UV light

Question 1

What is the wavelength of the two types of UVA light?

Answer 1

UVA 1: 340-400nm UVA 2: 320-340nm

Question 2

What percentage of the Uv radiation that reaches the earth’s surface is UVA?

Answer 2

95%

Question 3

How far down does UVA penetrate into the skin/

Answer 3

Into the dermis

Question 4

When is UVA present during the day?

Answer 4

Present consistently from sunrise to sunset

Question 5

What is the wavelength of UVB?

Answer 5

280-315nm

Question 6

Where is UVB absorbed?

Answer 6

Mostly absorbed by the epidermis, small portion in the upper dermis

Question 7

What is the wavelength of UVC radiation?

Answer 7

200-280nm

Question 8

Where is UV radiation absorbed, how deep would it penetrate if it reached the skin?

Answer 8

Almost entirely absorbed by the ozone, would be absorbed mostly by stratum corneum.

Question 9

In what wavelengths are visible light?

Answer 9

~380-740nm

Question 10

What is the relationship between wavelength and depth of penetrance in the skin?

Answer 10

Longer wavelengths penetrate more deeply, they also carry less energy (lower frequency)

Question 11

What is a chromophore?

Answer 11

A light-absorbing molecule
- For light to have a cutaneous effect it must be absorbed by a chromophore of the epidermis.

Question 12

What 4 chromophores are present in the epidermis?

Answer 12

Nucleic acids, proteins, urocanic acid, melanin

Question 13

What 2 chromophores are present in the dermis?

Answer 13

Hemoglobin, porphyrins

Question 14

What effect does the absorption of radiation have on the chromophore?

Answer 14

The chromophores are elevated to an excited state –> photochemical reaction –> directly changes chromophore or indirectly changes molecule other than chromophore

Question 15

Short term effects of UVR on skin/skin histology seen after exposure?

Answer 15

Spongionsis Sunburn Cells (Apoptotic keratinocytes) Acanthosis Hyperkeratosis Depletion of Langerhans cells Increase in the basal layer and suprabasal melanin content Inflammatory infiltrate of lymphs, neuts, and vasodilation

Question 16

What is this?

Answer 16

A sunburn cell

Question 17

What is the effect of radiation wavelength on the ability to cause sunburn?

Answer 17

Ability to cause erythema decreases with increasing wavelength. i.e 360nm UV is 1000-fold less erythemogenic than 300 nm

Question 18

When does a sunburn from UVB peak post-exposure?

Answer 18

12-24 hrs

Question 19

Why is the UVB sunburn delayed in presentation?

Answer 19

DNA is chromophore for the delayed erythema rxn

Question 20

What is the sunburn effect/potential of UVA light?

Answer 20

Can cause immediate erythema, followed by delayed erythema… does not induce sunburn however.

Question 21

What does the skin “tan” signify and what type of radiation causes it?

Answer 21

3 parts of tan (2 acute and one chronic)

1. immediate pigment darkening –> UVA mediated, most prominent 10-20 minutes later, due to oxidation of pre-existing melanin and redistribution of existing melanin within melanocytes.
2. Persistant pigment darkening: brown coloration present >2 hrs after UVA light exposure lasting 24 hrs. This is due to oxidation of pre-existing melanin
3. Delayed pigmentation/tanning: develops over many days (3 days after exposure) and lasts weeks to months. It is due to UVB light exposure, increased melanin synthesis, increased # of melanocytes, increased arborization of melanocytes, and increased transfer of melanosome sto keratinocytes

Question 22

Do “base tans” from tanning beds help protect against future burns?

Answer 22

UVA (tanning bed) provides 5-10x less protection against sunburn than does UVB-induced tan d/t less pronounced epidermal thickening and hyperkeratosis.

Question 23

What proinflammatory/immune-stimulating mediators are released from resident and non-resident skin cells after exposure to UVR?

Answer 23

Serotonin, prostaglandins, IL-1, IL-6, IL-8, TNF-a and induction of antimicrobial peptides

Question 24

How does UVR exert an anti-inflammatory / immunosuppressive effect?

Answer 24

• Depletion of Langerhans cells or modulation of their antigen-presenting function
• Release of anti-inflammatory mediators by residnet and non-resident skin cells (IL-10, a-MSH)
• Induction of regulatory T cells (antigen-specific)

Question 25

Process of photocarcinogensis?

Answer 25

DNA damage –> mutations –> malignant transformation

At the same time

Immunosuppression from reduced host-immune defense to recognize and remove malignant cellsy

Question 26

Which keratinocyte tumors are more common in immunocompromised vs immunocompetent people?

Answer 26

SCC in immunocompromised and BCC in immunocompetant.

Question 27

Which type of UVR plays the biggest role in carcinogenesis?

Answer 27

UVB (its the one being absorbed the epidermis)

Question 28

What type of DNA damage is common with UVR?

Answer 28

Pyrimidine dimers

Question 29

What UVR signature mutation?

Answer 29

C–>T transition

Question 30

What causes photoaging

Answer 30

–> due to chronic inflammatory response to UV light

Loss of collagen fibers and deposits of abnormal degenerative elastotic material (actinic elastosis)

Upregulation of extracellular matrix-degrading proteases

Down regulation of collagen synthesis

Changes seen in epidermis, pigmentary system, and vasculature

UVA big player in dermal changes of photoaging d/t deeper penetration

Penetrates through glass

Question 31

What type of UVR is the primary inducer of aging?

Answer 31

UVA

Question 32

What are 5 conditions associated with solar aging?

Answer 32

Solar elastosis, Poikiloderma of Civatte, Favre-Racouchot syndrome, Colloid millium, Erosive pustular dermatosis

Question 33

What does solar elastosis look like clinically?

Answer 33

Solar Elastosis

Thickened, wrinkled, yellowish skin on chronically sun-damaged skin

Cutis rhomboidalis nuchae

Variant affecting posterior neck w/ geometrically patterned leather-like wrinkled skin

Question 34

What is poikiloderma of civatte clinically?

Answer 34

Reticular reddish-brown telangiectatic patches on lateral neck

Central submental region spared

Question 35

What is Favre-Racouchot syndrome clinically?

Answer 35

Clusters of large open comedones on lateral/inferior periorbital area/temple + solar elastosis

Question 36

Clinical of colloid millium?

Answer 36

1-2mm white-yellow subcutaneous papules, often grouped in sun-exposed regions of face

Question 37

Clinical of erosive pustular dermatosis?

Answer 37

Pustules + crusts + erosions on significantly photodamage scalp of old, bald men

No consistently effective treatment

Topical steroids or Calcineurin inhibitors may be tried

Question 38

What are the most common types of cyclobutane-pyrimidine dimers seen from UVR damage?

Answer 38

T-T >C-T>T-C>CC

Question 39

What is the most effective wavelength for inducing DNA photoproducts in basal layer of the epidermis?

Answer 39

300 nm (UVB)

Question 40

How does UVA damage DNA?

Answer 40

formation of reactive oxygen species (can produce pyrimidine dimers but much less frequently)

Question 41

What repairs the bulky DNA photoproducts?

Answer 41

Nucleotide excision repair pathway (NER)

Question 42

What disorders result from a mutated nucleotide excision pathway?

Answer 42

Xeroderma pigmentosum, Cockayne Syndrome, Trichothiodystrophy

Question 43

How does the NER pathway function?

Answer 43

RNA polymerase recognizes DNA damage

XPC and XPE proteins bind the UV-damaged DNA, marking it for further processing. Ultimately this DNA gets incised and then DNA synthesis and ligation replaces the excised oligonucleotide.

Question 44

Clinical of xeroderma pimientos?

Answer 44

Amount of DNA damage formed in skin following UV exposure is the same as in normal individuals, but deficient repair of this damage introduces many more mutations at sites of DNA damage

Defect in NER pathway increases UV sensitivity and mutagenesis

Increase risk of nonmelanoma and melanoma skin cancers

Marked photosensitivity, solar lentigines by age 2, ocular abnormalities (photophobia, keratitis, corneal opacities), neurologic abnormalities (progressive deafness)

Question 45

Risk of what types of skin cancers are increased in xeroderma pigmentosum?

Answer 45

All (BCC, SCC, and melanoma)

Question 46

What is the significance of the complementation groups XPA-XPG in xeroderma pigmentosum?

Answer 46

Represents different proteins in NER pathway

XPA, XPB, XPC, XPD exhibit more impaired DNA repair

Unable to determine XP complementation group by clinical phenotype alone

Question 47

What is the XP variant of xeroderma pigmentosum?

Answer 47

Mutation in DNA polymerase, intact NER

Phenotype indistinguishable from other XP complementation groups

No neurologic abnormalities

Question 48

What is the genetic inheritance of xeroderma pigmentosum?

Answer 48

AR

Question 49

What is the genetic inheritance of Cockayne Syndrome?

Answer 49

AR

Question 50

What two complement groups are seen to be defective in Cockayne Syndrome?

Answer 50

CS-A (ERCC8) & CS-B (ERCC6)

Question 51

What is the pathogenesis of Cockayne Syndrome?

Answer 51

Unable to repair CPDs, increase chromosomal breaks

Question 52

Clinical presentation of Cockayne Syndrome?

Answer 52

Presents w/ photosensitivity, mental retardation, cachectic dwarfism, peripheral neuropathy, sunken eyes, prominent ears, “salt and pepper” retinitis pigmentosa, dental caries, thinning hair, basal ganglia calcification

Question 53

What is the inheritance pattern of Trichothiodystrophy?

Answer 53

AR

Question 54

What is the genetic mutation involved in trichothiodystrophy/

Answer 54

Mutation in ERCC2 (XPD protein) and ERCC3 (XPB protein) in NER pathway

Question 55

Clinical presentation of Trichothiodystrophy?

Answer 55

PIBIDS

Photosensitivity, Ichthyosis, brittle hair (tiger tail—alternating bright and dark bands), intellectual impairment, decreased fertility, short stature, receding chin, protruding ears

Question 56

What is this?

Answer 56

Tiger-tail abnormality seen in trichothiodystrophy

Question 57

What types of cutaneous lesions are mutations in p53 found in?

Answer 57

Cutaneous SCCs and actinic keratoses

Question 58

What is the most common type of p53 mutation found in cutaneous SCC’s and actinic keratoses?

Answer 58

C–>T single base transition mutation at diphyrimidine sites

Question 59

What percentage of cutaneous SCC have CC–>TT transition mutations?

Answer 59

10%

Question 60

Are the same p53 mutations found in internal malignancies as those in the cutaneous lesions?

Answer 60

No, there tends to be more c –> and CC–> TT, these are signature mutations for UV mutagensis

Question 61

What are the two types of melanin?

Answer 61

Eumelanin (brown/black) and Pheomelanin (red/yellow)

Question 62

Which type of melanin is an effective radical scavenger?

Answer 62

Eumelanin, pheomelanin has a faster rate of degradation and can be degraded w/ net formation of superoxide.

Question 63

Which type of melanin in alkali-soluble?

Answer 63

Pheomelanin because it is sulfur containing

Question 64

How are the melanosomes different in eumelanin vs pheomelanin?

Answer 64

Concentri/elliptacal in eumelanin and microvesicular/round in pheomelanin

Question 65

What melanin is a photoprotector?

Answer 65

Eumelanin is a photoprotector, pheomelanin is a photosensitizer vs photo protector

Question 66

What intrinsic factors are protective against UVR?

Answer 66

Hair/fur, pigmentation, epidural thickening and hyperkeratosis, antioxidative enzymes, DNA repair, cell cycle arrest/apoptosis, removal of mutated cells via the immune system.

Question 67

Which form of UVR is responsible for photosynthesis of vitamin D3?

Answer 67

UVB (converts 7-dehydrocholesterol in the skin to pre-vitamin D3, which then thermally isomerizes to form vitamin D3)

Question 68

what is the increase in internal malignancy seen in xeroderma pigmentosa?

Answer 68

10-20 fold increase in the incidence of internal malignancy (brain, lung, oral cavity, GI, kidney, heme)

Question 69

What wavelength is emitted from mercury vapor lights?

Answer 69

245 nm radiation

Question 70

What is the wavelength of narrow-band UVB radiation?

Answer 70

311-312nm