Pseudoglandular Squamous Cell Carcinoma

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Pseudoglandular Squamous Cell Carcinoma

Squamous cell carcinoma (SCC) is the second most common form of skin cancer. Pseudoglandular SCC, also known as adenoid SCC or acantholytic SCC, is an uncommon variant that was first described by Lever1 in 1947 as an adenoacanthoma of the sweat glands. Of the many variants of SCC, pseudoglandular SCC generally is considered to behave aggressively with intermediate (3%–10%) risk for metastasis.2 The metastatic potential of pseudoglandular SCC may be conferred in part by diminished expression of intercellular adhesion molecules, including desmoglein 3, epithelial cadherin, and syn-decan 1.3,4 Pseudoglandular SCC presents most often on sun-damaged skin of elderly patients, especially the face and ears, as a pink or red nodule with central ulceration and a raised indurated border. It may be mistaken clinically for basal cell carcinoma (BCC) or keratoacanthoma.

On microscopic examination, the lesion is predominantly located in the dermis and may extend to the subcutis. There usually is connection to the overlying epidermis, which often shows hyperkeratosis and parakeratosis. Epidermal squamous dysplasia may be present. The dermis typically contains nests of squamous cells with a variable degree of central acantholysis. The morphology on low-power magnification consists of tubules of irregular size and shape, which are present either focally or throughout the lesion (Figure 1). The tubules are typically admixed with foci of keratinization. One or more layers of cohesive cells line the tubules. Partial keratinization may be found in the lining of tubules with more than 1 cell layer. The tumor cells are polygonal with eosinophilic cytoplasm, ovoid hyperchromatic or vesicular nuclei, and prominent nucleoli. Mitoses are common. The tubular lumina are filled with acantholytic cells, either singly or in small clusters, which may demonstrate residual bridging to tubular lining cells (Figure 2). The acantholytic cells show some variability in size and may be large, multinucleated, or keratinized. The tubules may contain material that is amorphous, basophilic, periodic acid–Schiff positive, diastase sensitive, and mucicarmine negative.5 Eccrine ducts at the periphery of the tumor may show reactive dilatation and proliferation. Tumor cells show positive immunostaining for epithelial membrane antigen, 34βE12, CK5/6, and tumor protein p63.6-8 There is negative immunostaining for carcinoembryonic antigen, amylase, S-100 protein, and factor VIII.5

Figure 1. Glandlike tubular structures admixed with foci of keratinization (H&E, original magnification ×40).

Figure 2. Pseudoglandular spaces containing acantholytic cells (H&E, original magnification ×100).

The differential diagnosis includes adenoid BCC, angiosarcoma, eccrine carcinoma, and metastatic adenocarcinoma of the skin. In adenoid BCC, excess stromal mucin imparts pseudoglandular architecture (Figure 3). However, features of conventional BCC, including peripheral nuclear palisading and retraction artifact often are present as well.

Figure 3. Thin strands of basaloid cells in a reticulate pattern with prominent stromal mucin in adenoid basal cell carcinoma. There also is palisading and retraction artifact of conventional basal cell carcinoma (H&E, original magnification ×40).

Angiosarcoma shows slitlike vascular spaces lined by hyperchromatic endothelial cells (Figure 4). Further, there is positive immunostaining for vascular markers CD31 and CD34.

Figure 4. Slitlike vascular spaces lined by hyperchromatic endothelial cells in angiosarcoma (H&E, original magnification ×100).

In eccrine carcinoma, there are invasive ductal structures lined by either a single or double layer of cells that may contain luminal material that is periodic acid–Schiff positive and diastase resistant (Figure 5).9 The tumor cells show positive immunostaining for cytokeratins, epithelial membrane antigen, carcinoembryonic antigen, and S-100 protein.10

Figure 5. Invasive ductal structures of malignant eccrine carcinoma (H&E, original magnification ×100).

Pseudoglandular SCC is susceptible to misdiagnosis as adenocarcinoma by sampling error if biopsies do not capture areas with typical features of SCC, including dysplastic squamous epithelium and keratinization. Metastatic adenocarcinoma of the skin is more likely to present with multiple nodules in older individuals. Lack of epidermal connection of the tumor and minimal to no acantholytic dyskeratosis further support cutaneous metastasis (Figure 6). Review of the patient’s clinical history might be helpful if adenocarcinoma was previously diagnosed. Immunohistochemical evaluation may aid in the prediction of the primary site in patients with metastatic adenocarcinoma of unknown origin.11

Figure 6. The dermis is filled with malignant glandular epithelium that is CK7 positive, CK20 negative, and thyroid transcription factor 1 positive (immunohistochemistry not shown), consistent with metastatic adenocarcinoma of lung origin (H&E, original magnification ×40).
References

1. Lever WF. Adenocanthoma of sweat glands; carcinoma of sweat glands with glandular and epidermal elements: report of four cases. Arch Derm Syphilol. 1947;56:157-171.

2. Bonerandi JJ, Beauvillain C, Caquant L, et al. Guidelines for the diagnosis and treatment of cutaneous squamous cell carcinoma and precursor lesions. J Eur Acad Dermatol Venereol. 2011;25(suppl 5):1-51.

3. Griffin JR, Wriston CC, Peters MS, et al. Decreased expression of intercellular adhesion molecules in acantholytic squamous cell carcinoma compared with invasive well-differentiated squamous cell carcinoma of the skin. Am J Clin Pathol. 2013;139:442-447.

4. Bayer-Garner IB, Smoller BR. The expression of syndecan-1 is preferentially reduced compared with that of E-cadherin in acantholytic squamous cell carcinoma. J Cutan Pathol. 2001;28:83-89.

5. Nappi O, Pettinato G, Wick MR. Adenoid (acantholytic) squamous cell carcinoma of the skin. J Cutan Pathol. 1989;16:114-121.

6. Sajin M, Hodorogea Prisăcaru A, Luchian MC, et al. Acantholytic squamous cell carcinoma: pathological study of nine cases with review of literature. Rom J Morphol Embryol. 2014;55:279-283.

7. Gray Y, Robidoux HJ, Farrell DS, et al. Squamous cell carcinoma detected by high-molecular-weight cytokeratin immunostaining mimicking atypical fibroxanthoma. Arch Pathol Lab Med. 2001;125:799-802.

8. Kanitakis J, Chouvet B. Expression of p63 in cutaneous metastases. Am J Clin Pathol. 2007;128:753-758.

9. Plaza JA, Prieto VG. Neoplastic Lesions of the Skin. New York, NY: Demos Medical Publishing; 2014.

10. Swanson PE, Cherwitz DL, Neumann MP, et al. Eccrine sweat gland carcinoma: an histologic and immunohistochemical study of 32 cases. J Cutan Pathol. 1987;14:65-86.

11. Dennis JL, Hvidsten TR, Wit EC, et al. Markers of adenocarcinoma characteristic of the site of origin: development of a diagnostic algorithm. Clin Cancer Res. 2005;11:3766-3772.

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Ryan Yu, MD; Gabriella Gohla, MD, FRCPC; Salem Alowami, MB Bch, FRCP

All from the Department of Pathology and Molecular Medicine, McMaster University, Hamilton, Ontario, Canada. Drs. Gohla and Alowami also are from St. Joseph’s Healthcare, Hamilton.

The authors report no conflict of interest.

Correspondence: Ryan Yu, MD, McMaster University, HSC-2N22B, 1280 Main St W, Hamilton, ON L8S 4K1, Canada (ryan.yu@medportal.ca).

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Squamous cell carcinoma, SCC, acantholytic, adenoacanthoma, pseudoglandular, keratoacanthoma, basal cell carcinoma, BCC, dermatopathology, histopathology
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Ryan Yu, MD; Gabriella Gohla, MD, FRCPC; Salem Alowami, MB Bch, FRCP

All from the Department of Pathology and Molecular Medicine, McMaster University, Hamilton, Ontario, Canada. Drs. Gohla and Alowami also are from St. Joseph’s Healthcare, Hamilton.

The authors report no conflict of interest.

Correspondence: Ryan Yu, MD, McMaster University, HSC-2N22B, 1280 Main St W, Hamilton, ON L8S 4K1, Canada (ryan.yu@medportal.ca).

Author and Disclosure Information

Ryan Yu, MD; Gabriella Gohla, MD, FRCPC; Salem Alowami, MB Bch, FRCP

All from the Department of Pathology and Molecular Medicine, McMaster University, Hamilton, Ontario, Canada. Drs. Gohla and Alowami also are from St. Joseph’s Healthcare, Hamilton.

The authors report no conflict of interest.

Correspondence: Ryan Yu, MD, McMaster University, HSC-2N22B, 1280 Main St W, Hamilton, ON L8S 4K1, Canada (ryan.yu@medportal.ca).

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Squamous cell carcinoma (SCC) is the second most common form of skin cancer. Pseudoglandular SCC, also known as adenoid SCC or acantholytic SCC, is an uncommon variant that was first described by Lever1 in 1947 as an adenoacanthoma of the sweat glands. Of the many variants of SCC, pseudoglandular SCC generally is considered to behave aggressively with intermediate (3%–10%) risk for metastasis.2 The metastatic potential of pseudoglandular SCC may be conferred in part by diminished expression of intercellular adhesion molecules, including desmoglein 3, epithelial cadherin, and syn-decan 1.3,4 Pseudoglandular SCC presents most often on sun-damaged skin of elderly patients, especially the face and ears, as a pink or red nodule with central ulceration and a raised indurated border. It may be mistaken clinically for basal cell carcinoma (BCC) or keratoacanthoma.

On microscopic examination, the lesion is predominantly located in the dermis and may extend to the subcutis. There usually is connection to the overlying epidermis, which often shows hyperkeratosis and parakeratosis. Epidermal squamous dysplasia may be present. The dermis typically contains nests of squamous cells with a variable degree of central acantholysis. The morphology on low-power magnification consists of tubules of irregular size and shape, which are present either focally or throughout the lesion (Figure 1). The tubules are typically admixed with foci of keratinization. One or more layers of cohesive cells line the tubules. Partial keratinization may be found in the lining of tubules with more than 1 cell layer. The tumor cells are polygonal with eosinophilic cytoplasm, ovoid hyperchromatic or vesicular nuclei, and prominent nucleoli. Mitoses are common. The tubular lumina are filled with acantholytic cells, either singly or in small clusters, which may demonstrate residual bridging to tubular lining cells (Figure 2). The acantholytic cells show some variability in size and may be large, multinucleated, or keratinized. The tubules may contain material that is amorphous, basophilic, periodic acid–Schiff positive, diastase sensitive, and mucicarmine negative.5 Eccrine ducts at the periphery of the tumor may show reactive dilatation and proliferation. Tumor cells show positive immunostaining for epithelial membrane antigen, 34βE12, CK5/6, and tumor protein p63.6-8 There is negative immunostaining for carcinoembryonic antigen, amylase, S-100 protein, and factor VIII.5

Figure 1. Glandlike tubular structures admixed with foci of keratinization (H&E, original magnification ×40).

Figure 2. Pseudoglandular spaces containing acantholytic cells (H&E, original magnification ×100).

The differential diagnosis includes adenoid BCC, angiosarcoma, eccrine carcinoma, and metastatic adenocarcinoma of the skin. In adenoid BCC, excess stromal mucin imparts pseudoglandular architecture (Figure 3). However, features of conventional BCC, including peripheral nuclear palisading and retraction artifact often are present as well.

Figure 3. Thin strands of basaloid cells in a reticulate pattern with prominent stromal mucin in adenoid basal cell carcinoma. There also is palisading and retraction artifact of conventional basal cell carcinoma (H&E, original magnification ×40).

Angiosarcoma shows slitlike vascular spaces lined by hyperchromatic endothelial cells (Figure 4). Further, there is positive immunostaining for vascular markers CD31 and CD34.

Figure 4. Slitlike vascular spaces lined by hyperchromatic endothelial cells in angiosarcoma (H&E, original magnification ×100).

In eccrine carcinoma, there are invasive ductal structures lined by either a single or double layer of cells that may contain luminal material that is periodic acid–Schiff positive and diastase resistant (Figure 5).9 The tumor cells show positive immunostaining for cytokeratins, epithelial membrane antigen, carcinoembryonic antigen, and S-100 protein.10

Figure 5. Invasive ductal structures of malignant eccrine carcinoma (H&E, original magnification ×100).

Pseudoglandular SCC is susceptible to misdiagnosis as adenocarcinoma by sampling error if biopsies do not capture areas with typical features of SCC, including dysplastic squamous epithelium and keratinization. Metastatic adenocarcinoma of the skin is more likely to present with multiple nodules in older individuals. Lack of epidermal connection of the tumor and minimal to no acantholytic dyskeratosis further support cutaneous metastasis (Figure 6). Review of the patient’s clinical history might be helpful if adenocarcinoma was previously diagnosed. Immunohistochemical evaluation may aid in the prediction of the primary site in patients with metastatic adenocarcinoma of unknown origin.11

Figure 6. The dermis is filled with malignant glandular epithelium that is CK7 positive, CK20 negative, and thyroid transcription factor 1 positive (immunohistochemistry not shown), consistent with metastatic adenocarcinoma of lung origin (H&E, original magnification ×40).

Squamous cell carcinoma (SCC) is the second most common form of skin cancer. Pseudoglandular SCC, also known as adenoid SCC or acantholytic SCC, is an uncommon variant that was first described by Lever1 in 1947 as an adenoacanthoma of the sweat glands. Of the many variants of SCC, pseudoglandular SCC generally is considered to behave aggressively with intermediate (3%–10%) risk for metastasis.2 The metastatic potential of pseudoglandular SCC may be conferred in part by diminished expression of intercellular adhesion molecules, including desmoglein 3, epithelial cadherin, and syn-decan 1.3,4 Pseudoglandular SCC presents most often on sun-damaged skin of elderly patients, especially the face and ears, as a pink or red nodule with central ulceration and a raised indurated border. It may be mistaken clinically for basal cell carcinoma (BCC) or keratoacanthoma.

On microscopic examination, the lesion is predominantly located in the dermis and may extend to the subcutis. There usually is connection to the overlying epidermis, which often shows hyperkeratosis and parakeratosis. Epidermal squamous dysplasia may be present. The dermis typically contains nests of squamous cells with a variable degree of central acantholysis. The morphology on low-power magnification consists of tubules of irregular size and shape, which are present either focally or throughout the lesion (Figure 1). The tubules are typically admixed with foci of keratinization. One or more layers of cohesive cells line the tubules. Partial keratinization may be found in the lining of tubules with more than 1 cell layer. The tumor cells are polygonal with eosinophilic cytoplasm, ovoid hyperchromatic or vesicular nuclei, and prominent nucleoli. Mitoses are common. The tubular lumina are filled with acantholytic cells, either singly or in small clusters, which may demonstrate residual bridging to tubular lining cells (Figure 2). The acantholytic cells show some variability in size and may be large, multinucleated, or keratinized. The tubules may contain material that is amorphous, basophilic, periodic acid–Schiff positive, diastase sensitive, and mucicarmine negative.5 Eccrine ducts at the periphery of the tumor may show reactive dilatation and proliferation. Tumor cells show positive immunostaining for epithelial membrane antigen, 34βE12, CK5/6, and tumor protein p63.6-8 There is negative immunostaining for carcinoembryonic antigen, amylase, S-100 protein, and factor VIII.5

Figure 1. Glandlike tubular structures admixed with foci of keratinization (H&E, original magnification ×40).

Figure 2. Pseudoglandular spaces containing acantholytic cells (H&E, original magnification ×100).

The differential diagnosis includes adenoid BCC, angiosarcoma, eccrine carcinoma, and metastatic adenocarcinoma of the skin. In adenoid BCC, excess stromal mucin imparts pseudoglandular architecture (Figure 3). However, features of conventional BCC, including peripheral nuclear palisading and retraction artifact often are present as well.

Figure 3. Thin strands of basaloid cells in a reticulate pattern with prominent stromal mucin in adenoid basal cell carcinoma. There also is palisading and retraction artifact of conventional basal cell carcinoma (H&E, original magnification ×40).

Angiosarcoma shows slitlike vascular spaces lined by hyperchromatic endothelial cells (Figure 4). Further, there is positive immunostaining for vascular markers CD31 and CD34.

Figure 4. Slitlike vascular spaces lined by hyperchromatic endothelial cells in angiosarcoma (H&E, original magnification ×100).

In eccrine carcinoma, there are invasive ductal structures lined by either a single or double layer of cells that may contain luminal material that is periodic acid–Schiff positive and diastase resistant (Figure 5).9 The tumor cells show positive immunostaining for cytokeratins, epithelial membrane antigen, carcinoembryonic antigen, and S-100 protein.10

Figure 5. Invasive ductal structures of malignant eccrine carcinoma (H&E, original magnification ×100).

Pseudoglandular SCC is susceptible to misdiagnosis as adenocarcinoma by sampling error if biopsies do not capture areas with typical features of SCC, including dysplastic squamous epithelium and keratinization. Metastatic adenocarcinoma of the skin is more likely to present with multiple nodules in older individuals. Lack of epidermal connection of the tumor and minimal to no acantholytic dyskeratosis further support cutaneous metastasis (Figure 6). Review of the patient’s clinical history might be helpful if adenocarcinoma was previously diagnosed. Immunohistochemical evaluation may aid in the prediction of the primary site in patients with metastatic adenocarcinoma of unknown origin.11

Figure 6. The dermis is filled with malignant glandular epithelium that is CK7 positive, CK20 negative, and thyroid transcription factor 1 positive (immunohistochemistry not shown), consistent with metastatic adenocarcinoma of lung origin (H&E, original magnification ×40).
References

1. Lever WF. Adenocanthoma of sweat glands; carcinoma of sweat glands with glandular and epidermal elements: report of four cases. Arch Derm Syphilol. 1947;56:157-171.

2. Bonerandi JJ, Beauvillain C, Caquant L, et al. Guidelines for the diagnosis and treatment of cutaneous squamous cell carcinoma and precursor lesions. J Eur Acad Dermatol Venereol. 2011;25(suppl 5):1-51.

3. Griffin JR, Wriston CC, Peters MS, et al. Decreased expression of intercellular adhesion molecules in acantholytic squamous cell carcinoma compared with invasive well-differentiated squamous cell carcinoma of the skin. Am J Clin Pathol. 2013;139:442-447.

4. Bayer-Garner IB, Smoller BR. The expression of syndecan-1 is preferentially reduced compared with that of E-cadherin in acantholytic squamous cell carcinoma. J Cutan Pathol. 2001;28:83-89.

5. Nappi O, Pettinato G, Wick MR. Adenoid (acantholytic) squamous cell carcinoma of the skin. J Cutan Pathol. 1989;16:114-121.

6. Sajin M, Hodorogea Prisăcaru A, Luchian MC, et al. Acantholytic squamous cell carcinoma: pathological study of nine cases with review of literature. Rom J Morphol Embryol. 2014;55:279-283.

7. Gray Y, Robidoux HJ, Farrell DS, et al. Squamous cell carcinoma detected by high-molecular-weight cytokeratin immunostaining mimicking atypical fibroxanthoma. Arch Pathol Lab Med. 2001;125:799-802.

8. Kanitakis J, Chouvet B. Expression of p63 in cutaneous metastases. Am J Clin Pathol. 2007;128:753-758.

9. Plaza JA, Prieto VG. Neoplastic Lesions of the Skin. New York, NY: Demos Medical Publishing; 2014.

10. Swanson PE, Cherwitz DL, Neumann MP, et al. Eccrine sweat gland carcinoma: an histologic and immunohistochemical study of 32 cases. J Cutan Pathol. 1987;14:65-86.

11. Dennis JL, Hvidsten TR, Wit EC, et al. Markers of adenocarcinoma characteristic of the site of origin: development of a diagnostic algorithm. Clin Cancer Res. 2005;11:3766-3772.

References

1. Lever WF. Adenocanthoma of sweat glands; carcinoma of sweat glands with glandular and epidermal elements: report of four cases. Arch Derm Syphilol. 1947;56:157-171.

2. Bonerandi JJ, Beauvillain C, Caquant L, et al. Guidelines for the diagnosis and treatment of cutaneous squamous cell carcinoma and precursor lesions. J Eur Acad Dermatol Venereol. 2011;25(suppl 5):1-51.

3. Griffin JR, Wriston CC, Peters MS, et al. Decreased expression of intercellular adhesion molecules in acantholytic squamous cell carcinoma compared with invasive well-differentiated squamous cell carcinoma of the skin. Am J Clin Pathol. 2013;139:442-447.

4. Bayer-Garner IB, Smoller BR. The expression of syndecan-1 is preferentially reduced compared with that of E-cadherin in acantholytic squamous cell carcinoma. J Cutan Pathol. 2001;28:83-89.

5. Nappi O, Pettinato G, Wick MR. Adenoid (acantholytic) squamous cell carcinoma of the skin. J Cutan Pathol. 1989;16:114-121.

6. Sajin M, Hodorogea Prisăcaru A, Luchian MC, et al. Acantholytic squamous cell carcinoma: pathological study of nine cases with review of literature. Rom J Morphol Embryol. 2014;55:279-283.

7. Gray Y, Robidoux HJ, Farrell DS, et al. Squamous cell carcinoma detected by high-molecular-weight cytokeratin immunostaining mimicking atypical fibroxanthoma. Arch Pathol Lab Med. 2001;125:799-802.

8. Kanitakis J, Chouvet B. Expression of p63 in cutaneous metastases. Am J Clin Pathol. 2007;128:753-758.

9. Plaza JA, Prieto VG. Neoplastic Lesions of the Skin. New York, NY: Demos Medical Publishing; 2014.

10. Swanson PE, Cherwitz DL, Neumann MP, et al. Eccrine sweat gland carcinoma: an histologic and immunohistochemical study of 32 cases. J Cutan Pathol. 1987;14:65-86.

11. Dennis JL, Hvidsten TR, Wit EC, et al. Markers of adenocarcinoma characteristic of the site of origin: development of a diagnostic algorithm. Clin Cancer Res. 2005;11:3766-3772.

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Squamous cell carcinoma, SCC, acantholytic, adenoacanthoma, pseudoglandular, keratoacanthoma, basal cell carcinoma, BCC, dermatopathology, histopathology
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