Sezary syndrome

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Haematolymphoid Tumours (5th ed.)

editHAEM5 Conversion Notes
This page was converted to the new template on 2023-12-07. The original page can be found at HAEM4:Sézary Syndrome.

Primary Author(s)*

Madison E. Hannay, DO, Medical University of South Carolina

Tingting Barrett, MD, Medical University of South Carolina

Daynna J. Wolff, PhD, Medical University of South Carolina

Cancer Category / Type

Mature T-cell neoplasm / Cutaneous T-cell lymphoma

Cancer Sub-Classification / Subtype

Sézary syndrome

Definition / Description of Disease

Triad of erythroderma, generalized lymphadenopathy, and clonal neoplastic T lymphocytes with cerebriform nuclei (Sézary cells) in the skin, lymph nodes, and peripheral blood.

To diagnose Sézary syndrome (SS), one or more of the following criteria are required: an absolute Sézary cell count ≥ 1000/µL, an expanded CD4+ T-cell population resulting in a CD4:CD8 ratio of ≥10, and loss of one or more T-cell antigens[1].

Synonyms / Terminology

Sézary disease

Epidemiology / Prevalence

Rare; accounts for <5% of all cutaneous T-cell lymphomas.  SS characteristically occurs in adult patients aged >60 years and has a male predominance[1]. The prevalence is approximately 0.3 cases per 100,000 people[2]. Incidence is greater in black patients compared with white patients (roughly 50%). Childhood cases have also been reported[3].

Clinical Features

Put your text here and fill in the table (Instruction: Can include references in the table)

Signs and Symptoms EXAMPLE Asymptomatic (incidental finding on complete blood counts)

EXAMPLE B-symptoms (weight loss, fever, night sweats)

EXAMPLE Fatigue

EXAMPLE Lymphadenopathy (uncommon)

Laboratory Findings EXAMPLE Cytopenias

EXAMPLE Lymphocytosis (low level)


editv4:Clinical Features
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Erythroderma and generalized lymphadenopathy developing over weeks to months. Scaling is commonly found on the patch and plaque lesions. The lesions are usually located in areas infrequently exposed to sunlight[3]. Pruritis is the most commonly reported symptom[4]. Other features include alopecia, ectropion, palmar or plantar hyperkeratosis, and onychodystrophy.

An increased prevalence of secondary cutaneous and systemic malignancies has been reported in SS, likely a result of the hypogammaglobulinemia associated with the skewed T-cell ratio and loss of normal circulating CD4+ T-cells [1].  

Sites of Involvement

Skin, lymph nodes, and peripheral blood.  In advanced stages, SS can involve any visceral organ, most commonly the oropharynx, lungs, and CNS.  Bone marrow involvement is variable[1].

Morphologic Features

Histologic features in the skin overlap with mycosis fungoides (MF).  The atypical T-cell infiltrate in SS may be more monotonous with variable epidermotropism; up to one third of skin biopsies may only show nonspecific changes.

The lymph nodes involved by SS show architectural effacement with a dense population of monotonous (Sézary) cells[1].

Circulating atypical, cerebriform mononuclear (Sézary) cells are seen on examination of peripheral blood[4].

Immunophenotype

The clonal T lymphocytes (Sézary cells) are CD3+, CD4+, CD45(CLA)+ and CD8-.  They lack CD7 and CD26.  Almost all cases express PD1 (CD279), CCR4, and CCR7.

Peripheral blood flow cytometry shows a CD4+/CD7- (>30%) or CD4+/CD26- (>40%) T-cell population[1].

Finding Marker
Positive (universal) CD3, CD4, CD45 (CLA), PD1 (CD279), CCR4, CCR7
Positive (subset)
Negative (universal) CD8, CD7, CD26
Negative (subset)

Chromosomal Rearrangements (Gene Fusions)

Put your text here and fill in the table

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
EXAMPLE t(9;22)(q34;q11.2) EXAMPLE 3'ABL1 / 5'BCR EXAMPLE der(22) EXAMPLE 20% (COSMIC)

EXAMPLE 30% (add reference)

Yes No Yes EXAMPLE

The t(9;22) is diagnostic of CML in the appropriate morphology and clinical context (add reference). This fusion is responsive to targeted therapy such as Imatinib (Gleevec) (add reference).


editv4:Chromosomal Rearrangements (Gene Fusions)
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Clonal T cell receptor gene (TCR) rearrangement is characteristic of SS.  Characteristically, PLS3, DNM3, TWIST1, and EPHA4 are overexpressed, and STAT4 is underexpressed.

Balanced translocations have not been detected in SS[1].

Gene fusion between CTLA4 and CD28 is highly expressed. Additional fusion events include TYK2-UPF1, COL25A1-NFKB2, FASN-SGMS1, SMS1-ZEB1, SPATA21-RASA2, PITRM1-HK1, and BCR-NDUFAF6[2].


editv4:Clinical Significance (Diagnosis, Prognosis and Therapeutic Implications).
Please incorporate this section into the relevant tables found in:
  • Chromosomal Rearrangements (Gene Fusions)
  • Individual Region Genomic Gain/Loss/LOH
  • Characteristic Chromosomal Patterns
  • Gene Mutations (SNV/INDEL)

SS is aggressive; however, prognosis is variable and largely depends on stage.  A median survival of 32 months and a 5-year survival rate of 10-30% has been reported [1].  Death usually results from opportunistic infections, as SS patients are at an increased risk for infection due to underlying immune dysfunction[4]. Lymph node and visceral involvement are poor prognostic factors, as is the degree of peripheral blood involvement by Sézary cells.  Bone marrow involvement is of unknown prognostic relevance [1].  

Individual Region Genomic Gain / Loss / LOH

Put your text here and fill in the table (Instructions: Includes aberrations not involving gene fusions. Can include references in the table. Can refer to CGC workgroup tables as linked on the homepage if applicable.)

Chr # Gain / Loss / Amp / LOH Minimal Region Genomic Coordinates [Genome Build] Minimal Region Cytoband Diagnostic Significance (Yes, No or Unknown) Prognostic Significance (Yes, No or Unknown) Therapeutic Significance (Yes, No or Unknown) Notes
EXAMPLE

7

EXAMPLE Loss EXAMPLE

chr7:1- 159,335,973 [hg38]

EXAMPLE

chr7

Yes Yes No EXAMPLE

Presence of monosomy 7 (or 7q deletion) is sufficient for a diagnosis of AML with MDS-related changes when there is ≥20% blasts and no prior therapy (add reference).  Monosomy 7/7q deletion is associated with a poor prognosis in AML (add reference).

EXAMPLE

8

EXAMPLE Gain EXAMPLE

chr8:1-145,138,636 [hg38]

EXAMPLE

chr8

No No No EXAMPLE

Common recurrent secondary finding for t(8;21) (add reference).

editv4:Genomic Gain/Loss/LOH
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Recurrent gain-of-function mutations in SS include PLGC1, CD28, and TNFRSF1B. Recurrent loss-of-function mutations include ARID1A, which has been observed in 40% of SS cases[1].

Somatic duplications can be found ranging from duplications of chromosome bands (8p23.3-q24.3, 17p11.2-q23.2) to entire chromosomes (chr 18). Several somatic deletions have also been demonstrated including a 15-25 Mb deletion on 17p12-p13.3[2].

Characteristic Chromosomal Patterns

Put your text here (EXAMPLE PATTERNS: hyperdiploid; gain of odd number chromosomes including typically chromosome 1, 3, 5, 7, 11, and 17; co-deletion of 1p and 19q; complex karyotypes without characteristic genetic findings; chromothripsis)

Chromosomal Pattern Diagnostic Significance (Yes, No or Unknown) Prognostic Significance (Yes, No or Unknown) Therapeutic Significance (Yes, No or Unknown) Notes
EXAMPLE

Co-deletion of 1p and 18q

Yes No No EXAMPLE:

See chromosomal rearrangements table as this pattern is due to an unbalanced derivative translocation associated with oligodendroglioma (add reference).

editv4:Characteristic Chromosomal Aberrations / Patterns
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Numerical and structural alterations are common in SS.  These include loss of 1p, 6q, and 10q with gains of 7 and 8q[5][1].  Isochromosome 17q is a recurrent finding in SS[1].

Deletions are often associated with loss of tumor suppressor genes such as recurrent deletions involving 17p13.1 (TP53), 13q14.2 (RB1), 10q23.3 (PTEN) and 12p13.1 (CDKN1B). Focal chromosome 2p23.3 deletions (DNMT3A) were observed.[5]

Gene Mutations (SNV / INDEL)

Put your text here and fill in the table (Instructions: This table is not meant to be an exhaustive list; please include only genes/alterations that are recurrent and common as well either disease defining and/or clinically significant. Can include references in the table. For clinical significance, denote associations with FDA-approved therapy (not an extensive list of applicable drugs) and NCCN or other national guidelines if applicable; Can also refer to CGC workgroup tables as linked on the homepage if applicable as well as any high impact papers or reviews of gene mutations in this entity.)

Gene; Genetic Alteration Presumed Mechanism (Tumor Suppressor Gene [TSG] / Oncogene / Other) Prevalence (COSMIC / TCGA / 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
EXAMPLE: TP53; Variable LOF mutations

EXAMPLE:

EGFR; Exon 20 mutations

EXAMPLE: BRAF; Activating mutations

EXAMPLE: TSG EXAMPLE: 20% (COSMIC)

EXAMPLE: 30% (add Reference)

EXAMPLE: IDH1 R123H EXAMPLE: EGFR amplification EXAMPLE:  Excludes hairy cell leukemia (HCL) (add reference).


Note: A more extensive list of mutations can be found in cBioportal (https://www.cbioportal.org/), COSMIC (https://cancer.sanger.ac.uk/cosmic), ICGC (https://dcc.icgc.org/) and/or other databases. When applicable, gene-specific pages within the CCGA site directly link to pertinent external content.


editv4:Gene Mutations (SNV/INDEL)
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The mutational landscape of Sezary syndrome is complex and over 1000 different gene mutations have been identified. Mutational signature characterized by C>T substitutions at NpCpG trinucleotides and C>A substitutions at CpCpN trinucleotides and C>T substitutions at CpCpN and TpCpN trinulceotides have been identified[5].

RHOA mutations have also been described in SS.  Mutations (including single nucleotide mutations and copy number variants) in the JAK/STAT pathway likely result in the constitutive activation of STAT3 in Sézary cells.  Inactivating mutations in TP53 and deletions of CDKN2A (p16INK4a) are frequent.  Mutations in DNMT3A have been reported in SS[1].

Mutations in epigenetic regulator genes including TET2, CREBPP, KMT2C (MLL3) histone H3 lysine 4 (H3K4) methyltransferase, WI/SNF, and NuRD chromatin-remodeling complexes have been demonstrated as well[5].

Recurrent mutations in TP53, ITPR1, DSC1 and PKHD1L1 are found in a cohort study by Prasad et al. The study found damaging mutations to ITPR1 in two Sezary Syndrome patients. ITPR1 mediates calcium release from the endoplasmic reticulum and may be functional partners with BCL2, which is an apoptosis suppressor.

Mutations in the p53, p15, p16, JunB, and PTEN genes are generally found in late-stage disease, suggesting that they are secondary genetic events after disease initiation[3].

Epigenomic Alterations

Hypermethylation and inactivation of genes involved in the FAS-dependent apoptotic pathway is frequently reported in SS[1].

Genes and Main Pathways Involved

Put your text here and fill in the table (Instructions: Can include references in the table.)

Gene; Genetic Alteration Pathway Pathophysiologic Outcome
EXAMPLE: BRAF and MAP2K1; Activating mutations EXAMPLE: MAPK signaling EXAMPLE: Increased cell growth and proliferation
EXAMPLE: CDKN2A; Inactivating mutations EXAMPLE: Cell cycle regulation EXAMPLE: Unregulated cell division
EXAMPLE:  KMT2C and ARID1A; Inactivating mutations EXAMPLE:  Histone modification, chromatin remodeling EXAMPLE:  Abnormal gene expression program
editv4:Genes and Main Pathways Involved
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Loss of Fas expression, which is involved in T-cell apoptotic pathways, has also been reported. Specifically, changes affecting the Fas ligand is seen in 50-83% of cases. Loss of Fas expression is seen in 14-59% of cases[3].

Genes involved in NF-kB signaling, chromatin remodeling, and DNA damage response have also been found to be altered. Notably, alterations to signaling pathways including Jak/signal transducer and activator of transcription (STAT) signaling and cell-cycle checkpoint have been shown to be involved in the pathogenesis[2].

Genetic Diagnostic Testing Methods

As discussed in the morphology section, histologically, a band-like lymphocytic infiltrate are often seen in the upper dermis. Epidermotropism of atypical T cells with small to normal size with irregular (cerebriform) nuclei is frequent. Pautrier microabscesses consisting of malignant T cells and dendritic cells can be a specific but insensitive sign.

Immunohistochemical staining generally shows atypical CD4+ T cells, or sometimes CD8+ T cells in children with mycosis fungoides. Loss of T cell antigens (CD2, CD3, CD5, CD7, CD26) may be seen. Clonal T-cell receptor rearrangement may be detected via PCR.

Flow cytometry can be used to identify potentially malignant subsets of T-cells as well as for quantifying treatment response[3].

Familial Forms


Additional Information


Links

Mycosis Fungoides

References

1. Arber DA, et al., (2017). Sézary syndrome, 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, p390-391.

2. Prasad et al. Identification of Gene Mutations and Fusion Genes in Patients with Sezary Syndrome. Journal of Investigative Dermatology (2016), volume 136.

3. Hwang ST, Janik JE, Jaffe ES, Wilson WH, (2008). Mycosis fungoides and Sezary syndrome, in Lancet. Vol 371, March 15 2008.

4. Rook, AH and Olsen, EA. Clinical presentation, pathologic features, and Diagnosis of Sézary syndrome. UpToDate. Uptodate.com. Last updated: June 24, 2020. Date accessed: January 29, 2021.

5. Almeida et al. The mutational landscape of cutaneous T cell lymphoma and Sezary Syndrome. Nature genetics. Volume 47. Number 12. December 2015.



  1. 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 1.11 1.12 1.13 1.     Arber DA, et al., (2017). Sézary syndrome, 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, p390-391.
  2. 2.0 2.1 2.2 2.3 Prasad, Aparna (2016). "Identification of Gene Mutations and Fusion Genes in Patients with Sezary Syndrome". Journal of Investigative Dermatology. 136.CS1 maint: display-authors (link)
  3. 3.0 3.1 3.2 3.3 3.4 Hwang, Sam (March 15, 2008). "Mycosis fungicides and Sezary syndrome". Lancet. 371.CS1 maint: display-authors (link)
  4. 4.0 4.1 4.2 1.     Rook, AH and Olsen, EA. Clinical presentation, pathologic features, and Diagnosis of Sézary syndrome. UpToDate. Uptodate.com. Last updated: June 24, 2020.  Date accessed: January 29, 2021.
  5. 5.0 5.1 5.2 5.3 Almeida, Ana (December 2015). "The mutational landscape of cutaneous T cell lymphoma and Sezary syndrome". Nature Genetics. 47.CS1 maint: display-authors (link)

Notes

*Primary authors will typically be those that initially create and complete the content of a page. If a subsequent user modifies the content and feels the effort put forth is of high enough significance to warrant listing in the authorship section, please contact the CCGA coordinators (contact information provided on the homepage). Additional global feedback or concerns are also welcome.


*Citation of this Page: “Sezary syndrome”. Compendium of Cancer Genome Aberrations (CCGA), Cancer Genomics Consortium (CGC), updated 12/7/2023, https://ccga.io/index.php/HAEM5:Sezary_syndrome.