Sign of leser — Trélat

Sign of Leser - T&at DARREL L. ELLIS, MD RUTH A. YATES, MD

T

he sign of Leser - Trelat is usually defined as the eruptive appearance of numerous seborrheic keratoses or the sudden increase in the number and size of previous seborrheic keratoses in association with an internal malignancy.’ Difficulties with this definition include how “eruptive” is defined, what a “significant” increase in number and size of previous seborrheic keratoses is, and that the sign has been reported in non-“internal” cancers such as melanomas and cutaneous T-cell lymphomas. Nevertheless, the sign of Leser - Trelat as defined is useful for suggesting when an underlying malignancy should be sought.

History The paraneoplastic syndrome of eruptive seborrheic keratoses associated with an internal malignancy is historically connected with the German surgeon Edmund Leser and the French surgeon Ulysse Trelat, who independently described the appearance of cutaneous senile angiomas as a sign of mammary carcinoma and visceral malignancies in the 1890s. l-3 Hollander may be the first author to associate seborrheic keratoses with internal malignancy.” Although the “sign of Leser - Trelat” may thus be a misnomer, the cutaneous paraneoplastic syndrome is deeply entrenched in the literature, and should be used to maintain continuity.

Incidence The incidence of the sign of Leser-Trelat is unknown. Table 1 is a modification and update of a table from the

excellent review article by Holdiness.5 Most reports have been case reports, with no large series studied. Two papers attempted to define the incidence of the sign of Leser-Trelat by studying patients with internal malignancies in comparison with age-matched control patients.69J0 Unfortunately, both of these studies were small (3669 and 82’O patients and controls, respectively). Neither of these studies showed an increase in the eruptive appearance of seborrheic keratoses in patients with malignancies. As we found 68 cases of the sign of LeserTrelat described in the literature, one would predict its incidence is relatively rare. These small negative studies do not tell whether the sign of Leser-Trelat is rare (as predicted from the literature) or nonexistent. Recently, 1752 consecutive cases of seborrheic keratoses were studied for the sign of Leser-Trelat.‘l Six patients with eruptive seborrheic keratoses and an associated malignancy consistent with the sign of Leser-T&at were found. There were also five control patients who had eruptive seborrheic keratoses, but without cancer. Lindelof et al concluded that eruptive seborrheic keratoses were not related to internal cancer risk’*; however, this retrospective review of patient records reported one of the control patients was pregnant, and whether other control patients received extensive workups to rule out small tumors (such as gastrointestinal villous adenomas) or other sources of growth factors underlying their eruptive seborrheic keratoses was not reported. Whether eruptive seborrheic keratoses are related to internal cancer risk if other sources of growth factors are eliminated is therefore still unknown.

Clinical Manifestations From the Division of Dermatology, Department ofMedicine, Vanderbilt University School of Medicine, Nashville, Tennessee. Address correspondenceto: Darrel L Ellis, MD, c/o Carolyn W. Caldwell, 1212 21st Avenue South, 608 Medical Arts Building, Nashville, TN 37212-1226.

0 2993 by Elsevier Science Publishing Co., Inc.

l

0738-081x/93/$6.00

The sign of Leser - Trelat as defined in this article requires the sudden appearance of seborrheic keratoses or the sudden increase in the number and size of seborrheic keratoses and an associated malignancy. Some authors have

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Clinics in Dermatology 1993;11:141-148

YATES

Table 2. Sign of Leser-Trilat:

Summary of Case Reports

Age/Sex

Pruritus

AN*

SK Onset? (Months)

Carcinoma occulturn AC head of pancreas AC breast AC stomach

62F 64M 32F 45M

+ -

+ + +

11 7 6 after 1

56F 46M 58M 54F 58M 69M

+ + -

+ + + + + -

8 5 after 6 1 after 24 after NR

16

AC ovaries AC stomach AC stomach AC uterus AC stomach Undifferentiated Ca AC cecum

84F

+

-

1

12 13 14 15 16

17 18 19 20 20

CTCL (Sezary) AC stomach AC prostate AC transverse colon AC rectum

55M 63M 64M 72M 67F

+ -

+ -

4
17 18 19 20 21 22 23

20 21 22 23 24 25 26

AC sigmoid colon Gastric neoplasm AC stomach Hepatoma AC stomach SCC lung AMML

71M 74M 63M 72M 71F 69M 72M

+ + + + -

+ + -

NR 3 10 after NR NR Concurrent Concurrent

24

27

Lymphoma

73M

+

-

After/NR

25 26 27

27 28 29

61M 64F 62F

+ -

+ -

30

CTCL AC stomach AC kidney and spinal cord meningioma Myelogenous leukemia

66F

-

-

31 31 32 33

CTCL SCC lung AC duodenum AC stomach and rectosigmoid

87M 49M 63M 69M

+ + -

-

34 35

AC bile duct Lymphocytic lymphoma, poorly differentiated AC stomach AC gallbladder Lymphocytic lymphoma, poorly differentiated, and AC rectosigmoid Leiomyoblastoma ileum AC stomach Small cell Ca lung Intihrating ductal Ca breast (patients 41 and 42) AC uterus myometrium Ductal Ca breast AC breasts

70F 63M

+ -

-

62M 56F 59F

+ + -

+ + -

2 Few months before 2 3 2

62M 43M 72M 41F 67F 57F 46F 61F

+ + +

+ -

NR 4 Concurrent 6 3 Weeks NR Concurrent

Patient

5 6 7 8 9 10

29 30 31 32

Malignancy

Reference

35 36 37

36 37 38

38 39 40 41 42 43 44 45

39 40 41 42 42 43 44 45

bronchogenic

2 after 2.5 5 6 Concurrent 17 after 12 2

Correlation of SK and Tumor Regression NR NR Regressed Increased 6 months postop New SKs postop NR NR NR NR NR Decreased postop NR NR NR NR Initially decreased /XRT Persisted postop NR NR NR Decreased postop Decreased postop Decreased with chemoTx Decreased with chemoTx NR NR NR Inflamed with chemoTx Decreased with e beam NR NR Resolved after surgery for tirst AC NR NR NR NR Persisted and increased in size/number during chemoTx NR NR Increased until death No change postop Increased postop NR Increased after TX NR

Histology NR SK NR AN, verrucous hyperplasia AN AN AN AN, SK AN, SK NR Acanthosis/ hyperplasia NR AN NR NR NR NR SK Keratosis NR AN NR SK SK NR AN, SK SK

NR NR NR NR NR SK SK SK, AN SK SK

SK NR SK SK SK NR SK SK

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Clinics in Dermatology 1993;21:142-148

SIGN

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OF LESER - TRkLAT

Table 1. Sign of Leser-Trilat: Summary of Case Reports (Continued) SK Onsett

Age/Sex

Pruritus

AN*

62M 79F 56F

+ + -

-

+

14 after Concurrent 1 after

AC breast and parotid gland tumor Neurolibrosarcoma

58F

+

+

5 after

40F

-

-

16 after

Non-Hodgkin’s lymphoma, poorly differentiated

80F

NR

-

AC esophagus CTCL SCzary/CTCL

69F 61F 71F

+ + +

-

54

Lung Ca (moderately differentiated SCC and AC)

71M

NR

+

56 57 58

55 56 57

Leiomyosarcoma stomach Ovarian AC Intracranial germinoma

41M 76F 22M

+ + NR

-

59

58

Lymphocytic lymphoma, nodular, poorly differentiated

48F

-

-

60 61 62

59 60 61

Malignant melanoma Lymphoma (mixed cell) Gastic Ca

54M 64M 54F

NR + -

-

63 64 65

62 63,64 65

Malignant melanoma Hemangiopericytoma Pituitary tumor and acromegaly

69M 42F 26F

+ NR +

66 67 68

66 67 68

CTCL/SCzary Hepatocellular Ca Mutinous AC, metastatic to liver

58M 57M 59F

+ + -

Malignancy

Patient

Reference

46 47 48

46 46 47

SCC lung AC unknown AC breast

49

47

50

48

51

49

52 53 54

50 51 52‘53

55

origin

+

-

+

-

-

-

-

(Months)

Concurrent

3 2 12/Concurrent erythroderma NR

24 8 1 after 5 - 6 after

3 19
Correlation of SK and Tumor Regression Decreased postop Unchanged with chemoTx Unchanged postop Appeared after chemoTx Persisted after chemo/ XRT (tumor response?) Increased with mets Decreased with PUVA Decreased with chemoTx Decreased postop, increased as tumor spread Some decrease postop NR Onset: tumor lysis, decreased after XRT Decreased with treatment,increased with mets Decreased postop Unchanged after XRT

Decreasedpostop, increased with mets Unchanged postop Unchanged postop

Decreasedpostop/ post-XRT Decreased with e beam NR NR

Histology SK, AN NR SK NR

SK NR

SK NR SK

SK, AN

NR SK SK NR

SK, AN, PEP SK SK SK SK SK SK/lymphoma SK SK

*AN, acanthosis ni@canr SK seborrheic keratosis; AC, adenocarcinoma; NR not reported; Ca, cancer; XRT, radiation therapy; SCC, squamous cell carcinoma; AMMO ac,,te leukemia; chemoTx, chemotherapy; CTCL, cutaneous T-cell lymphoma; e beam, electron beam; TX, treatment; mets, metastases; pw~, psoralen wirh ultraoioletA light; FEP, fibroepithelial polyp. t Onset of seborrheic keratoses in months prior to the diagnosis of cancer. Modified, with permission, from HoZdiness.5

myelOmOnOqtic

emphasized the pattern of seborrheic keratoses, for example, the “Christmas tree” and “splash” patterns reported in leukemias and IymphomaP; however, similar patterns may also be observed in patients without an associated malignancy. Figure 1 shows the back of a patient with eruptive seborrheic keratoses, which are clinically typical of the appearance of the sign of Leser-Trelat. He had benign hamartomas of the lung, and therefore by definition did not have the sign of Leser-Trelat; however, this case points out possible similar pathophysiologic mechanisms for benign and malignant sources of eruptive seborrheic keratoses (see Pathophysiology).

Previous authors have reported the association of acanthosis nigricans and pruritus with the sign of LeserTrelat. In our review of the literature, we found associated acanthosis nigricans in 29% of the patients reported (20/ 68). Pruritus was present in 5 1% of the cases that could be assessed (32/63). Both acanthosis nigricans and pruritus were present in 16% of the cases (11/67). The seborrheic keratoses found in the sign of LeserTrilat are similar in clinical appearance to normal seborrheic keratoses (Fig 2). Biopsy-proven seborrheic keratoses were found in 57% of the cases (39/68). Anatomic locations of the seborrheic keratoses were similar to those

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Table 2. Malignancies Associated With the Sign of Leser-Tre’lat

Figure 1. Photograph of the back of a patient who had the eruptive onset of seborrheic keratoses associated with hamartomas of the lung. The clinical picture is consistent with that seen in the sign of Leser-Tre’lat, although the associated tumor was benign.

observed for seborrheic keratoses in the general population. Most lesions were on the back and chest (76%), followed by the extremities (38%), face (21%), abdomen (15%), neck (13%), axillae (6%), generalized (6%), and groin (3%). The upper extremities were more frequently involved than the lower extremities (35% versus 25%).

Figure 2. Closeup photograph of a seborrheic keratosis on the back of the patient in Fig 1, demonstrating the ordina y appearance of the seborrheic keratosis.

Adenocarcinoma Gastrointestinal Gynecologic Breast Unknown primary Prostate Kidney Lymphoproliferative Squamous cell carcinoma of lung Breast (ductal) Melanoma Hepatocellular Not reported Miscellaneous (one of each) Leiomyoblastoma Lung (small cell) Neurofibrosarcoma Leiomyosarcoma (stomach) Germinoma (intracranial) Hemangiopericytoma Pituitary tumor Undifferentiated bronchogenic Meningioma (spinal cord)

34/68=50% 22/68=32% 4/68=6% 4/68=6% 2/68=3% l/68 = 1.5% l/68 = 1.5% 14/68 = 20.6% 4/6&?=6% 2/68=3% 2/68=3% 2/68=3% 2/6&3=3% l/68=1.5%

Histopathology The histopathology of seborrheic keratoses found in the sign of Leser - TrClat is identical to that of common seborrheic keratoses.72 The hyperkeratotic form of seborrheic keratosis is also indistinguishable from acanthosis nigricans.72This suggests possible similar mechanisms of pathophysiology for the two lesions.

Associated Malignancies The type of malignancy most commonly associated (50%) with the sign of Leser-Trelat is adenocarcinoma (Table 2). Adenocarcinoma of the gastrointestinal tract is responsible for 32% of the total cases reported. Lymphoproliferative disorders are responsible for 21% of the cases, although some of these cases may have been related to cutaneous inflammation leading to increased seborrheic keratoses. We have attempted to eliminate from our review cases in which cutaneous inflammation appeared to be the source of increased seborrheic keratoses.

Laboratory Findings The laboratory findings are those associated with the tumor involved. In addition, one group has reported a slight elevation of epidermal growth factor (EGF) in the urine,61 another found an increased insulin-like growth

ELLIS AND YATES SIGN OF LESER - TRkLAT

Clinics in Dermatology 2993:11:141- 148 factor,63 and we found transforming growth (TGF-a) to be increased in the urine.59

Differential

factor (Y

Diagnosis

The most difficult element of the sign of Leser-Trelat is discerning if the seborrheic keratoses truly had a recent eruptive onset or increase in size and number. Some authors suggest that older patients may not know whether their seborrheic keratoses have recently changed. In our experience, although the eruptive onset of seborrheic keratoses is rare, the patient usually is quite cognizant of it. The largest segment of the population with multiple seborrheic keratoses probably comprises “normal” patients who have slowly acquired the lesions over several years. These patients do not require extensive examination for carcinoma. Other causes of eruptive seborrheic keratoses, such as pregnancy (see Pathophysiology), also need to be ruled out.

Treatment The initial treatment for the sign of Leser - Trelat is treatment of the underlying carcinoma. In 56% of cases in which responses of seborrheic keratoses to treatment have been recorded, treatment resulted in involution of the seborrheic keratoses. Seborrheic keratoses are benign and do not require treatment; however, for troublesome lesions (irritated or bleeding), physical treatments such as cryosurgery, shave biopsy, electrodesiccation, and curettage may be used. For smaller macular lesions, topical retinoic acid may be useful. 73As the pathogenesis of seborrheic keratoses becomes understood, new therapies should evolve.

Pathogenesis Criteria for paraneoplastic syndromes have been defined by Curth” and Orth. 75According to Curth, (1) the tumor and the paraneoplastic syndrome have a simultaneous onset; (2) the course of both conditions is parallel; (3) a specific tumor occurs in connection with a certain paraneoplastic sign; (4) the dermatosis is usually rare; and (5) there is a high percentage of association between the two conditions. Orth’s Clinical criteria consist of association of a neoplasm with a paraneoplastic syndrome; association of a neoplasm with inappropriately elevated plasma or urine hormone levels; failure of plasma or urinary hormone levels to respond to normal homeostatic suppres-

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sion; absence of other possible causal mechanisms; fall in hormone levels after tumor-specific therapy; arteriovenous step-up gradient of the hormone across the tumor capillary bed; and presence of the hormone in tumor tissue. Orth’s laboratory criteria are in vitro hormone synthesis and release by tumor tissue and presence of hormone-specific mRNA in tumor tissue. Some or all of these criteria should be met to establish the specific etiologic agent(s) of a cutaneous paraneoplastic syndrome; however, even for most commonly accepted cutaneous paraneoplastic syndromes, the criteria of Orth have not been completely met. Orth’s criteria do outline a clinical and laboratory method of associating a paraneoplastic syndrome with a given tumor, in contrast to the purely clinical criteria of Curth. Several tumors might also produce the same “hormone(s)” that causes a given paraneoplastic syndrome, although some tumors may be more likely to overproduce the hormone than others. The sign of Leser-Trelat has been postulated to be caused by tumor-secreted “growth factors,” which result in the epidermal hyperproliferation that produces multiple seborrheic keratoses. Curry and King first suggested that EGF may be a growth factor with potential to cause the sign of Leser- Trelat, although the patient they studied did not have elevated levels of EGF.32 Kameya et al, however, found slightly elevated levels of EGF in a 24hour urine specimen from a patient with advanced gastric cancer whose seborrheic keratoses had faded with initial resection of the tumor, but returned when the cancer retumed.61 Horiuchi et al observed keratinocyte proliferation on incubation with preconditioned medium from peripheral blood lymphocytes from a patient with Sezary syndrome and the sign of Leser-Trelat.53 The factor responsible for the observed proliferation in their study was not EGF immunologically. Benn et al found a circulating insulin-like growth factor in a patient with a hemangiopericytoma, fasting hypoglycemia, and the sign of Leser Trelat.63 We observed a man with the sign of Leser-Trelat, acanthosis nigricans, multiple acrochordons, and cutaneous melanoma.59 In this patient, removal of the primary melanoma resulted in the simultaneous involution of his seborrheic keratoses, skin tags, and acanthosis nigricans. Although his urinary level of EGF was within the normal range for his age and sex, TGF-a observed in the urine preoperatively resolved postoperatively. The patient’s seborrheic keratoses, acrochordons, and acanthosis nigricans biopsy specimens all had elevated levels of EGF receptor (EGFR) by immunohistochemistry preoperatively; these normal returned to postoperatively. The EGFR is a common receptor for the EGF and TGF-c~ ligands, and melanomas are known to secrete TGF-cx.‘~ We

146

ELLIS AND YATES

Clinics in Dermatology 1993;11:141-148

therefore postulated that TGF-cr produced by the melanoma in this case caused the sign of Leser-TrClat. We suggest the sign of Leser-Trelat is the result of a tumor secreting a factor causing epidermal proliferation (such as TGF-cu), which results in the sudden appearance of multiple seborrheic keratoses in genetically predisposed patients. When the carcinoma increases the level of the epidermal proliferation factor to a critical threshold level, the sudden eruption of multiple seborrheic keratoses may then occur. A genetic susceptibility to developing multiple seborrheic keratoses is also required; otherwise more cancer patients would be expected to have the sign of Leser - Trelat. Multiple seborrheic keratoses are common, and often genetically linked. Both common acquired benign seborrheic keratoses and the sign of Leser-TrClat may occur through a common final pathway. We have found that growing seborrheic keratoses in patients without the sign of Leser-Trelat also have increased EGFR,” lending support to this hypothesis. Indeed, we have observed increased EGFR in seborrheic keratoses appearing with pregnancy,‘a where TGF-a should be secreted by the placenta and fetus. Thus, “tumors of pregnancy” may produce multiple seborrheic keratoses by a mechanism similar to that for the production of the sign of Leser - Trelat. The case shown in Fig 1 may have also occurred through a similar final common pathway, although hamartomas were the source of the proliferating factor instead of a carcinoma.

Recommended Evaluation Patients with eruptive seborrheic keratoses or a sudden increase in size and number of seborrheic keratoses should have a complete history and physical examination. This should include a complete cutaneous examination to check for the presence of tumors such as melanoma. Laboratory tests should include a complete blood count, chemistry profile, urinalysis, and chest x-ray. Other special laboratory tests such as mammography and prostate-specific antigen should be considered if the patient is in the age/sex group in which these tumors are likely. Because most of the internal malignancies reported with the sign of Leser - Trelat have been associated with adenocarcinomas of the gastrointestinal tract, specific examinations such as upper and lower gastrointestinal endoscopy (or radiography if endoscopy is not available) should be considered if a tumor is not found on the initial history and physical examination. Biopsy for confirmation of the diagnosis of a seborrheic keratosis is recommended, particularly for cases to be reported in the literature.

Conclusions The sign of Leser - T&at has been a source of controversy in the literature. Although more studies are required to further delineate the pathogenesis of this sign, evidence exists that the underlying malignancy secretes an epiderma1 proliferating factor (EGF, TGF-a, and insulin-like growth factor peptides have been suggested to date). Threshold levels of this proliferating factor may then cause eruptive seborrheic keratoses in a susceptible patient. Consequently, the constellation of the sudden eruption of multiple seborrheic keratoses or the sudden increase in multiple seborrheic keratoses should alert the clinician to the possibility of an underlying neoplasm. Concurrent signs such as pruritus and acanthosis nigricans should raise the index of suspicion for carcinoma.

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52. Horiuchi Y, Katsuoka K, Tsukamoto K, et al. Leser-Trelat sign associated with SCzary syndrome, Cutis 1985; 36(5):409- 10. 53. Horiuchi Y, Katsuoka K, Takezaki S, et al. Study of epiderma1 growth activity in cultured human keratinocytes from peripheral-blood lymphocytes of a patient with Sezary syndrome associated with the Leser-Trelat sign. Arch Dermatol Res 1985;278:74-6. 54. Yasuhiro H, Katsuoka K, Yoshimura H, et al. Acanthosis nigricans and Leser - Trelat sign associated with squamous cell carcinoma and adenocarcinoma of the lung. Int J Dermatol 1986;25(7):459-60. 55. Horiuchi Y, Katsuoka K. The Leser-T&at with leiomyosarcoma of the stomach. 1986;25(7):463-4.

sign associated Int J Dermatol

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