Structure and dynamics of proteins that inhibit complement activation

Maciejewski, Mateusz

January 2012

NMR studies have long been used as a tool to derive structural and dynamic information. Such information has a wide range of applications, and notably is used in the study of structure-activity relationships. The aims of this work were to use NMR spectroscopy to derive structures of the molecules inhibiting the activation of the alternative pathway of the complement portion of the innate immune system (namely, the N-terminus of factor H (FH) and two small peptides, Compstatin 10 and Compstatin 20) and to consider the interdomain dynamics of proteins consisting of three modules theoretically (in silico) and experimentally (for the three N-terminal domains of FH). We focused on the three N-terminal complement control protein (CCP) domains of the important complement regulator, human factor H (i.e. FH1-3). Its three-dimensional solution structure was derived based on nuclear Overhauser effects and residual dipolar couplings (RDCs). Each of the three CCP modules in this structure was similar to the corresponding CCP in the previously derived C3b-bound structure of FH1-4, but the relative orientations of the domains were different. These orientations were additionally different from the interdomain orientations in other molecules that interact with C3b, such as DAF2-4 and CR1-15-17. The measured RDC datasets, collected under three different conditions in media containing magnetically aligned bicelles (disk-like particles formed from phospholipids), were used to estimate interdomain motions in FH1-3. A method in which the data was fitted to a structural ensemble was used to analyze such interdomain flexibility. More than 80% of the conformers of this predominantly extended three-domain molecule exhibit flexions of < 40°. Such segmental flexibility (together with the local dynamics of the hypervariable loop within domain 3) could facilitate recognition of C3b via initial anchoring, as well as eventual reorganization of modules into the conformation captured in the previously solved crystal structure of a C3b complex with FH1-4. The NMR study of the Compstatin analogues revealed unique structural features that had not before been observed in this group of peptides. These features included two b-turns per peptide, neither of which was located in the ‘canonical’ regions in which b-turns were observed in previous molecular dynamics and NMR studies. The structures of Compstatin 10 and Compstatin 20 derived here were consistent with the isothermal calorimetry (ITC) and surface plasmon resonance (SPR) data recorded previously. In the in silico study of interdomain motion of three-domain proteins carried out here, the domains were represented as vectors attached to one another in a linear fashion. They were allowed to undergo Brownian motion biased by the potentials between the sequential vectors. The resulting trajectories were analyzed using model-free and extended model-free formalism. The degree of coupling of the interdomain motion with overall motion was determined, along with a representation of the overall motion. The similarity between the trajectories of the vectors transformed to this overall motion frame and the results obtained from the model-free analysis was determined.

Investigation of complement inhibition and blood coagulation by using Multiplate® and TEG® analyzer

Lindblad, Linda

January 2018

The complement system is a long and complicated event of reactions where activation leads to cleavage of different factors and ends with either inflammation or cell lysis.     Recent studies have shown that the complement system and coagulation have some elements in common. Therefore in this study it was relevant to look at the inhibition of the complement system in two different whole blood analyses of coagulation activation, thromboelastography and impedance aggregometry. Thromboelastography, or TEG®, measures the clot forming properties of whole blood and the impedance aggregometry, or Multiplate®, measures platelets’ ability to adhere and aggregate to an electrode. Four different inhibitors where used: Eculizumab, C1 inhibitor, Compstatin and OMS721, which all inhibits different parts of the complement system.     The curves from Multiplate® was presented in standard deviation and the number of reduction, while the results from TEG® was presented in before and after added inhibitor in graphs.     In conclusion, impedance aggregometry show a more specific and secure results of the inhibitors effect, which was seen by that both C1 inihibitor and Compstatin had a major influence on the area under the curve (AUC). In TEG® there were no detectable difference, which could mean TEG® is not specific enough for platelets efficiency, which is affected by the complement inhibition.

impedance aggregometry

thromboelastography

Eculizumab

C1 inhibitor

Compstatin

OMS721

Medical and Health Sciences

Medicin och hälsovetenskap

Crosstalk Between Activated Platelets and the Complement System

Hamad, Osama A.

January 2010

Several studies have shown that complement and thrombotic events co-exist. Platelets have been suspected to act as the bridge between the two cascade systems. To study the platelet-induced complement activation we developed a system in which platelets were activated by thrombin receptor activating peptide (TRAP) in platelet rich plasma (PRP) or whole blood anti-coagulated using the specific thrombin inhibitor, lepirudin. TRAP-activated platelets induced a fluid-phase complement activation measured as generation of C3a and sC5b-9, triggered by released chondroitin sulphate-A (CS-A) which interacted with C1q and activated the complement system through the classical pathway. Complement components C1q, C3, C4 and C9 were also shown to bind to TRAP-activated platelets but this binding did not seem to be due to a complement activation since blocking of complement activation at the C1q or C3 levels did not affect the binding of the complement proteins. The C3 which bound to activated platelets consisted of C3(H2O), indicating that bound C3 was not proteolytically activated. Binding of C1q was partially dependent on CS-A exposure on activated platelets. The abolished complement activation on the surface of activated platelets was suggested to be dependent on the involvement of several complement inhibitors. We confirmed the binding of C1INH and factor H to activated platelets. To this list we have added another potent complement inhibitor, C4BP. The binding of factor H and C4BP was shown to be dependent on exposure of CS-A on activated platelets. The physiological relevance of these reactions was reflected in an elevated expression of CD11b on leukocytes, and increased generation of platelet-leukocyte complexes. The platelets were involved in these events by at least two different mechanisms; generation of C5a which activated leukocytes and binding of C3(H2O)/iC3(H2O), a ligand to the intergrin CD11b/CD18 on their surface. These mechanisms add further to the understanding of how platelets interact with the complement system and will help us to understand the role of the complement system in cardiovascular disease and thrombotic conditions. / Platelet Mediated Complement Activation

platelets

activated platelets

TRAP

chondroitin sulfate

C1q

factor H

C4BP

C3

Compstatin

complement

platelet-leukocyte complexes

platelet microparticles

Clinical immunology

Klinisk immunologi

Immunological Checkpoint Blockade and TLR Stimulation for Improved Cancer Therapy / TLR-stimulering och CTLA-4 samt PD-1 blockad för förbättrad cancerterapi

Mangsbo, Sara

January 2009

This thesis concerns the investigation of novel immunotherapies for cancer eradication. CpG therapy was used in order to target antigen-presenting cells (APCs), facilitating antigen presentation and activation of T cells. Blockade of the two major immune checkpoint regulators (CTLA-4 and PD-1) was also studied to ensure proper and sustained T cell activation. The therapies were investigated alone and compared to BCG, the standard immunotherapy in the clinic today for bladder cancer. In addition, CpG as well as BCG was combined with CTLA-4 or PD-1 blockade to examine if the combination could improve therapy. Single and combination strategies were assessed in an experimental bladder cancer model. In addition, one of the therapies (local aCTLA-4 administration) was evaluated in an experimental pancreatic cancer model. To be able to study the effects of CpG in humans, a human whole blood loop system has been used. This allowed us to dissect the potential interplay between CpG and complement. CpG was found to be superior to the conventional therapy, BCG, in our experimental model and T cells were required in order for effective therapy to occur. Used as a monotherapy, CTLA-4 blockade but not PD-1 blockade, prolonged survival of mice. When CTLA-4 or PD-1 blockade was combined with CpG, survival was enhanced and elevated levels of activated T cells were found in treated mice. In addition, Treg levels were decreased in the tumor area compared to tumors in control treated mice. CTLA-4 blockade was also effective when administrated locally, in proximity to the tumor. Compared to systemic CTLA-4 blockade, local administration gave less adverse events and sustained therapeutic success. When CpG was investigated in a human whole blood loop system it was found to tightly interact with complement proteins. This is an interesting finding which warrants further investigation into the role of TLRs in complement biology. Tumor therapy could be affected either negatively or positively by this interaction. The results presented herein are a foundation for incorporating these combination therapies into the clinic, specifically for bladder cancer but in a broader perspective, also for other solid tumors such as pancreatic cancer.

CpG ODNs

TLR-9

CTLA-4

PD-1

PD-L1

B7. H1

immunotherapy

checkpoint blockade

bladder cancer

cancer

complement

TLRs

Compstatin

properdin

C3

experimental animal model

whole blood loop system

combination therapies

Clinical immunology

Klinisk immunologi

Tumour immunology

Tumörimmunologi