Associate Investigators · Investigators

Dr. Laura Gámez-Díaz

Junior Group Leader

Dr. Laura Gámez-Díaz

Contact

Dr. Laura Gámez-Díaz
Center for Chronic Immunodeficiency, University Medical Center Freiburg


laura.gamez(at)uniklinik-freiburg.de

Further Information

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Research

We investigate the molecular mechanisms linking autophagy and cytoskeleton dynamics with human immune responses, specifically in the context of monogenetic immunodeficiencies and immunodysregulation disorders, as well as in cancer. Our long-term goal is to identify new targets for the diagnosis and treatment of these diseases.

Autophagy - the major waste disposal and recycling system of the cells - ensures the proper functioning of several immune processes, including pathogen recognition, antigen processing and presentation, lymphocyte development and effector function, cell metabolism and inflammatory regulation. Dysfunctional autophagy has been implicated in numerous autoimmune diseases, including inflammatory bowel diseases.

Moreover, essential immune response processes such as cell migration, adhesion, division, vesicle trafficking, and cellular transduction rely on a finely tuned actin cytoskeleton dynamics, involving the assembly and disassembly of actin filaments. Human immune disorders caused by deleterious mutations in actin regulatory genes are known as actinopathies.

In particular, we study three disease models:

  • LRBA deficiency, an immunodeficiency and immunodysregulation syndrome caused by abolishing biallelic mutations in LRBA. LRBA is linked to the trafficking of CTLA4-containing vesicles in regulatory T cells. Moreover, previous data from our group identified a novel role of LRBA in antigen processing and presentation via autophagy (Sindram E et al., BioRXIV).
  • CTLA-4 insufficiency, caused by heterozygous germline mutations in CTLA-4. It is a complex immune dysregulation and immunodeficiency syndrome presenting with reduced penetrance and variable disease expressivity, suggesting the presence of additional disease modifiers that trigger the disease onset and severity.
  • Colorectal cancer, is the fourth most common cancer in the world. Autophagy has been shown to inhibit the tumor development at early stages through multiple immune-related mechanisms.

Keywords:

Autophagy, cytoskeleton, immunodeficiency, immunedysregulation, cell metabolism, LRBA, CTLA4, colorectal cancer.

10 selected publications

  • FIP200 Phosphorylation Regulates Late Steps in Mitophagy. Eickhorst C, Babic R, Rush-Kittle J, Lucya L, Lami Imam F, Sánchez-Martín P, Hollenstein D, Michaelis J, Münch C, Meisinger C, Slade D, Gámez-Díaz L*, Kraft C*. (2024). J Mol Biol. doi: 10.1016/j.jmb.2024.168631 (*corresponding)
  • LRBA balances antigen presentation and T-cell responses by facilitating autophagy through the binding to PIK3R4 and FYCO1. Sindram E, Deau MC, Ligeon LA, Sanchez-Martin P, Nestel S, Jung S, Ruf S, Mishra P, Proietti M, Günther S, Thedieck K, Roussa E, Rambold A, Münz C, Kraft C, Grimbacher B and Gámez-Díaz L (2024). bioRxiv. doi.org/10.1101/2022.10.17.512524
  • Functional Relevance of CTLA4 Variants: An Upgraded Approach to Asses CTLA4-Dependent Transendocytosis by Flow Cytometry. Rojas-Restrepo J, Sindram E, Zenke S, Haberstroh H, Mitsuiki N, Gabrysch AM, Huebscher K, Posadas-Cantera S, Krausz M, Kobbe R, Rohr J, Grimbacher B* and Gámez-Díaz L* (2023) J. Clin. Immunol. doi: 10.1007/s10875-023-01582-9 (*corresponding
  • ARPC5 deficiency leads to severe early-onset systemic inflammation and mortality. Sindram E, Caballero-Oteyza A, Kogata N, Allizadeh Z, Gámez-Díaz L, Reza-Fazlollhi M, Peng X, Grimbacher B, Way M, Proietti M. (2023) Dis Mod Mech. , doi: 10.1242/dmm.050145
  • Do common infections trigger disease-onset or -severity in CTLA-4 insufficiency? Krausz M, Mitsuiki N, Falcone V, Komp J, Posadas-Cantera S, Lorenz HM, Litzman J, Wolff D, Kanariou M, Heinkele A, Speckmann C, Häcker G, Hengel H, Gámez-Díaz L, Grimbacher B. (2022) Front Immunol. doi: 10.3389/fimmu.2022.1011646
  • Refractory autoimmune gastritis responsive to abatacept in LRBA deficiency. Boz V, Valencic E, Girardelli M, Pin A, Gámez-Díaz L, Tommasini A, Lega S, Bramuzzo M. (2021). Front Immunol. doi: 10.3389/fimmu.2021.619246
  • Genetic Analysis of a Cohort of 275 Patients with Hyper-IgE Syndromes and/or Chronic Mucocutaneous Candidiasis. Frede N, Rojas-Restrepo J, Caballero Garcia de Oteyza A, Buchta M, Hübscher K, Gámez-Díaz L, Proietti M, Saghafi S, Chavoshzadeh Z, Soler-Palacin P, Galal N, Adeli M, Aldave-Becerra JC, Al-Ddafari MS, Ardenyz Ö, Atkinson TP, Kut FB, Çelmeli F, Rees H, Kilic SS, Kirovski I, Klein C, Kobbe R, Korganow AS, Lilic D, Lunt P, Makwana N, Metin A, Özgür TT, Karakas AA, Seneviratne S, Sherkat R, Sousa AB, Unal E, Patiroglu T, Wahn V, von Bernuth H, Whiteford M, Doffinger R, Jouhadi Z, Grimbacher B. (2021). J Clin Immunol. doi: 10.1007/s10875-021-01086-4
  • Rapid flow cytometry-based test for the diagnosis of LRBA deficiency. Gámez-Díaz L, Sigmund E*, Reiser V*, Vach W, Jung S, Grimbacher B. (2018). Front Immunol. doi: 10.3389/fimmu.2018.0072
  • Immunological phenotype of the murine Lrba knockout. Gámez-Díaz L, Neumann J, Jäger F, Proietti M, Felber F, Soulas-Sprauel P, Perruzza L, Grassi F, Kögl T, Aichele P, Kilimann M, Grimbacher B* and Jung S (2017). Immunol Cell Biol. doi: 10.1038/icb.2017.52
  • The extended phenotype of LPS-responsive beige-like anchor protein (LRBA) deficiency. Gámez-Díaz L, August D, Stepensky P, Revel-Vilk S, Seidel MG, Noriko M, Morio T, Worth AJ, Blessing J, Van de Veerdonk F, Feuchtinger T, Kanariou M, Schmitt-Graeff A, Jung S, Seneviratne S, Burns S, Belohradsky BH, Rezaei N, Bakhtiar S, Speckmann C, Jordan M, Grimbacher B. (2016). J Allergy Clin Immunol. doi: 10.1016/j.jaci.2015.09.025.