Recherche et caractérisation par dynamique moléculaire d'états intermédiaires pour la complexation entre la protéine FKBP12 et des ligands de haute affinité / Study of building intermediate states between FKBP12 and high-affinity ligands by molecular dynamics simulations

Olivieri, Lilian

04 July 2012

FKBP12 est une protéine ubiquitaire, principalement cytosolique, qui est au carrefour de plusieurs voies signalétiques. Son abondance naturelle dans les tissus nerveux peut être reliée à son implication dans les maladies neurodégénératives telles que les maladies d'Alzheimer et de Parkinson ainsi que dans les neuropathies périphériques et diabétiques ou dans des blessures des cordons spinaux. De nombreuses études ont montré que des molécules exogènes (ligands) venant se fixer sur cette protéine permettent la régénération d'un grand nombre de connexions neuronales endommagées. Une difficulté provient cependant du fait que, pour un ligand donné, il n'existe aucune relation claire entre sa structure et sa capacité de liaison à FKBP12. Notre étude vise ainsi à rationaliser la relation entre la structure d'un ligand et son affinité pour cette protéine. Deux complexes modèles, formés entre FKBP12 et chacun des deux ligands 8 et 308, ont été utilisés. Ces deux ligands de haute affinité ont des structures différentes. Notre travail s'est appuyé sur des simulations de dynamique moléculaire pour caractériser l'état intermédiaire qui est formé transitoirement lors du processus de complexation entre la protéine et son ligand. Dans cet état particulier, l'identification des interactions naissantes entre les partenaires a permis (i) de comprendre l'implication des différentes parties du ligand dans le mécanisme de reconnaissance avec FKBP12 et (ii) de rationaliser les affinités de certains ligands apparentés. / FKBP12 is an ubiquitous, mostly cytosolic, protein found at the crossroads of several signaling pathways. Its natural abundance in the nervous tissues can be related to its implication in neurodegenerative diseases like Alzheimer's and Parkinson's as well as in peripheral neuropathies and diabetes or in injuries of the spinal cords. Several studies have demonstrated that exogenous molecules (ligands) that can bind to FKBP12 allow the regeneration of many damaged neuron connections. However, there is no clear relationship between the structure of a ligand and its ability to bind to FKBP12. Our study aims at rationalizing the relationship between the structure of a ligand and its affinity to FKBP12. Two model complexes, formed between FKBP12 and each of the two high-affinity ligands 8 and 308, were studied. These two ligands are structurally different. We used molecular dynamics simulations to characterize the intermediate state that is transiently formed during the binding process between the protein and its ligand. In this state, the analysis of the nascent interactions allowed (i) to unravel the role played by the various ligand moieties in the recognition process with FKBP12 and (ii) to rationalize the affinities of related ligands.

Fkbp12

État intermédiaire de complexation

Reconnaissance moléculaire

Interactions protéine-Ligand

Simulations de dynamique moléculaire

Ligand de haute affinité

Paramétrisation d’un champ de force

Calculs Hartree-Fock

Fkbp12

Molecular recognition

Protein-Ligand interactions

Molecular dynamics simulations

High-Affinity ligand

Force field parameterization

Hartree-Fock calculations

The Effects of Immune Regulation and Dysregulation: Helper T Cell Receptor Affinity, Systemic Lupus Erythematosus and Cancer Risk, and Vaccine Hesitancy

Johnson, Deborah K.

03 June 2020

Helper T cells direct the immunological response to foreign pathogens and cancer. To become activated, helper T cells must recognize unique peptides presented on major histocompatibility complex II (pMHCII) by antigen presenting cells (APCs) with their T cell receptor (TCR). While much is known about helper T cell activation signaling cascades and the subsequent roles of helper T cell subsets, the initiation of helper T cell activation by the TCR and other co-receptors is less well understood. Specifically, the affinity of the TCR for its pMHCII can change helper T cell subset fate, proliferation, and alter the risk for activation induced cell death. High affinity TCRs are attractive targets for immunotherapies, but little is known about how helper T cells respond to high affinity TCRs. Here we describe high affinity TCR activation thresholds for both full length TCRs and chimeric antigen receptor TCRs both with and without the presence of the coreceptor CD4 and propose a mechanism whereby CD4 inhibits T cell activation via Lck sequestration and a CD4-independent method. Dysregulated helper T cells play critical roles in the development and perpetuation of systemic lupus erythematosus (SLE), a systemic autoimmune disease that causes widespread inflammation and organ damage throughout the body. Chronic inflammation in SLE affects the immune response to viruses and the risk of developing cancer. However, in SLE patients, it is unclear if viruses initiate the development of cancer directly or if the effects are non-interacting and concomitant. Here we describe the interactions between SLE, viruses, and cancer risk revealing that viruses and SLE do interact to increase the both the overall cancer risk and the risk for hematological malignancies. Due to vaccine efficacy, vaccine preventable diseases (VPDs) are no longer commonly experienced or understood by the public. Vaccines are a victim of their own success and according to the World Health Organization (WHO), vaccine hesitancy (VH) is one of the top threats to global health. VH is the refusal to accept vaccinations and the reasons for VH vary across time, place, and vaccine. Refuting VH is difficult as directly confronting false assumptions can cause individuals to become more entrenched in their position resulting in confirmation bias. Adults with VH attitudes are often motivated by concerns over personal liberty, harm, independence, and body purity. Here we describe the results of a VPD interview- and education-based intervention geared towards promoting positive vaccine attitudes for young adults and demonstrate that education focused on VPDs is more effective than vaccine safety.

Helper T cell

CD4+ T cell

CD4

T cell receptor (TCR)

Lck

IL-2

T cell activation

TCR single chain signaling (TCR-SCS)

chimeric antigen receptor (CAR)

full length TCR (flTCR)

high affinity TCRs

systemic lupus erythematosus (SLE)

cancer-risk

viruses

vaccine hesitancy (VH)

vaccine preventable diseases (VPDs)

vaccines

Life Sciences

Transcriptional regulation and physiological importance of the kdp-system from the halophilic archaeon Halobacterium salinarum

Kixmüller, Dorthe

03 April 2012

The high affinity, ATP-dependent K+ uptake system KdpFABC of Halobacterium salinarum, is highly induced under K+ limitation. In contrast to the well-characterized Kdp system in Escherichia coli, in which the kdpFABC genes are transcriptionally regulated by the sensor kinase/response regulator system KdpD/KdpE, transcriptional regulation of the kdp genes in H. salinarum was unknown due to the absence of halobacterial homologues of KdpD/KdpE. Furthermore, the physiological relevance of the KdpFABC K+ uptake system of H. salinarum was puzzling, since hypersaline habitats usually comprise K+ concentrations which do not induce kdp expression. In order to analyze the regulation of kdp gene expression, it was essential to gain information about the transcriptional unit(s) involved. Northern blotting, primer extension analysis and real-time RT-PCR revealed the presence of a polycistronic leaderless kdpFABCQ transcript with a putative kdp terminator or at least a potential mRNA processing site downstream of kdpQ. Furthermore, promoter truncation studies verified the so far only predicted basal transcription elements together with an upstream-located operator sequence. Since deletions of this putative operator sequence did not lead to a constitutive expression, a further component has to be involved in the regulation of the kdpFABCQ genes. However, truncation and scanning mutagenesis analyses of the kdp promoter as well as translational fusions of a halophilic beta-galactosidase to the kdp promoter excluded an additional regulatory element up- or downstream of the basal transcription elements and in the kdp-coding region. These results lead to speculations of multiple basal transcription factors to be involved. Furthermore, an inducible expression vector (shuttle vector) was constructed based on the promoter of the kdpFABCQ operon due to its, K+-sensitive features. Inducible expression systems are yet not available for H. salinarum. The resulting, replicating vector pKIX is functional and enables a K+-dependent expression from the kdp promoter with rather high induction ratios of 50-fold. Expression levels could further be improved by plasmid- and additional chromosomally encoded kdpQ and mutations generated in the kdp promoter. Since transcript levels from pKIX were found to be independent of differential target genes, the general application of pKIX as an inducible expression system is strongly supported and pKIX could, thus, be made accessible to the scientific community. To decipher the physiological relevance of the halobacterial Kdp system, H. salinarum was encountered to desiccation stress and salt crystal (halite) entombment. Halite crystals grown under non-inducing K+ concentrations with entombed strains of H. salinarum and H. salinarum deleted in the kdpFABCQ genes revealed a significantly reduced survival rate of the deletion strain upon recultivation. Additionally, a kdpFABCQ-inducing desiccation stress could already be determined on agar plates under non-limiting K+ concentrations. Furthermore, the cell morphology of H. salinarum entrapped in halite crystals resembled that of H. salinarum grown under K+-limiting conditions. Therefore, the Kdp system promotes survival of H. salinarum under desiccation stress. Furthermore, the Kdp system could be identified as at least one of the systems important for long-term survival of H. salinarum in halite.

Halobacterium

Halobacterium salinarum

H. salinarum

halophile

halophil

archaea

archaeon

kdp

kdpFABC

kdpFABCQ

kdp-System

ATP

Kalium

Kaliumaufnahme

K+

Halit

Salzkristall

Austrocknung

Trockenstress

transkriptionelle Regulation

Genexpression

pKIX

induzierbarer Expressionsvektor

Expressionsvektor

kdpQ

Kdp Komplex

halobacterial

halophilic

kdpFABC genes

kdp-system

high-affinity

ATP-dependent

potassium

potassium pump

K+ uptake

desiccation

desiccation stress

halite

salt crystal

long-term survival

transcriptional regulation

gene expression

inducible expression vector

expression vector

Kdp complex

ddc:570