Primary cutaneous CD8-positive aggressive epidermotropic cytotoxic T-cell lymphoma

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Haematolymphoid Tumours (5th ed.)

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Primary Author(s)*

Ahmed Eladely, MBBCh. Andrew Siref, MD.

Creighton University, Omaha, NE.

Cancer Category / Type

Book WHO Classification of Disease - Haematolymphoid Tumours (5th ed.)
Category T-cell and NK-cell lymphoid proliferations and lymphomas
Family Mature T-cell and NK-cell neoplasms
Type Primary cutaneous T-cell lymphoid proliferations and lymphomas
Subtype Primary cutaneous CD8-positive aggressive epidermotropic cytotoxic T-cell lymphoma

Cancer Sub-Classification / Subtype

None

Definition / Description of Disease

Primary cutaneous CD8-positive aggressive epidermotropic cytotoxic T-cell lymphoma (PCAETL) is a rare and poorly characterized neoplastic proliferation of T lymphocytes with CD8 and cytotoxic molecule expression. PCAETL is marked by epidermal necrosis, a high proliferation index, and aggressive clinical behavior. It should be distinguished from other rare epidermotropic subtypes of cutaneous gamma-delta T-cell lymphomas (such as gamma-delta mycosis fungoides), CD8+ mycosis fungoides, localized pagetoid reticulosis, and type D lymphomatoid papulosis.[1][2][3]

Synonyms / Terminology

Berti lymphoma

Disseminated pagetoid reticulosis, Ketron–Goodman type (obsolete)

Epidemiology / Prevalence

PCAETL is rare, comprising less than 1% of all cutaneous T-cell lymphomas. It typically occurs in adults and shows a predilection for males.[1][3]

Clinical Features

Signs and Symptoms Diffusely distributed papules (common)

Localized papules (less common)

Ulcerated nodules, tumors, and plaques

Erosion or central necrosis

Preceded by chronic, poorly defined patches (subset)

Disseminated to visceral sites (lungs, testes, CNS)

Lymph nodes spared

No association with immunosuppression [1][2][3]

Laboratory Findings None

Sites of Involvement

PCAETL can present with either localized or generalized skin lesions and may affect the oral mucosa.[4]

Morphologic Features

Pagetoid epithelial involvement (epidermal and adnexal) is typically observed; however, the infiltrate may involve the entire dermis.[3][5] Lymphocyte morphology ranges from monomorphic to pleomorphic. Rimming of subcutaneous fat spaces has been reported. Spongiosis can result in blister formation.[6]

The tumor cells typically consist of atypical small to large lymphocytes with indented nuclei, minimal cytoplasm, and occasional immunoblastic features. Histological signs of cytotoxicity are evident, including epidermal necrosis or ulceration, dermal necrosis, karyorrhexis, and rare angiocentric destruction.[2][3][6] Ulceration can resemble pyoderma gangrenosum.[7] There is often pronounced pagetoid epidermotropism, particularly in cases with widespread lesions.[1][8]

Immunophenotype

Finding Marker
Positive CD3, TIA1, granzyme B, perforin, CCR4
CD4/CD8 CD8+/CD4-; rare cases of double positivity or double negativity have been reported
CD2/CD5/CD7 CD2(+/-), CD5(-), CD7(-/+)
TCR TCR-βF1+, rarely TCRγδ+; rare cases of double positive and null type have been reported
Ki67 % >75%
Negative EBER, CD1a, CD30, CD25, ALK1, EMA
Variable CD45RA(+/-), CD15(-/+) [9][10][11]

Chromosomal Rearrangements (Gene Fusions)

In PCAETL, recurrent genomic events affecting genes involved in the cell cycle, chromatin regulation, and the JAK/STAT pathway have been reported, including complex genomic rearrangements and diverse JAK2 fusions. Upregulated JAK2 signaling is a consistent finding in nearly all cases, distinguishing PCAETL from other cytotoxic cutaneous T-cell lymphomas. Cases without JAK2 fusions often exhibit gain-of-function mutations in JAK2, STAT3, and STAT5B, alongside loss of negative regulators of the JAK/STAT pathway, particularly SH2B3.[11]

Chromosomal Rearrangement Genes in Fusion (5’ or 3’ Segments) Pathogenic Derivative Prevalence Diagnostic Significance (Yes, No or Unknown) Prognostic Significance (Yes, No or Unknown) Therapeutic Significance (Yes, No or Unknown) Notes
JAK2 fusion KHDRBS1-JAK2

PCM1-JAK2

TFG-JAK2

Self-oligo/dimerization of JAK2 3 of 12 patients No Unknown Yes Potential therapeutic target with JAK inhibitors.[11]
MYC fusion ACTB-MYC

NPM1-MYC

Chimeric MYC proteins with altered cell cycle regulation. 2 of 12 patients No Unknown No

Individual Region Genomic Gain / Loss / LOH

Chr # Gain / Loss / Amp / LOH Minimal Region Cytoband Diagnostic Significance (Yes, No or Unknown) Prognostic Significance (Yes, No or Unknown) Therapeutic Significance (Yes, No or Unknown) Notes
1 Loss p36.11[10][11] No No No
1 Loss 1p36.22[11] No No No
1 Loss 1p36.32-p36.33[10] No No No
2 Loss q37.3[10] No No No
7 Gain q21.11-q22.3[10] No No No
7 Gain q22.1[11] No No No
7 Gain q32.1-q36.1[10] No No No
7 Gain q35[11] No No
7 Gain q36.1-q36.3[10][11] No No No
7 Loss p14.1[11] No No No
7 Loss q34[10][11] No No No
8 Loss p12[10] No No No
8 Gain q24.3[10] No No No Common in fusion-negative cases.
9 Loss p21.3[10][11] No No No The most frequently affected locus, shows losses in the MTAP, CDKN2A, and CDKN2B regions (12/20 patients).[10] It was also the most common in another study (10/12 patients).[11]
11 Loss q23.2[11] No No No
12 Loss q24.12 Unknown No No
13 Loss q14.11[10][11] No No No
14 Loss q11.2[10][11] No No No
16 Loss p13.13[11] No No No
17 Loss p13.2[10] No No No
17 Gain q21.31[10] No No No
17 Gain q21.33-q22[10][11] No No No
17 Gain q25.3[10] No No No
21 Gain q22.12[10] No No No
X Gain p11.23-p11.22[10] No No No
X Gain q28[10] No No No

All the genes found in these regions are implicated in several pathways associated with lymphoma and tumor development, including T-cell signaling, DNA damage response, the JAK-STAT pathway, and epigenetic modifications.[10]

Characteristic Chromosomal Patterns

Although PCAETL exhibit multiple copy number alterations (CNAs), they lack a distinct signature or genomic profile, as their recurrent CNAs partially or entirely overlap with those found in other aggressive cutaneous T cell lymphomas.[10]

Gene Mutations (SNV / INDEL)

Gene; Genetic Alteration Presumed Mechanism (Tumor Suppressor Gene [TSG] / Oncogene / Other) Concomitant Mutations Mutually Exclusive Mutations Diagnostic Significance (Yes, No or Unknown) Prognostic Significance (Yes, No or Unknown) Therapeutic Significance (Yes, No or Unknown) Notes
JAK3; p.R657W, p.M511I Oncogene None specified None specified No Unknown No Gain-of-function mutations
JAK2; p.L393V Oncogene None specified None specified No Unknown No Germline SNV renders JAK2 hypersensitive to cytokine stimulation
STAT3; p.H19R, p.G604A Oncogene JAK2 fusions, SH2B3 deletions None specified No Unknown No Gain-of-function mutations
STAT5B; p.N642H, p.P702S, p.Y665F, p.S434L Oncogene SH2B3 deletions None specified No Unknown No Gain-of-function mutations
SH2B3; p.L201Sfs78, p.V35Afs154 Tumor Suppressor Gene (TSG) STAT5B mutations, JAK or STAT gene mutations JAK2 fusions No Unknown No Frameshift mutations leading to loss of function
SOCS1; p.S71Rfs*14 Tumor Suppressor Gene (TSG) JAK or STAT gene mutations None specified No Unknown No Frameshift mutation leading to a premature stop codon[11]

Epigenomic Alterations

Alteration in LIN28, ARID1A, PARP10, MLL3, and MLL5 have been described and may play a role in the pathogenesis.[10]

Genes and Main Pathways Involved

Gene; Genetic Alteration Pathway Pathophysiologic Outcome
JAK2; Fusion with KHDRBS1, PCM1, or TFG JAK-STAT Constitutive activation leading to cytokine-independent cell survival and proliferation. Overactivation of signaling pathways due to self-oligo/dimerization of the chimeric proteins.
SH2B3; Deletion JAK-STAT Loss of negative feedback regulation on JAK2 signaling, resulting in enhanced JAK2 pathway activation.
PTPRC; Deletion JAK-STAT Disruption of negative regulation of the JAK-STAT pathway, contributing to overactivation of JAK2 signaling.
STAT3; SNV JAK-STAT Gain-of-function mutations resulting in enhanced signaling and cell survival.
STAT5; SNV JAK-STAT Gain-of-function mutations leading to overactivation of the pathway, promoting cell proliferation.
MYC; Fusions (ACTB-MYC, NPM1-MYC) Cell Cycle Regulation Dysregulation of cell cycle processes, contributing to uncontrolled cell proliferation.
CDKN2A/B; Deletions Cell Cycle Regulation Inactivation of tumor suppressor genes leading to disruptions in cell cycle control.
TP53; Truncating Mutations (nonsense, frameshift) Cell Cycle Regulation Loss of p53 function leading to impaired DNA repair and increased genomic instability.
ARID1A; Deletions Chromatin Regulation Loss of chromatin remodeling activity affecting gene expression and cell growth regulation.
KMT2D; Truncating Mutations Chromatin Regulation Disruption in histone methylation, affecting gene expression and cell differentiation.
NCOR1; Truncating Mutations Chromatin Regulation Loss of corepressor function, leading to altered gene expression and potentially contributing to oncogenesis.[11]

Genetic Diagnostic Testing Methods

Fluorescence In Situ Hybridization (FISH): Detects chromosomal rearrangements and specific gene fusions, such as JAK2 fusions.

Polymerase Chain Reaction (PCR): Amplifies specific regions of DNA to identify genetic alterations, including gene fusions and specific mutations.

Next-Generation Sequencing (NGS): Identifies pathogenic small-scale mutations (SNVs and INDELs) and structural alterations. NGS can analyze multiple genes and pathways simultaneously, which is useful for comprehensive genetic profiling.[11]

Familial Forms

Unknown

Additional Information

PCAETL has an aggressive clinical course, with a median survival time of 12 months. The prognosis is similar regardless of whether the morphology is small or large cell, or whether the lesions are localized or diffuse.[2]

Links

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References

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  1. 1.0 1.1 1.2 1.3 Berti, E.; et al. (1999-08). "Primary cutaneous CD8-positive epidermotropic cytotoxic T cell lymphomas. A distinct clinicopathological entity with an aggressive clinical behavior". The American Journal of Pathology. 155 (2): 483–492. doi:10.1016/S0002-9440(10)65144-9. ISSN 0002-9440. PMC 1866866. PMID 10433941. Check date values in: |date= (help)
  2. 2.0 2.1 2.2 2.3 Guitart, Joan; et al. (2017-05). "Primary cutaneous aggressive epidermotropic cytotoxic T-cell lymphomas: reappraisal of a provisional entity in the 2016 WHO classification of cutaneous lymphomas". Modern Pathology: An Official Journal of the United States and Canadian Academy of Pathology, Inc. 30 (5): 761–772. doi:10.1038/modpathol.2016.240. ISSN 1530-0285. PMC 5413429. PMID 28128277. Check date values in: |date= (help)
  3. 3.0 3.1 3.2 3.3 3.4 Robson, Alistair; et al. (2015-10). "Aggressive epidermotropic cutaneous CD8+ lymphoma: a cutaneous lymphoma with distinct clinical and pathological features. Report of an EORTC Cutaneous Lymphoma Task Force Workshop". Histopathology. 67 (4): 425–441. doi:10.1111/his.12371. ISSN 1365-2559. PMID 24438036. Check date values in: |date= (help)
  4. Travassos, Daphine Caxias; et al. (2022-06). "Primary cutaneous CD8+ cytotoxic T-cell lymphoma of the face with intraoral involvement, resulting in facial nerve palsy after chemotherapy". Journal of Cutaneous Pathology. 49 (6): 560–564. doi:10.1111/cup.14199. ISSN 1600-0560. PMID 35001425 Check |pmid= value (help). Check date values in: |date= (help)
  5. Saruta, Hiroshi; et al. (2017-09). "Hematopoietic stem cell transplantation in advanced cutaneous T-cell lymphoma". The Journal of Dermatology. 44 (9): 1038–1042. doi:10.1111/1346-8138.13848. ISSN 1346-8138. PMID 28391645. Check date values in: |date= (help)
  6. 6.0 6.1 Nofal, Ahmad; et al. (2012-10). "Primary cutaneous aggressive epidermotropic CD8+ T-cell lymphoma: proposed diagnostic criteria and therapeutic evaluation". Journal of the American Academy of Dermatology. 67 (4): 748–759. doi:10.1016/j.jaad.2011.07.043. ISSN 1097-6787. PMID 22226429. Check date values in: |date= (help)
  7. Deenen, N. J.; et al. (2019-02). "Pitfalls in diagnosing primary cutaneous aggressive epidermotropic CD8+ T-cell lymphoma". The British Journal of Dermatology. 180 (2): 411–412. doi:10.1111/bjd.17252. ISSN 1365-2133. PMID 30259963. Check date values in: |date= (help)
  8. Willemze, Rein; et al. (2005-05-15). "WHO-EORTC classification for cutaneous lymphomas". Blood. 105 (10): 3768–3785. doi:10.1182/blood-2004-09-3502. ISSN 0006-4971. PMID 15692063.
  9. Lee, Katie; et al. (2021-12-09). "Primary cytotoxic T-cell lymphomas harbor recurrent targetable alterations in the JAK-STAT pathway". Blood. 138 (23): 2435–2440. doi:10.1182/blood.2021012536. ISSN 1528-0020. PMC 8662071 Check |pmc= value (help). PMID 34432866 Check |pmid= value (help).
  10. 10.00 10.01 10.02 10.03 10.04 10.05 10.06 10.07 10.08 10.09 10.10 10.11 10.12 10.13 10.14 10.15 10.16 10.17 10.18 10.19 10.20 10.21 10.22 10.23 Fanoni, Daniele; et al. (2018-12). "Array-based CGH of primary cutaneous CD8+ aggressive EPIDERMO-tropic cytotoxic T-cell lymphoma". Genes, Chromosomes & Cancer. 57 (12): 622–629. doi:10.1002/gcc.22673. ISSN 1098-2264. PMID 30307677. Check date values in: |date= (help)
  11. 11.00 11.01 11.02 11.03 11.04 11.05 11.06 11.07 11.08 11.09 11.10 11.11 11.12 11.13 11.14 11.15 11.16 11.17 11.18 11.19 Bastidas Torres, Armando N.; et al. (2022-03-01). "Deregulation of JAK2 signaling underlies primary cutaneous CD8+ aggressive epidermotropic cytotoxic T-cell lymphoma". Haematologica. 107 (3): 702–714. doi:10.3324/haematol.2020.274506. ISSN 1592-8721. PMC 8883537 Check |pmc= value (help). PMID 33792220 Check |pmid= value (help).

EXAMPLE Book

  1. Arber DA, et al., (2017). Acute myeloid leukaemia with recurrent genetic abnormalities, in World Health Organization Classification of Tumours of Haematopoietic and Lymphoid Tissues, Revised 4th edition. Swerdlow SH, Campo E, Harris NL, Jaffe ES, Pileri SA, Stein H, Thiele J, Arber DA, Hasserjian RP, Le Beau MM, Orazi A, and Siebert R, Editors. IARC Press: Lyon, France, p129-171.

Notes

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