nach oben

Erschienen in:

22.10.2020 | Original Article

Developmental Adaptive Immune Defects Associated with STAT5B Deficiency in Three Young Siblings

verfasst von: Corinne L. Foley, Sareea S. Al Remeithi, Christopher T. Towe, Andrew Dauber, Philippe F. Backeljauw, Leah Tyzinski, Ashish R. Kumar, Vivian Hwa

Erschienen in: Journal of Clinical Immunology | Ausgabe 1/2021

Einloggen, um Zugang zu erhalten

Abstract

Patients with rare homozygous mutations in signal transducer and activator of transcription 5B (STAT5B) develop immunodeficiency resulting in chronic eczema, chronic infections, autoimmunity, and chronic lung disease. STAT5B-deficient patients are typically diagnosed in the teenage years, limiting our understanding of the development of associated phenotypic immune abnormalities. We report the first detailed chronological account of post-natal immune dysfunction associated with STAT5B deficiency in humans. Annual immunophenotyping of three siblings carrying a novel homozygous nonsense mutation in STAT5B was carried out over 4 years between the ages of 7 months to 8 years. All three siblings demonstrated consistent B cell hyperactivity including elevated IgE levels and autoantibody production, associated with diagnoses of atopy and autoimmunity. Total T cell levels in each sibling remained normal, with regulatory T cells decreasing in the oldest sibling. Interestingly, a skewing toward memory T cells was identified, with the greatest changes in CD8⁺ effector memory T cells. These results suggest an importance of STAT5B in B cell function and naïve versus memory T cell survival. Progressive dysregulation of FOXP3⁺ regulatory T cells and CD8⁺ memory T cell subsets reveal a crucial role of STAT5B in T cell homeostasis. The early diagnosis and focused immune evaluations of these three young STAT5B-deficient siblings support an important role of STAT5B in adaptive immune development and function.

Nur mit Berechtigung zugänglich

Hwa V, Nadeau K, Wit JM, Rosenfeld RG. STAT5b deficiency: lessons from STAT5b gene mutations. Best Pract Res Clin Endocrinol Metab. 2011;25(1):61–75.CrossRef

Gouilleux F, Wakao H, Mundt M, Groner B. Prolactin induces phosphorylation of Tyr694 of Stat5 (MGF), a prerequisite for DNA binding and induction of transcription. EMBO J. 1994;13(18):4361–9.CrossRef

Waxman DJ, Ram PA, Park SH, Choi HK. Intermittent plasma growth hormone triggers tyrosine phosphorylation and nuclear translocation of a liver-expressed, Stat 5-related DNA binding protein. Proposed role as an intracellular regulator of male-specific liver gene transcription. J Biol Chem. 1995;270(22):13262–70.CrossRef

Wood TJ, Sliva D, Lobie PE, Pircher TJ, Gouilleux F, Wakao H, et al. Mediation of growth hormone-dependent transcriptional activation by mammary gland factor/Stat 5. J Biol Chem. 1995;270(16):9448–53.CrossRef

Hou J, Schindler U, Henzel WJ, Wong SC, McKnight SL. Identification and purification of human Stat proteins activated in response to interleukin-2. Immunity. 1995;2(4):321–9.CrossRef

Lin J-X, Migone T-S, Tseng M, Friedmann M, Weatherbee JA, Zhou L, et al. The role of shared receptor motifs and common stat proteins in the generation of cytokine pleiotropy and redundancy by IL-2, IL-4, IL-7, IL-13, and IL-15. Immunity. 1995;2(4):331–9.CrossRef

Wakao H, Harada N, Kitamura T, Mui AL, Miyajima A. Interleukin 2 and erythropoietin activate STAT5/MGF via distinct pathways. EMBO J. 1995;14(11):2527–35.CrossRef

Mui AL, Wakao H, O’Farrell AM, Harada N, Miyajima A. Interleukin-3, granulocyte-macrophage colony stimulating factor and interleukin-5 transduce signals through two STAT5 homologs. EMBO J. 1995;14(6):1166–75.CrossRef

Schmitt-Ney M, Doppler W, Ball RK, Groner B. Beta-casein gene promoter activity is regulated by the hormone-mediated relief of transcriptional repression and a mammary-gland-specific nuclear factor. Mol Cell Biol. 1991;11(7):3745–55.CrossRef

10.

Wakao H, Gouilleux F, Groner B. Mammary gland factor (MGF) is a novel member of the cytokine regulated transcription factor gene family and confers the prolactin response. EMBO J. 1994;13(9):2182–91.CrossRef

11.

Imada K, Bloom ET, Nakajima H, Horvath-Arcidiacono JA, Udy GB, Davey HW, et al. Stat5b is essential for natural killer cell–mediated proliferation and cytolytic activity. J Exp Med. 1998;188(11):2067–74.CrossRef

12.

Udy GB, Towers RP, Snell RG, Wilkins RJ, Park S-H, Ram PA, et al. Requirement of STAT5b for sexual dimorphism of body growth rates and liver gene expression. Proc Natl Acad Sci U S A. 1997;94(14):7239–44.CrossRef

13.

Teglund S, McKay C, Schuetz E, van Deursen JM, Stravopodis D, Wang D, et al. Stat5a and Stat5b proteins have essential and nonessential, or redundant,Roles in Cytokine Responses. Cell. 1998;93(5):841–50.CrossRef

14.

Hwa V, Camacho-Hübner C, Little BM, David A, Metherell LA, El-Khatib N, et al. Growth hormone insensitivity and severe short stature in siblings: a novel mutation at the Exon 13-Intron 13 Junction of the <i>STAT5b</i> Gene. Horm Res Paediatr. 2007;68(5):218–24.CrossRef

15.

Bezrodnik L, Giovanni DD, Caldirola MS, Azcoiti ME, Torgerson T, Gaillard MI. Long-term follow-up of STAT5B deficiency in three Argentinian patients: clinical and immunological features. J Clin Immunol. 2015;35(3):264–72.CrossRef

16.

Pugliese-Pires PN, Tonelli CA, Dora JM, Silva PCA, Czepielewski M, Simoni G, et al. A novel STAT5B mutation causing GH insensitivity syndrome associated with hyperprolactinemia and immune dysfunction in two male siblings. Eur J Endocrinol. 2010;163(2):349–55.CrossRef

17.

Nadeau K, Hwa V, Rosenfeld RG. STAT5b deficiency: an unsuspected cause of growth failure, immunodeficiency, and severe pulmonary disease. J Pediatr. 2011;158(5):701–8.CrossRef

18.

Kanai T, Jenks J, Nadeau KC. The STAT5b pathway defect and autoimmunity. Front Immunol. 2012 [cited 2016 Jul 13];3. Available from: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3418548/

19.

Acres MJ, Gothe F, Grainger A, Skelton AJ, Swan DJ, Willet JDP, et al. STAT5B deficiency due to a novel missense mutation in the coiled-coil domain. J Allergy Clin Immunol. 2018 [cited 2018 Sep 13]; Available from: http://www.sciencedirect.com/science/article/pii/S0091674918312806

20.

Hwa V, Little B, Kofoed EM, Rosenfeld RG. Transcriptional regulation of insulin-like growth factor-I by interferon-gamma requires STAT-5b. J Biol Chem. 2004 Jan 23;279(4):2728–36.CrossRef

21.

Maamra M, Finidori J, Laue SV, Simon S, Justice S, Webster J, et al. Studies with a growth hormone antagonist and dual-fluorescent confocal microscopy demonstrate that the full-length human growth hormone receptor, but not the truncated isoform, is very rapidly internalized independent of Jak2-Stat5 signaling. J Biol Chem. 1999;274(21):14791–8.CrossRef

22.

Klammt J, Neumann D, Gevers EF, Andrew SF, Schwartz ID, Rockstroh D, et al. Dominant-negative STAT5B mutations cause growth hormone insensitivity with short stature and mild immune dysregulation. Nat Commun. 2018 [cited 2019 Feb 20];9(1). Available from: http://www.nature.com/articles/s41467-018-04521-0

23.

Kofoed EM, Hwa V, Little B, Woods KA, Buckway CK, Tsubaki J, et al. Growth hormone insensitivity associated with a STAT5b mutation. N Engl J Med. 2003;349(12):1139–47.CrossRef

24.

Levy DE, Darnell JE. STATs: transcriptional control and biological impact. Nat Rev Mol Cell Biol. 2002;3(9):651–62.CrossRef

25.

Bernasconi A, Marino R, Ribas A, Rossi J, Ciaccio M, Oleastro M, et al. Characterization of immunodeficiency in a patient with growth hormone insensitivity secondary to a novel STAT5b gene mutation. Pediatrics. 2006;118(5):e1584–92.CrossRef

26.

Hwa V. STAT5B deficiency: impacts on human growth and immunity. Growth Hormon IGF Res. 2016 Jun;28:16–20.CrossRef

27.

Hwa V, Little B, Adiyaman P, Kofoed EM, Pratt KL, Ocal G, et al. Severe growth hormone insensitivity resulting from total absence of signal transducer and activator of transcription 5b. J Clin Endocrinol Metab. 2005;90(7):4260–6.CrossRef

28.

Vargas-Hernández A, Witalisz-Siepracka A, Prchal-Murphy M, Klein K, Mahapatra S, Al-Herz W, et al. Human signal transducer and activator of transcription 5b (STAT5b) mutation causes dysregulated human natural killer cell maturation and impaired lytic function. J Allergy Clin Immunol. 2020;145(1):345–357.e9.CrossRef

29.

Kelly J, Spolski R, Imada K, Bollenbacher J, Lee S, Leonard WJ. A role for Stat5 in CD8+ T cell homeostasis. J Immunol. 2003;170(1):210–7.CrossRef

30.

Yao Z, Cui Y, Watford WT, Bream JH, Yamaoka K, Hissong BD, et al. Stat5a/b are essential for normal lymphoid development and differentiation. Proc Natl Acad Sci U S A. 2006;103(4):1000–5.CrossRef

31.

Kanai T, Seki S, Jenks JA, Kohli A, Kawli T, Martin DP, et al. Identification of STAT5A and STAT5B target genes in human T cells. PLoS ONE. 2014 [cited 2016 Jul 18];9(1). Available from: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3907443/

32.

Jenks JA, Seki S, Kanai T, Huang J, Morgan AA, Scalco RC, et al. Differentiating the roles of STAT5B and STAT5A in human CD4+ T cells. Clin Immunol Orlando Fla. 2013;148(2):227–36.CrossRef

33.

Antov A, Yang L, Vig M, Baltimore D, Parijs LV. Essential role for STAT5 signaling in CD25+CD4+ regulatory T cell homeostasis and the maintenance of self-tolerance. J Immunol. 2003;171(7):3435–41.CrossRef

34.

Yao Z, Kanno Y, Kerenyi M, Stephens G, Durant L, Watford WT, et al. Nonredundant roles for Stat5a/b in directly regulating Foxp3. Blood. 2007;109(10):4368–75.CrossRef

35.

Johnston RJ, Choi YS, Diamond JA, Yang JA, Crotty S. STAT5 is a potent negative regulator of TFH cell differentiation. J Exp Med. 2012;209(2):243–50.CrossRef

36.

Villarino A, Laurence A, Robinson GW, Bonelli M, Dema B, Afzali B, et al. Signal transducer and activator of transcription 5 (STAT5) paralog dose governs T cell effector and regulatory functions. eLife. 5. Available from: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4856466/

37.

Kurata I, Matsumoto I, Sumida T. T follicular helper cell subsets: a potential key player in autoimmunity. Immunol Med 2020;0(0):1–9.

38.

Behbod F, Nagy ZS, Stepkowski SM, Karras J, Johnson CR, Jarvis WD, et al. Specific inhibition of Stat5a/b promotes apoptosis of IL-2-responsive primary and tumor-derived lymphoid cells. J Immunol. 2003;171(8):3919–27.CrossRef

39.

Tripathi P, Kurtulus S, Wojciechowski S, Sholl A, Hoebe K, Morris SC, et al. STAT5 is critical to maintain effector CD8+ T cell responses. J Immunol. 2010;185(4):2116–24.CrossRef

40.

Xu L, Kitani A, Strober W. Molecular mechanisms regulating TGF-β-induced Foxp3 expression. Mucosal Immunol [Internet]. 2010 [cited 2017 Jun 16]; Available from: http://www.nature.com/mi/journal/vaop/ncurrent/full/mi20107a.html

41.

Gao Y, Lin F, Su J, Gao Z, Li Y, Yang J, et al. Molecular mechanisms underlying the regulation and functional plasticity of FOXP3+ regulatory T cells. Genes Immun. 2012;13(1):1–13.CrossRef

42.

Boyman O, Létourneau S, Krieg C, Sprent J. Homeostatic proliferation and survival of naïve and memory T cells. Eur J Immunol. 2009;39(8):2088–94.CrossRef

43.

Sprent J, Surh CD. Normal T cell homeostasis: the conversion of naive cells into memory-phenotype cells. Nat Immunol. 2011;12(6):478–84.CrossRef

44.

Willinger T, Freeman T, Hasegawa H, McMichael AJ, Callan MFC. Molecular signatures distinguish human central memory from effector memory CD8 T cell subsets. J Immunol. 2005;175(9):5895–903.CrossRef

45.

Hand TW, Cui W, Jung YW, Sefik E, Joshi NS, Chandele A, et al. Differential effects of STAT5 and PI3K/AKT signaling on effector and memory CD8 T-cell survival. Proc Natl Acad Sci. 2010;107(38):16601–6.CrossRef

46.

Grange M, Giordano M, Mas A, Roncagalli R, Firaguay G, Nunes JA, et al. Control of CD8 T cell proliferation and terminal differentiation by active STAT5 and CDKN2A/CDKN2B. Immunology. 2015;145(4):543–57.CrossRef

Titel: Developmental Adaptive Immune Defects Associated with STAT5B Deficiency in Three Young Siblings
verfasst von: Corinne L. Foley
Sareea S. Al Remeithi
Christopher T. Towe
Andrew Dauber
Philippe F. Backeljauw
Leah Tyzinski
Ashish R. Kumar
Vivian Hwa
Publikationsdatum: 22.10.2020
Verlag: Springer US
Erschienen in: Journal of Clinical Immunology / Ausgabe 1/2021
Print ISSN: 0271-9142
Elektronische ISSN: 1573-2592
DOI: https://doi.org/10.1007/s10875-020-00884-6

Leitlinien kompakt für die Innere Medizin

Mit medbee Pocketcards sicher entscheiden.

^{Seit 2022 gehört die medbee GmbH zum Springer Medizin Verlag}

Kostenlos registrieren

Neu im Fachgebiet Innere Medizin

19.04.2024 | Vorhofflimmern | Nachrichten

Update Innere Medizin

Bestellen Sie unseren Fach-Newsletter und bleiben Sie gut informiert.

Newsletter bestellen

Live-Webinar: Aktuelle Leitlinien bei Herz-Kreislauf-Erkrankungen

Springer Medizin

Developmental Adaptive Immune Defects Associated with STAT5B Deficiency in Three Young Siblings

Abstract

Leitlinien kompakt für die Innere Medizin

Neu im Fachgebiet Innere Medizin

Parodontalbehandlung verbessert Prognose bei Katheterablation

Prostatakarzinom: EU initiiert neues Screeningkonzept

Blasenkarzinom – Biomarker statt Zytologie?

Antihypertensiva schützen auch alte Menschen noch vor Demenz

Update Innere Medizin

Live-Webinar: Aktuelle Leitlinien bei Herz-Kreislauf-Erkrankungen

Springer Medizin

Abstract

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Weitere Artikel der Ausgabe 1/2021

IKAROS-Associated Diseases in 2020: Genotypes, Phenotypes, and Outcomes in Primary Immune Deficiency/Inborn Errors of Immunity

Bacillus Calmette–Guerin (BCG) Vaccine-associated Complications in Immunodeficient Patients Following Stem Cell Transplantation

Parents’ Perspectives and Societal Acceptance of Implementation of Newborn Screening for SCID in the Netherlands

Deforming Polyarthritis in a North Indian Family—Clinical Expansion of STING-Associated Vasculopathy with Onset in Infancy (SAVI)

POLD1 Deficiency Reveals a Role for POLD1 in DNA Repair and T and B Cell Development

Infections in Infants with SCID: Isolation, Infection Screening, and Prophylaxis in PIDTC Centers

Leitlinien kompakt für die Innere Medizin

Neu im Fachgebiet Innere Medizin

Parodontalbehandlung verbessert Prognose bei Katheterablation

Prostatakarzinom: EU initiiert neues Screeningkonzept

Blasenkarzinom – Biomarker statt Zytologie?

Antihypertensiva schützen auch alte Menschen noch vor Demenz

Update Innere Medizin