Pigmentary Disorders

Question 1

What is the inheritance pattern for oculocutaneous albinism?

Answer 1

There are 4 different types, all AR

Question 2

What is the underlying pathology of oculocutaneous albinism?

Answer 2

Abnormal melanin and melanosome biosynthesis and transport

• Occurs in the skin, hair follicles and eyes

Question 3

What is the most common type of oculocutaneous albinism?

Answer 3

Type II (OCA2 gene affected)

• Type I is the second most common type

Question 4

What type of oculocutaneous albinism do melanocytic lesions not occur in?

Answer 4

These do not occur in classic OCA1a, otherwise these lesions form in the other types

Question 5

What are the eye sx’s associated with oculocutaneous albinism?

Answer 5

Photophobia, nystagmus, and reduced visual acuity of variable severity

Question 6

What is the histology of oculocutaneous albinism?

Answer 6

Decreased melanin content but normal melanocyte count

Question 7

Is there a difference in skin cancer risk among those with oculocutaneous albinism?

Answer 7

Increased risk of BCC, SCC (most common type of skin cancer in these patients), melanoma (worse w/ OCA1)

Question 8

In what conditions can an OCA2-like hypopigmentation be seen in and why?

Answer 8

Can be seen in Prader-Wili syndrome and Angelman syndrome which are caused by deletions on chromosome 15q (has the OCA2 gene on it) and occurs if the remaining version of 15q has a mutation on it in the OCA2 gene

Question 9

What gene is mutated and what is the “phenotype” for OCA1a?

Answer 9

TYR (absent), tyrosinase negative

Question 10

What are the clinical findings in oculocutaneous albinism type 1a (OCA1a)?

Answer 10

• Generalized and near-complete lack of pigmentation at birth – white hair and skin (hair becomes light yellow over time)
• Nevi are amelanotic/pink
• Gray-blue irides
• Markedly reduced visual acuity, severe photosensitivity, markedly
• increased risk of SCC

Question 11

What are the clinical findings in oculocutaneous albinism type 1b (OCA1b)?

Answer 11

• No pigmentation of skin/hair at birth but over time, can develop some pigmentation.
• Can have amelanotic or pigmented nevi
• Milder ocular complications compared to OCA1a

Question 12

What is temperature sensitive OCA1b?

Answer 12

Temperature sensitive variant (OCA1b TS): tyrosinase functions at low temperatures, leading to hair pigmentation at cooler anatomic sites (mainly extremities) and white hairs in warmer sites (trunk, intertriginous zones)

Question 13

What is the gene affected and the “phenotype” of OCA1b?

Answer 13

TYR (decreased to 5-10% of normal functioning)

• Phenotype: “Yellow mutant albinism” minimal pigment

Question 14

What is the gene affected and the “phenotype” of OCA 2?

Answer 14

OCA2 gene (Was called P gene previously; pink-eyed dilution)

Tyrosinase + phenotype

Question 15

What are the clinical findings in OCA type 2?

Answer 15

Most common OCA, usually seen in Africans (Sub-Saharan African populations)

• Pigmentary dilution variable, but develop pigmented nevi/lentigines over time
• Light brown hair and gray/tan irides

Question 16

What is the gene affected and the phenotype of the OCA type 3?

Answer 16

TYRP1

Phenotype: “Rufous”

Question 17

Clinical findings in OCA type 3?

Answer 17

Very rare

• most commonly occurs in Africa and New Guinea Reddish-bronze skin and red hair color
• Blue-brown irides

Question 18

What is the gene affected and the phenotype of OCA type 4?

Answer 18

Gene: Solute carrier family 45 member 2 (SLC45A2)

Phenotype: Resembles OCA2

Question 19

What are the clinical manifestations of OCA type 4?

Answer 19

• Extremely rare outside of Japan (where it accounts for 25% of OCA)
• Variable clinical presentation ranging from white skin/hair to mild pigmentation of skin/yellow-brown hair
• Distinguished from OCA2 via molecular studies

Question 20

What are the 3 silvery hair syndromes?

Answer 20

Chediak-Higashi syndrome, Griscelli syndrome, and Elejalde syndrome

Question 21

What is the mode of inheritance for the Silvery hair syndromes?

Answer 21

AR for all

Question 22

What is the overall phenotype of the Silvery hair syndromes?

Answer 22

All have pigmentary dilution of the skin and hair w/ variable immunologic and neurologic features

Question 23

What are the histologic findings in the Silvery hair syndromes?

Answer 23

• Light microscopy: Giant granules or melanosomes can be seen in hair shaft and keratinocytes
• Skin bx: hyperpigmented oval melanocytes and poorly pigmented adjacent karatinocytes

Question 24

How many types of Griscelli syndrome are there?

Answer 24

3 (Types I-III)

Question 25

What are the differences between the 3 types of Griscelli syndrome?

Answer 25

• All have pigmentary dilution of the skin and hair
• Type I: Severe neurologic impairment developing during early childhood
• Type II: Combined T and B-cell immunodeficiency which leads to numerous infections and hemophagocytic syndrome
• Type III: Least severe, mostly just has the cutaneous findings

Question 26

What is the clinical findings of Chediak-Higashi syndrome?

Answer 26

Severe multisystem disease

Starts in infancy w/ silvery hair, oculocutaneous albinism, immunodeficiency, bleeding diathesis, and neurologic degeneration

• Death usually occurs by age 10 from lymphoproliferative accelerated phase/hemophagocytic syndrome (Presents w/ pancytopenia and lymphocytic infiltration of liver/spleen/lympho nodes

Question 27

What is the most common cause of death in Chediak-Higashi syndrome?

Answer 27

Death usually occurs by age 10 from lymphoproliferative accelerated phase/hemophagocytic syndrome (Presents w/ pancytopenia and lymphocytic infiltration of liver/spleen/lymph nodes

Question 28

What is the characteristic finding on peripheral blood smear in patients w/ Chediak-Higashi syndrome?

Answer 28

Peripheral blood smear: Characteristic giant granules within cytoplasm of neutrophils, eosinophils, platelets, melanocytes and granulocytes

Bone marrow bx/smear: Giant inclusion bodies within leukocyte precursors

Question 29

What is Elejalde syndrome?

Answer 29

Pigmentary features of Griscelli syndrome + severe neurologic dysfunction without immunodeficiency (may represent a variant of GS1)

Question 30

What is the gene defect in Chediak-Higashi syndrome?

Answer 30

LYST/CHS1

Question 31

What is the cellular defect from LYST/CHS1 mutation in Chediak-Higashi syndrome?

Answer 31

Impaired biosynthesis and storage of melanosomes, platelet dense granules, and lysosomes within leukocytes

Question 32

What is the appearance of the trichoscopy clumps of melanin in Chediak-Higashi syndrome?

Answer 32

Small, regularly spaced

Question 33

What is the appearance of the melanocytes in Chediak-Higashi syndrome?

Answer 33

Giant melanosomes

Question 34

The appearance of neutrophils in Chediak-Higashi syndrome?

Answer 34

Giant granules

Question 35

Differences in ocular findings in Chediak-Higashi syndrome compared with Griscelli syndrome?

Answer 35

There are no ocular findings in Griscelli as compared with Chediak-Higashi syndrome

Question 36

Bleeding abnormalities in Chediak-Higashi syndrome and Griscelli syndrome?

Answer 36

There are no bleeding issues in Griscelli syndrome, there is in Chediak-Higashi syndrome due to issues w/ platelets = increase in bleeding time and bleeding diathesis

Question 37

Are recurrent infections seen in Chediak-Higashi syndrome and Griscelli syndrome?

Answer 37

Yes in Chediak-Higashi syndrome and only in Griscelli syndrome type 2

Question 38

What types of infections occur in Chediak-Higashi syndrome?

Answer 38

Skin, lungs, and upper respiratory

• Can have EBV-induced lymphoproliferative syndrome

Question 39

Which silver hair syndrome can cause severe gingivitis, periodiontis, and oral mucosal ulceration?

Answer 39

Chediak-Higashi syndrome

Question 40

What is the most severe complication of Griscelli syndrome type I

Answer 40

Neurologic sequelae

Question 41

Which form of Griscelli syndrome is usually mild and skin-limited?

Answer 41

Griscelli type 3

Question 42

In what silver hair syndromes does an accelerated phase occur?

Answer 42

Chediak-Higashi syndrome = 85%

Also occurs in Griscelli syndrome type II

Question 43

Which silver hair syndromes have neurologic disorder?

Answer 43

Progressive deterioration seen in Chediak-Higashi syndrome

• Also in type I Griscelli syndrome

Question 44

What is the gene mutation in Griscelli syndrome type I and what is the resulting pathophysiology?

Answer 44

MY05A - Aberrant translocation of melanosomes along microtubules within melanocytes

Question 45

What is the gene mutation in Griscelli syndrome type II and what is the resulting pathophysiology?

Answer 45

RAB27A - Results in aberrant translocation of melanosomes along microtubules within melanocytes

Question 46

What is the gene mutation in Griscelli syndrome type III and what is the resulting pathophysiology?

Answer 46

MLPH - Aberrant translocation of melanosomes along microtubules within melanocytes

Question 47

What are the major types of tissues affected by mutations in the MYO5A gene seen in Griscelli syndrome type I?

Answer 47

Melanocytes, CNS

Question 48

What are the major types of tissues affected by mutations in the RAB27A gene seen in Griscelli syndrome type II?

Answer 48

Melanocytes, Cytotoxic T-cells

Question 49

What are the major types of tissues affected by mutations in the MLPH gene seen in Griscelli syndrome type III?

Answer 49

Melanocytes only

Question 50

What are the genes are involved and what is the inheritance pattern involved in Hermansky-Pudlak syndrome?

Answer 50

9 genes involved: HPS1, AP3B1/(HPS2), HPS3, HPS4, HPS5, HPS6, DTNBP1/(HPS7), BLOC1S3/(HPS8), and BLOC1S6 (HPS9)

-AR

Question 51

Clinical appearance of Hermansky-Pudlak syndrome?

Answer 51

Oculocutaneous albinism, bleeding diathesis (platelet storage pool defect) and lysosomal accumulation of ceroid lipofuscin

Question 52

Pathogenesis of Hermansky-Pudlak syndrome?

Answer 52

Disorder of biogenesis of melanosomes and other lysosomal-related organelles, such as platelet dense granules

Question 53

In what population is Hermansky-Pudlak more common in?

Answer 53

Puerto Ricans (HPS1), dutch, and Indians of Madras

Question 54

Features of albinism in Hermansky-Pudlak?

Answer 54

Variable level of pigmentary dilution in the skin, hair (slight sheen), and the irises are pale

Question 55

What are the blood-related issues seen in Hermansky-Pudlak?

Answer 55

Has platelet dysfunction, so there are extensive ecchymoses, nosebleeds, and menorrhagia

Question 56

What medications need to be avoided in Hermansky-Pudlak?

Answer 56

Aspirin and anti-platelet medications

Question 57

What eye findings are seen in Hermansky-Pudlak?

Answer 57

Photophobia, strabismus, and nystagmus

Question 58

What organs can be affected in Hermansky-Pudlak?

Answer 58

Granulomatous colitis, progressive pulmonary fibrosis, cardiomyopathy, and renal failure from lysosomal ceroid accumulation

Question 59

What are the histologic findings in Hermansky-Pudlak?

Answer 59

Non sun-exposed skin = decreased number of melanosomes and short dendritic processes

Question 60

What is the prognosis of patients in Hermansky-Pudlak?

Answer 60

Life expactancy = 30-50 yrs

Most common cause of death is pulmonary fibrosis

Question 61

Most common cause of death in Hermansky-Pudlak?

Answer 61

Pulmonary Fibrosis

Question 62

Are rates of skin cancer affected in Hermansky-Pudlak?

Answer 62

Increased rates of skin cancer

Question 63

What is the affected gene and mode of inheritance in piebaldism?

Answer 63

c-KIT proto-oncogene or deletions in snail family zinc finger 2 (SNAI2, SLUG)

AD

Question 64

What is the underlying pathology of piebaldism?

Answer 64

Defective migration of melanoblasts from neural crest to the ventral midline and fialed differentiation of melanoblasts to melanocytes

Question 65

Clinical appearance in piebaldism?

Answer 65

White forelock (poliosis = in 90%) + congenital patterned midline adn ventral patches of leukoderma

Question 66

Prognosis of piebaldism?

Answer 66

Depigmentation is stable and permanent, but there are otherwise no systemic symptoms/associations = benign

Question 67

What is a key clinical distinguisher of piebaldism vs nevus depigmentosus/vitiligo?

Answer 67

Islands of normal and hyperpigmentation within depigmented patches

Question 68

How many types of Waardenburg syndrome are there?

Answer 68

4 clinical types (WS 1-4)

Question 69

What is the inheritance pattern of the Waardenburg syndromes?

Answer 69

AD

Question 70

What is the underlying pathology in Waardenburg syndromes?

Answer 70

Absence of melanocytes in the skin/hair/eyes/striae vascularis of the cochlea

Question 71

What are the general clinical features in Waardenburg syndromes?

Answer 71

Depigmented patch on the forehead w/ white forelock (poliosis), congenital deafness, heterochromia irides, synophrys, broad nasal root, and dystopia canthorum

Question 72

What gene is involved in Waardenburg syndrome type I?

Answer 72

PAX3

Question 73

What are the clinical features of Waardenburg syndrome type I?

Answer 73

White forelock (20%–60%), synophrys, heterochromia irides, dystopia canthorum (eyes appear widely spaced due to lateral displacement of inner canthi; interpupillary distance is normal), and deafness (20%–40%)

Question 74

What are the genes and inheritance pattern in Waardenburg syndrome type II?

Answer 74

MITF = AD

SNAI2 = AR

Question 75

Clinical features in Waardenburg syndrome type II?

Answer 75

LIke WS1 but no dystopia canthorum and deafness is MORE common

Question 76

What gene is involved and what is the inheritance pattern in Waardenburg syndrome type III?

Answer 76

PAX3

AD

Question 77

Clinical appearance in Waardenburg syndrome type III?

Answer 77

Similar to type I but there are also upper limb abnormalities (hypoplasia, contractures, and syndactyly)

Question 78

What are the genes involved and the inheritance pattern in Waardenburg syndrome type IV?

Answer 78

EDNRB = AD, AR

EDN3 = AD, AR

SOX10 = AD

Question 79

Clinical appearance in Waardenburg syndrome type IV?

Answer 79

Similar to WS1 + Hirschsprung’s disease

Question 80

What is the gene and the inheritance pattern in McCune-Albright syndrome?

Answer 80

GNAS1

• Non-inherited postzygotic somatic activating mutations in the gene

Question 81

What is the gender predilection in McCune-Albright syndrome?

Answer 81

Females >> Males

Question 82

What is the triad of clinical findings in McCune-Albright syndrome?

Answer 82

Café au lait macules (CALM), polyostotic fibrous dysplasia, and endocrine dysfunction

Question 83

What is the typical appearence of the CALM’s in McCune-Albright syndrome?

Answer 83

“Coast of Maine” appearance i.e. jagged borders and segmental

Question 84

Where do skeletal abnormalities in McCune-Albright syndrome usually occur?

Answer 84

The polyostotic fibrous dysplasia usually happens under the CALM’s

• Sx’s include bone pain, gait abnormalities, visible skeletal deformity, and recurrent pathologic fractures

Question 85

What endocrinologic abnormalities can occur in McCune-Albright syndrome?

Answer 85

Precocious puberty, hyperthyroidism, acromegaly, infantile Cushing syndrome and hypophosphatemic rickets

Question 86

What is the affected gene and the mode of inheritance for Reticulate acropigmentation of Kitamura?

Answer 86

ADAM10

AD

Question 87

What is the clinical appearance of Reticulate acropigmentation of Kitamura?

Answer 87

Slightly depressed, lentigo-like hyperpigmented macules coalescing into a reticulated pattern on the dorsal hands and feet

• Hyperpigmented macules can darken and the distribution may expand over time
• Palmoplantar pits and abnormal dermatoglyphics can also be seen

Question 88

What is the histology of Reticulate acropigmentation of Kitamura?

Answer 88

Epidermal atrophy w/ elongated rete and increased melanin + increased number of melanocytes

Question 89

What is the gene and mode of inheritance for Dowling-Degos disease?

Answer 89

Rare, AD

Mutations in keratin 5 gene

Question 90

What other condition is associated w/ mutations in the keratin 5 gene?

Answer 90

Epidermolysis bullosa simplex w/ mottled pigmentation

Question 91

Clinical appearance of for Dowling-Degos disease?

Answer 91

Onset usually during adulthood

• Presents w/ reticulated hyperpigmentation in the axilla and groin. Can also spread to gluteal and inframammary folds, neck, torso, inner thighs
• Comedone-like lesions on the back or neck, pitted perioral scars, epidermoid cysts, and hidradenitis suppurativa have also been reported

Question 92

Histology of Dowling-Degos disease?

Answer 92

Increased pigmentation of the basal layer and “angler-like” pattern w/ finger-like rete ridges

• Dermal melanophages and mild perivascular lymphohistiocytic infiltrate

Question 93

What is Galli-Galli disease?

Answer 93

It is a variant of Dowling-Degos disease that looks like DDD but has suprabasal acantholysis on histology

Question 94

What is dyschromatosis?

Answer 94

Both hypo and hyperpigmentation

Question 95

What is the gene and the mode of inheritance of Dyschromatosis symmetrica hereditaria (acropigmentation of Dohi)?

Answer 95

Heterozygous mutations in ADAR (SRAD) gene (RNA-specific adenosine deaminase)

• AD

Question 96

Presentation of Dyschromatosis symmetrica hereditaria (acropigmentation of Dohi)?

Answer 96

Presents by 6 years of age

• Patients have dyschromia and hyperpigmented/hypopigmented macules restricted to sun-exposed skin on dorsal aspects of extremities and face

Question 97

What is the gene and mode of inheritance for Dyschromatosis universalis hereditaria?

Answer 97

AD/AR

• Mutations in ABCB6 (ATP-binding cassette subfamily B, member 6)

Question 98

Clinical presentation of Dyschromatosis universalis hereditaria?

Answer 98

Generalized or torso-predominant, well-demarcated brown macules interspersed with variously sized hypopigmented macules with a mottled appearance

• Nail dystrophy and pterygium
• Reports of associations with short stature, idiopathic torsion dystonia, X-linked ocular albinism, photosensitivity, and neurosensory hearing loss

Question 99

What is the most common form of inheritance for Dyskeratosis congenita (Zinsser-Engman-Cole syndrome)?

Answer 99

XLR (can also be AD or AR)

Question 100

What are the gene mutations involved in Dyskeratosis congenita (Zinsser-Engman-Cole syndrome)?

Answer 100

Mutations in TERT, TERC ( AD); DKC1 (XLR), or TINF2

Question 101

What is the underlying pathology in Dyskeratosis congenita (Zinsser-Engman-Cole syndrome)?

Answer 101

The genes involved are involved in telomere maintenance –> patients have reduced telomerase activity and abnormally shortened telomeres –> chromosomal instability/cellular replication dysfunction

Question 102

Skin features in Dyskeratosis congenita (Zinsser-Engman-Cole syndrome)?

Answer 102

Triad: abnormal skin pigmentation, oral leukoplakia, and onychodystrophy

• Can also see palmoplantar hyperkeratosis, hyperhidrosis, and diffuse non-scarring alopecia

Question 103

What is the distribution of the skin lesions often in Dyskeratosis congenita (Zinsser-Engman-Cole syndrome)?

Answer 103

Reticulated poikilodermatous patches of the face/neck/upper torso

Question 104

Is there an increased risk of malignancy in Dyskeratosis congenita (Zinsser-Engman-Cole syndrome)?

Answer 104

Yes –> Hematopoietic malignancies and squamous cell of the oral mucosa/anus/genitalia/esophagus/skin

Question 105

What is the primary cause of mortality in pts w/ Dyskeratosis congenita (Zinsser-Engman-Cole syndrome)?

Answer 105

Bone marrow failure, pulmonary fibrosis, and malignancy (3rd adn 4th decade)

Question 106

What is the median age of death in Dyskeratosis congenita (Zinsser-Engman-Cole syndrome)?

Answer 106

16 y/o

Question 107

What is the gene and mode of inheritance for Naegeli-Franceschetti-Jadassohn Sydnrome (dermatophathia pigmentosa reticularis)?

Answer 107

AD

Keratin 14 (NFJS and DPR are allelic ectodermal dysplasia disorders that share many features)

Question 108

Clinical appearance of Naegeli-Franceschetti-Jadassohn Syndrome?

Answer 108

Brown-Gray reticulated hyperpigmentation typically on the abdomen, develops in early childhood (2 y/o), and improves after puberty

• Can also see palmoplantar keratoderma, adermatoglyphia, onychodystrophy, hypohidrosis, and dental anomalies including early loss of teeth

Question 109

What is the clinical presentation of Dermatophathia pigmentosa reticularis?

Answer 109

Diffuse non-scarring alopecia, onychodystrophy, adermatoglyphia, and diffuse, persistent reticulated hyperpigmentation of the torseo and proximal extremities