Collagen
Which of the following is not part of a Haversian system?
Periosteum
Lacunae
Lamellae
Volkmann canals
Canalciuli
Periosteum
Parathyroid hormone stimulates osteoblasts to secrete/express which of the following?
Osteoprotegerin
M-CSF
RANKL
All the above
Only B and C
Only B and C
Hyaline Characteristics & Locations
- Most common; avascular
- Isogenous groups
- External Auditory meatus, Larynx, Trachial/Bronchial cartilages, Fetal long bones, articular ends of bones
- Type II Collagen
- Appositional & Interstitial growth
- Translucent- bluish white
Elastic Cartilage Characteristics & Locations
- Single Chondrocytes
- Auricle/Pinna of ear, Epiglottis
- Type II & Elastic fibers
- Opaque and flexible
Fibrocartilage Characteristics & Locations
- Singly sparse chondrocytes
- LACKS perichondrium
- Intervertebral discs, pubic symphysis, some tendon/ligament insertions
- Type I Collagen
- opaque
Describe Cartilage in terms of:
Cells (2)
ECM
Matrix
& other characteristics
- Chondroblasts = cartilage-forming (matrix), Chondrocytes = cartilage-maintaining (both in lacunae)
- ECM = Collagen fibers, Amorphous ground substance (gel-like)
- Matrix - Collagen type II, GAGs (hyaluronic acid, chondroitin sulfate, keratan sulfate, heparin sulfate)
- Avascular - nutrients diffuse thru matrix, slow to heal
- Territorial and Inter-territorial matrix
- Perichondrium - inner fibrous layer, outer chondrogenic layer
- Isogenous groups - chondrocytes
What is meant by bone tissue being based on a canalicular system?
Bone matrix is penetrated by various channels with various characteristics
Bone Tissue Characteristics
Matrix components?
Cell types? Type of growth?
- Appositional growth - hyaline cartilage model
- Continuously resorbed, reconstructed, remodeled
- Formed by osteoblasts –> osteocytes
- Matrix w/ organic and inorganic components
What is the organic & inorganic component of bone referred to as?
Organic - Osteoid (soft component)
Inorganic - hydroxyapatite (35-65%)
O = O
H = I
Characteristics of woven bone
- Development & bone repair
- also called cancellous/trabecular
*
Characteristics of Compact bone
- Found in adults - lamellar
- Components:
- Haversian canal - vessels w/ nerves
- Lacunae - osteocytes
- Lamellae - H.C. layers w/ lacuna in b/w
- Caniculus - connects lacunae to vessels
- Volksman Canal - connects HC
- Fibrous periosteum & Osteogenic periosteum
What are bones macroscopic components?
Endosteum - lines marrow cavity
Periosteum - surrounds bone
Marrow/Medullary cavity - runs down inner shaft
Sharply a fibers - connects periosteum to bone
E.PMS Erin (has) PMS
Characteristics of Spongy/Trabecular Bone
Contain bony spicules that intertwine to form trabeculae surrounding bone marrow spaces in long and flat bones
What are osteoblasts characterized by, derived from, give rise to, and the major protein products?
Derived from osteoprogenitor cells
Give rise to osteocytes
Characterized by Alkaline phosphatase and Vit D3
Major protein - Type I collagen, Noncollagenous proteins:
Osteocalcin, osteonectin, osteopontin, osteoprotegerin, RANKL
Function of Vitamin D3 in Osteoblast cells?
Regulates the expression of osteocalcin
Where is Alkaline phosphatase NOT found?
Osteocytes
Unique characteristic of Osteocalcin?
Has a high binding affinity for hydroxyapatite which inhibits osteoclast maturation
How are osteoclasts able to reabsorb bone matrix?
HI KO
inorganic = H+
K+ = secreted for organic
Via Osteoclasts
Define Joint
Where two bones come together
What are the 3 types of joints
Cartilage Joint
Synovial Joint
Fibrous Joint
Joints allow you to Cum, Swallow & Fuc
What are the types of Cartilaginous Joints?
S.F.S.H.
SoFarSonicHedgehog
Symphysis - joined by fibrocartilage
intervertebral discs and pubic symphysis
Synchondrosis - joined by hyaline cartilage
Epiphyseal plates, 1st sternocoastal joint
What are cartilaginous joints joined by?
Hyaline or Fibrocartilage
What are Fibrous Joints joined by?
Collagenous and/or Elastic Fibrous CT
What are the types of Fibrous Joints?
“Brain-dosis”
Suture
Joints b/w skull cap
Syndesmosis
b/w tibia and fibula
Gomphosis
teeth in alveoli
Characteristics of Synovial Joints
Moveable joints w/ connective capsule surrounding a fluid-filled joint space
3 Types: Monaxial Joint movement via 1 plane
Hinge and pivot joints
Biaxial Joint (condyloid joints; atlantooccipital joint)
Triaxial Joint 3 planes (ball & socket) Glenohumeral
Properties of Erythrocytes
Major Contents: lipids, ATP, Carbonic anhydrase, Hb
Major Peripheral Proteins: Spectrin, Actin, Ankyrin (binds spectrin & transmembrane protein), Protein 4.1, Adducin, Anion Transporter Channel
No organelles
Neutrophil Characteristics
PMNs; 3-5 lobes
Active phagocytes
Both small (specific; ) and large granules (less numerous azurophilic granules; primary);
Small Radicals Love Lying to Please
SMALL secrete free radicals, lysozyme, lactoferrin, proteases
LARGE secrete elastase, defenSins, myeloperoxidase
smallest blood cell
Basophil Characteristics
Bilobed Nucleus
Large, membrane bound basophilic granules = mask the membrane
Heparin = anticoagulant
Kallikrein = attracts eosinophils
Leukotrienes = vascular permeability
Serotonin
He Kills (his) Little Sisters
Eosinophil Characteristics
Bilobed Nucleus
Specific granules
MNP = Major basic protein = parasite membranes, histamine release
Peroxidase = neutralizes heparin & anti-parasitic
Men Can’t Perform
Allergic Rxns & Parasites
Lymphocyte Characteristics
Large, round Nucleus - slightly indented
B and T Lymphocytes (immune response)
Contain small, medium, and large (largest blood cell)
Monocyte Characteristics
Kidney Nucleus
LARGEST
Precursor of MO and Osteoclasts
Platelets Characteristics
Derived from megakaryocytes
Enhance aggregation, Promote clot formation, retraction (via prostacyclin from endothelial cell) and dissolution
Platelet plug (repair vessel damage), Adhesion via integrins
Release Thromboxane
2um; 200,000-400,000/uL of blood
3 Steps of extravasation of inflammatory cells into connective tissue:
- Leukocyte Extravasation
- Selectin phase
- Integrin phase
Basic steps of extravasation, what is released and what ICAMs are involved
Cytokines (via mast cells, platelets, damaged tissue cells) activate
Endothelial cells releases NO, Leukocytes move toward endothelial vessel wall
Leukocyte membranes w/ bodies bind to endothelial ligand P-selectin causing leukocyte rolling
Activated integrin receptors on leuks bind to ICAM-1 & ICAM-2 = Transendothelial migration of leuks
Erythroblastosis fetalis basic concepts
What antigen is involved?
Ag D
Mom is Rh-, baby is Rh+
Mother makes IgM during 1st baby = cannot cross placenta
Second baby = mother has IgG = crosses placenta
Rh Incompatibility
Totipotent
Pluripotent
Multipotent
- Give rise to All cells including embryonic & XE tissues
- Give rise to Adult tissue and embryo NO XE
- Give rise to Adult only - a given lineage
What are the 4 features of bone marrow histology?
Some Souls Prefer Hate
Sinusoids - connect arterial and venous vessels, access for mature blood cells to move into circulation
Stroma - background/framework for growth/dev. of blood cells (fibroblasts, adipose cells, ect.) Forms and secretes hematopoietic GFs
Parenchyma - various lineages of hematopoietic cells in diff stages of differentiation
Hematopoietic Cords - bands of parenchyma & stroma lying b/w sinusoids
What are the 3 classes of Hematopoietic GFs?
Colongy-stimulating factors
Erythropoietin and Thrombopoietin
Cytokines (interleukins)
Unique Cardiac Muscle Characteristics
Intercalated Discs (gap junctions)
Mononucleated
Central Nuclei
Smooth Muscle Characteristics
Mononucleated
No sarcomere arragement
Gap junctions
Skeletal Muscle Characteristics
Striated, Peripheral Nuclei
Multinucleated = syncytium
Sarcomere arrangement, “all-or-none”
Each fiber innervated via single motor axon
3 Myofiber Types - I, IIA, IIB
What are the characteristics of Myofiber Type I?
Slow, continuous contractions = high mito
NADH rich = high Oxidative Phosph = Strong staining for oxidative enzymes (darkest)
Dark/Red fibers
Characteristics of Myofiber Type IIA?
Intermediate staining
Both aerobic and anaerobic respiration
Faster than Type I
Fatigue Resistance
Characteristics of Myofiber Type IIB?
Fastest = therefore fatigue faster
Stain Light for oxidative enzymes
Anearobic respiration for ATP
Light/White fibers
Components of the troponin-tropomyosin-actin complex
(thick and thin filament)
Thick Filament: Myosin - 2 heads = Actin, ATP, & light chain binding sites, 2 tails = one maintains stability, other stabilizes head
Thin Filament: G actin
Troponin: T.I.C.
T = binds tropomyosin
I = inhibits actin/myosin binding
C = binds Ca2+
Tropomyosin
2 alpha-helical polypeptides twisted around one another and sits in b/w two actin filaments
Location and function of T tubules
Between A and I bands
Electrochemical Coupling occurs
AP along sarcolemma and contraction
Sarcoplasmic Reticulum location and function
Contain Cisternae - sequester Ca2+ ions
Next to T-tubules
Equivalent to RER
Function of basal lamina in skeletal muscle
Connects muscle fibers and helps distribute the force of contraction
Characteristics of Satellite Cells
Attach to myotubes before basal lamina is laid down
Generally quiescent
Function as stem cells
Become mitotic in times of stress -> HGF binds C-Met receptor
Gives rise to myogenic precursor cells - replaces damaged cells (differentiates into muscle fibers)
Function of the Neuromuscular Spindle
sensory receptors within the belly of a muscle that primarily detect changes in the length of this muscle. They convey length information to the central nervous system via sensory neurons.
Regions of the Neuromuscular spindle
Sensory Region
Contractile Region
Alpha motor neurons = extrafusal fibers
Gamma motor neurons = intrafusal fibers
Primary and Secondary afferent fibers
GI BILL= gamma = intrafusial
What are the components of intercalated discs in cardiac muscle? (3)
Gap Junctions - along longitudinal section
Macula Adherins (desmosomes) - adhere intermediate filaments/desmin to adjacent muscle cells (transverse component)
Fascia Aderendentes - anchors actin filaments of sarcomeres (transverse component)
LGBT
Longitudinal = gap junction
Transverse = Adherins & Aderendentes
What is the source and function of ANP?
Source: cardiac muscle cells in atria
Function: Regulate fluid electrolyte balance
Relax vascular smooth muscle (reducing blood volume and pressure) = release stimulated via atrial stretch = cleavage of prohormone into active product
Describe function and structure of caveolae (and lipid rafts)
Caveolin bind cholesterol in lipid rafts (cell membrane depressions involved in fluid and electrolye transport where pinocytotic vesicles form) and initiates formation of caveolae which are vesicles that detach and participate in vesicular trafficking (which transport Ca2+ from extracellular fluids to SR of smooth muscle)
Layers of the perichondrium?
Fibrous perichondrium - source of fibroblasts, outermost
Chondrogenic perichondrium - chondroblasts and oteoprogenitor cells, innermost layer
What are the cells of cartilage and where are they located?
Located in lacunae
Chondroblasts - cartilage-forming cells
Chondrocytes - cartilage maintaining
What does the ECM of cartilage contain?
Amorphous ground substance
Type II Collagen (besides Fibrocartilage = Type I)
Hyaluronic acid
GAGs - chondroitin sulfate, keratan sulfate, heparin sulfate
Territorial and Inter-territorial matrix
Isogenous groups
How are chondrocytes arranged in elastic cartilage, fibrocartilage and hyaline cartilage?
Elastic = Singly
Fibrocartilage = Sparsly
Hyaline = Many Isogenous groups
What is unique about Fibrocartilage?
Contains Type I Collagen rather than Type II
is NOT surrounded by perichondrium
What is the primary regulator for bone turnover? What do low and high amounts signify?
PTH
[high] - PTH binds osteoblast
Osteoblast stimulated to synthesize M-CSF & RANKL
M-CSF binds to M-CSFr on monocyte which diff into MO which expresses RANK which binds RANKL which couples together osteoblast & MO = immature osteoclast
[low] - bone formation = Osteoblast syn. Osteoprotegerin which blocks RANKL (no binding of RANK) = osteoblast activity
What occurs during high [PTH] and low [PTH]?
High = high osteoclast activity = Bone Breakdown/killing = Osteoblast releases osteoclast-differentiation factors (eroded bone & fibrosis = osteitis fibrosis)
Low = high osteoblast activity = Bone Formation
What are the major protein products of osteoblasts?
Type I Collagen
Osteocalcin
Osteonectin
Osteopontin
Osteoprotegerin
RANKL
Steps in intramembranous bone development
Mesenchymal Aggregation (Wnt, Shh, FGF, TGF-beta)
Osteoblasts
Secrete osteoid, trapped blasts = Blastema
Trapped blasts - Osteocytes = Syncytium
Mineralization via Ca2+ ions
Epithelial covering secreting osteoid: Type I + Non-collagen proteins
Primary ossification center = Trabecula, fusion = spongy bone
Woven Bone w/ crazy collagen fibers
Aligned fibers = Lamellar = encircle vessels = Haversian System
Hypertrophic Chondrocytes = Endothelial GF
Blood vessels break thru perich. bringing in Osteoprogenitor cells, apoptosis of hypertrophic cartilage cells = calcified matrix strands
Above used by blasts to deposit Osteoid then calcified
Appositional growth occurring; perichondrium = periosteum
What are the Zones in the growth plate/epiphyseal plate?
Zone of Proliferation
zone of hyper trophy
zone of calcification
FAG Proteins
Fibrinogen
Albumin
Globulin
Fibrinogen - Clotting, target for thrombin made in liver
Albumin - major protein component in blood, made in liver
Globulin - Immunoglobulin
What are the hematopoietic GFs? (3)
Colony Stimulating Factors
Erythropoietin and Thrombopoietin
Cytokines
Hierarchichal Structure of skeletal muscle
Muscle Fasicle surrounded by Epimysium (bundle of myofibers)
Perimysium in between Fasicles (fibroblasts & Type I)
MyoFiber w/ Sarcolemma surrouned by Endomysium (bundle of myofibrils) Basal Lamina
Myofibril with sarcomeres
Thick Filament components
Myosin; dimeric protein w/ two heads and two tails
Myosin Head - actin, ATP, light chain binding region
Light chain stabilizes myosin head
Myosin Tail - 2 tails; maintains stability of myosin II
Thin Filament Components
G Actin
2 polymers in alpha helix w/ (+) end connected to Zdisc and (-) end towards H band
Troponin
Tropomyosin
Alpha Actinin
Attaches thin filaments to Z line
Alpha-beta Crystallin
Heat shock protein that protects desmin from mechanical stress
Desmin Intermediate Filaments
Surrounds Z-line and extends into each sarcomere
Links myofibrils laterally and to sarcolemma
Dystrophin
Links alpha-actinin/desmin complex to cytoplasmic side of sarcolemma
Anchors actin to sarcolemme
Reinforces sarcolemma during muscle contractions
Nebulin
Act right for the Nubian Queen
Template to regulate length of actin filament
Extends from Z disk to end of actin filament
Plectin
Binds desmin filaments
Titin
Connects ends of thick filaments to Z line
Extends from Z disk to H band
Provides myosin w/ elasticity, large fibrous protein
Function & Characteristics of Satellite cells
Attach to myotubes before basal lamina is laid down
Generally quiescent
Function as stem cells
Become mitotic in times of stress
C-Met receptor binds HGF
Gives rise to myogenic precursor cells which replace damaged muscle by proliferating, fusing, and differentiation into skeletal muscle fibers
Explain the contractile apparatus of smooth muscle, what are the differences b/w that and skeletal?
Plasma membrane dense bodies and cytoplasmic dense bodies bind actin-myosin bundles which zig-zig thru cell
Contain Dense bodies rather than Z lines which connect actin filaments together and to cell membrane - alpha actinin
Caveolae and lipid rafts contain the pinocytic vesicles that detach and participate in vesicular traffiking
Where are glial cells derived from?
Cortical plate
How do you classify neurons according to the numbers of processes? 3
Bipolar - single axon extends from either side of cell body giving off multiple dendrites Special Sensory = eye, olfactory, auditory, vestibular
Multipolar - single axon giving off multpile dendrites
Pseudounipolar - single axon extends from cell body and shortly bifurcates into a central and peripheral process w/ dendrites in periphery
Sensory ganglia of cranial & spinal nerves
How do you classify neurons according to axon length?
Golgi Type I - long axons that leave grey matter of which they part
Golgi Type II - neurons with short axons which ramify thru grey matter
List the layers of a neuron
Epineurium - covers entire nerve (supplied by blood and lymphatic vessels) Type I & fibroblasts
Perineurium - covers bundles of axons/fasiscles within nerve Dense CT
Endoneurium - surrounds individual fascicles and Schwann cells Thin layer of reticular CT, Type III (receptors and ion channels)
Astrocytes; origin, location, function, major characteristics
CNS
Functions: structural support, blood brain barrier = exchange of nutrients & metabolites b/w blood and neurons (pediceles; feet on pia mater and blood vessels)
Potassium sink, uptake/metabolism of NTs
Fibrous Astrocyte - white matter
Protoplasmic Astrocyte - grey matter
Describe the process of myelination in the PNS
Schwann cell plasma membrane wraps around axon.
Schwann cell cytoplasm is “squeezed” out, leaving behind concentric layers of membranes.
Define External mesaxon
Also known as the outer point of fusion
Creates the intraperiod line which is an electron dense line (extracellular spaces)
Close but non-fused outer leaflefts
Define Internal Mesaxon
Also known as the inner point of fusion
Major dense line are the inner leaflefts with cytoplasmic space remnants with CLOSE opposition; thinner line
Arachnoid Characteristics
Connect to pia mater via arachnoid trabeculae
Contain Arachnoid villi (CSF enters; arachnoid barrier cells) that extend out to venous sinus allowing CSF flow from subarachnoid space into dural sinuses
Blood does not flow from venous sinus to subarach. space
What is the pathway of aqueous humor?
Posterior to Anterior chamber
Major escape route from ciliary body = Canal of Schlemm, where it reaches the sclera and is drained by veins and lymphatics
What is the Organ of Corti? Where is it located, function?
Located in Scala media
Produces nerve impulses in response to sound vibrations
Sensory receptors = hair cells
