Dermatology: Practical and Conceptual


Observation  |  Dermatol Pract Concept 2018;8(1):14 59

DERMATOLOGY PRACTICAL & CONCEPTUAL
www.derm101.com

Introduction

LEOPARD syndrome (LS) is also known as Gorlin syndrome 

II, cardiocutaneous syndrome, lentiginosis profusa syndrome, 

Moynahan syndrome, and more recently Noonan syndrome 

with multiple lentigines (NSML). It is a rare autosomal domi-

nant fully penetrant multisystemic disorder with character-

istic features that include multiple lentigines and café au lait 

spots (L), electrocardiographic conduction defects (E), ocular 

hypertelorism (O), pulmonary stenosis (P), abnormalities of 

the genitalia (A), retardation of growth (R), and sensorineural 

deafness (D). Patients usually do not present with all of these 

classical clinical features.

Patient with confirmed LEOPARD syndrome 
developing multiple melanoma

Caroline Colmant1, Deborah Franck1, Liliane Marot1, Gert Matthijs2,  
Yves Sznajer1,3, Sandrine Blomme4, Isabelle Tromme1,4

1 Department of Dermatology, Cliniques Universitaires Saint-Luc, Université Catholique de Louvain, Brussels, Belgium

2 Centrum Menselijke Erfelekheid, Universitaire Ziekenhuizen Leuven, Leuven, Belgium

3 Université Catholique de Louvain, Brussels, Belgium

4 King Albert II Institute, Cliniques Universitaires Saint-Luc, Université Catholique de Louvain, Louvain-la-Neuve, Belgium

Key words: LEOPARD syndrome, melanomas, dermoscopy

Citation: Colmant C, Franck D, Marot L, Matthijs G, Sznajer Y, Blomme S, Tromme I. Patient with confirmed leopard syndrome 
developing multiple myeloma. Dermatol Pract Concept. 2018;8(1)59-62: .DOI: https://doi.org/10.5826/dpc.0801a14

Received: August 29, 2018; Accepted: November 13, 2018; Published: January 31, 2018

Copyright: ©2018 Colmant et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, 
which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Funding: None.

Competing interests: The authors have no conflicts of interest to disclose.

All authors have contributed significantly to this publication.

Corresponding author: Dr Isabelle Tromme, Service de Dermatologie, Cliniques Universitaires Saint-Luc, Avenue Hippocrate, 10, 1200 
Bruxelles, Belgium. Tel. 0032 2 764 1472. Email: dermato@tromme.eu

LEOPARD syndrome, also known as Gorlin syndrome II, cardiocutaneous syndrome, lentiginosis pro-
fusa syndrome, Moynahan syndrome, was more recently coined as Noonan syndrome with multiple 
lentigines (NSML), inside the RASopathies. Historically, the acronym LEOPARD refers to the presence 
of distinctive clinical features such as: lentigines (L), electrocardiographic/conduction abnormalities 
(E), ocular hypertelorism (O), pulmonary stenosis (P), genital abnormalities (A), retardation of growth 
(R), and sensorineural deafness (D). This condition is identified in 85% of patients with phenotype 
hallmarks caused by presence a germline point mutation in PTPN11 gene. Association of melanoma 
to NSML seems to be rare: to our knowledge, two patients so far were reported in the literature. We 
herein present a patient diagnosed with LEOPARD syndrome, in whom molecular investigation con-
firmed the presence of the c.1403C>T mutation in exon 12 of the PTPN11 gene, who developed four 
superficial spreading melanomas and three atypical lentiginous hyperplasias. Three of the melanomas 
were achromic or hypochromic, three were in situ, and one had a Breslow index under 0.5 mm. Der-
moscopic examination showed some characteristic white structures in most of the lesions, which were 
a signature pattern and a key for the diagnosis.

ABSTRACT

mailto:dermato@tromme.eu


60 Observation  |  Dermatol Pract Concept 2018;8(1):14

allowed a complete excision, with melanoma in situ being still 

close to the lateral resection margins (< 2 mm).

Six months later, a new hyperpigmented and hypopig-

mented lesion appeared about 20 cm away from the last scar 

in the back (Figure 2B). The clinical and dermoscopic features 

suggested another melanoma. That lesion also displayed some 

white lines with thickening at their crossings, alongside some 

more classic negative pigment network. Due to the large 

dimensions of the lesion, several biopsies were performed. 

Histopathology and immunostaining (Pan-melanoma cock-

tail and HMB45) confirmed the diagnosis of lentigo maligna 

in situ with regression. Although recommended treatment for 

in situ melanoma is excision with a 0.5 cm margin, the previ-

ous diffuse melanoma history led us to use the “slow-Mohs,” 

also called the “spaghetti technique” [3], suggested by some 

teams for the treatment of lentigo maligna melanoma. This 

allowed us to achieve complete surgical excision of the lesion. 

Six months later, we observed four new lesions suggestive of 

melanoma at dermoscopic examination (Figure 3). On two 

of them we found white lines again. One of the lesions was a 

lentigo maligna; the others were atypical lentiginous hyper-

plasias. Three of them were incompletely removed.

So many melanomas and atypical lentiginous hyperpla-

sias with infra-clinic extension led us to think about other 

ways to prevent the relapses of the lesions. We suggested 

the application of imiquimod 5 days a week for 8 weeks on 

the concerned lesions [4]. This was successful in preventing 

relapses as after a follow-up period of three years, no more 

doubtful lesions could be found.

A missense mutation in the protein tyrosine phospha-

tase non-receptor type 11 (PTPN11) gene is identified in 

about 85% of the LS patients. PTPN11 encodes for the SRC 

Homology 2 (SHP-2), a cytoplasmic protein tyrosine phos-

phatase which regulates intracellular signaling of RAS path-

way downstream of receptors for growth factors, cytokines 

and hormones responsible for the development of NSLM 

[1,2]. Missense change in NSLM is responsible for confor-

mational switch that leaves the protein in an active state but 

with unexpected decreased phosphatase activity.

We herein report a LS patient with multiple melanomas.

Case

A 62-year-old man was referred to our clinic for a lesion of 

the upper foot, which had already been biopsied. Pathologic 

examination showed mild atypical melanocytes.

On physical examination, he had a high number of flat, 

brown to dark brown, small macules symmetrically dis-

tributed over a large portion of the skin, including the face. 

These had irregular borders and ranged in size from 1 mm 

in diameter to café-au-lait spots of several centimeters in 

diameter. Some lentigines had been present at birth, but most 

of them occurred after the age of 3. The patient had a history 

of cryptorchidism surgery. Electrocardiographic conduc-

tion defect at the age of 49 led to the diagnosis of sick sinus 

syndrome. There was no cognitive disorder or intellectual 

disability so far.

The family history revealed similar findings: the patient’s 

mother had lentigines and died of a melanoma and one of 

the patient’s sisters had similar skin with associated cardiac 

abnormalities and partial deafness.

The upper foot lesion (Figure 1) was hypochromic and 

rough. Dermoscopic examination showed numerous white 

structures and dotted vessels. After removal of the whole 

lesion, pathologic examination concluded in a superficial 

spreading melanoma arising on a nevus, Clark’s level II, Bre-

slow index 0.42 mm, and regression in the papillary dermis.

After obtaining informed consent, direct sequencing of 

entire coding of PTPN11 gene was completed. The PTPN11 

c.1403 C>T (p.T468M) mutation was identified, confirming 

LS. The same mutation was found in the patient’s sister. No 

access to parents’ DNA was available.

One year later, a new lesion appeared on the back. It was 

hypopigmented, well limited and slightly erythematous. Der-

moscopy showed a lot of white lines with unusual thickening 

at their crossings (Figure 2A).

Pathologic examination of the clinically visible lesion 

revealed a lentigo maligna arising on a nevus with regression 

phenomenon. A large excision was performed, which was 

incomplete; however, a second excision with a 2 cm margin 

Figure 1. First melanoma of the foot: clinical aspect and dermoscop-

ical aspect. Aspect of eczema. On dermoscopy, shiny white strands, 

dotted vessels and a structureless pink and brown-gray background 

(polarized dermoscopy, DermLite Foto, [3Gen, San Juan Capistrano, 

CA, USA]). Pathology: superficial spreading melanoma developed 

on nevus, Clark’s level II, a Breslow index of 0.42 mm, and regres-

sion phenomenon in the papillary dermis. [Copyright: ©2018 Col-

mant et al.]



Observation  |  Dermatol Pract Concept 2018;8(1):14 61

Figure 2. First and second melanoma of the back: clinical aspect and dermoscopical aspect. (A) First melanoma of the 

back: on dermoscopy white lines with thickening at their crossings (white arrows) (polarized dermoscopy, DermLite Foto). 

Pathology: lentigo maligna in situ arising on a nevus, with regression phenomenon. (B) Second melanoma of the back: on 

dermoscopy, classic negative pigment network (black arrow); negative pigment network with thickening at the crossings 

of some white lines (white arrows) (polarized dermoscopy, DermLite Foto). Pathology: lentigo maligna with regression. . 

[Copyright: ©2018 Colmant et al.]

Figure 3. Dermoscopy of the four last lesions (A) Not well defined white lines, (B) and (C) Signature pattern: in the 

negative pigment network, the white lines show thickening at their crossings (white arrows). (D) Shiny white strands and 

dotted vessels (polarized dermoscopy DermLite Foto). Pathology: (A,) (B), (D) atypical lentiginous hyperplasia; (C) lentigo 

maligna. [Copyright: ©2018 Colmant et al.]



62 Observation  |  Dermatol Pract Concept 2018;8(1):14

in this patient. We could see that pattern both in polarized 

and non-polarized dermoscopy.

This case report enhances the importance of careful skin 

examination in LS patients.

References

1.  Sarkozy A, Digilio MC, Dallapiccola B. Leopard syndrome, Or-

phanet J Rare Dis. 2008,3:13.

2.  Lodish MB, Stratakis CA. The differential diagnosis of familial 

lentiginosis syndromes, Fam Cancer. 2011;10(3):481-490.

3.  Gaudy-Marqueste C, Perchenet AS, Taséi AM, et al. The “spaghetti 

technique”: an alternative to Mohs surgery or staged surgery for 

problematic lentiginous melanoma (lentigo maligna and acral len-

tiginous melanoma). J Am Acad Dermatol. 2011;64(1):113-118.

4.  Swetter SM, Chen FW, Kim DD, Egbert BM. Imiquimod 5% cream 

as primary or adjuvant therapy for melanoma in situ, lentigo ma-

ligna type. J Am Acad Dermatol. 2015;72(6):1047-1053.

5.  Seishima M, Mizutani Y, Shibuya Y, et al. Malignant melanoma in 

a woman with LEOPARD syndrome: identification of a germline 

PTPN11 mutation and a somatic BRAF mutation. Br J Dermatol. 

2007;157:1297-1299.

6.  Yu-Pin Cheng, Hsien-Yi Chiu, Tzu-Lin Hsiao, et al. Scalp mela-

noma in a woman with LEOPARD syndrome possible implication 

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7.  Lesinski GB. The potential for targeting the STAT3 pathway as a 

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Suppressor. Cancer Cell. 2011;19(5):629-639.

As a result of the multiple melanomas found in this 

patient and his positive family history, we looked for a muta-

tion of the CDKN2a gene, which was not found.

Discussion

We report the first case of a LEOPARD patient with mul-

tiple melanomas. Two previous LEOPARD patients with 

melanoma have been described: a 62-year-old woman, who 

developed a melanoma with a somatic BRAF mutation on top 

of her germline PTPN11 gene mutation [5] and a 24-year-old 

patient who suffered from a scalp melanoma [6].

LS patients could present a higher risk for melanomas. 

Indeed, it has been suggested that, although SHP2, the protein 

encoded by PTPN11, acts usually as an oncogene, it could 

also, in specific cell types, act as a tumor suppressor [7]. This 

has been shown in hepatocellular carcinogenesis: deletion of 

SHP2 promotes malignant transformation through the Stat3 

pathway [8]. Stat3 pathway is also important in melanoma 

genesis, and deletion of PTPN11/SHP2 could therefore pro-

mote survival of malignant cells, metastasis, angiogenesis and 

immune evasion [7].

On most of the melanomas we found a dermoscopic sig-

nature pattern: in the negative pigment network, the white 

lines showed thickening at their crossings. This pattern was 

very useful for diagnosing the clinically difficult melanomas 

http://www.ncbi.nlm.nih.gov/pubmed/?term=Lesinski%25252525252520GB%2525252525255BAuthor%2525252525255D&cauthor=true&cauthor_uid=23837753
http://www.ncbi.nlm.nih.gov/pubmed/23837753
http://www.ncbi.nlm.nih.gov/pubmed/?term=Bard-Chapeau%25252525252520EA%2525252525255BAuthor%2525252525255D&cauthor=true&cauthor_uid=21575863
http://www.ncbi.nlm.nih.gov/pubmed/?term=Li%25252525252520S%2525252525255BAuthor%2525252525255D&cauthor=true&cauthor_uid=21575863
http://www.ncbi.nlm.nih.gov/pubmed/?term=Ding%25252525252520J%2525252525255BAuthor%2525252525255D&cauthor=true&cauthor_uid=21575863
http://www.ncbi.nlm.nih.gov/pubmed/21575863