Axel Vater scite author profile

Spiegelmers are synthetic target-binding oligonucleotides built from non-natural l-nucleotides. Like aptamers, Spiegelmers fold into distinct shapes that bind the targets with high affinity and selectivity. Furthermore, the mirror-image configuration confers plasma stability and immunological passivity. Various Spiegelmers against pharmacologically attractive targets were shown to be efficacious in animal models. Three Spiegelmer candidates: emapticap pegol (NOX-E36; anti-CCL2), olaptesed pegol (NOX-A12; anti-CXCL12) and lexaptepid pegol (NOX-H94; anti-hepcidin), underwent regulatory safety studies, demonstrated good safety profiles in healthy volunteers and were taken into Phase IIa studies in patients. Proof-of-concept for emapticap pegol has recently been demonstrated in diabetic nephropathy patients. Furthermore, promising interim Phase IIa data of olaptesed pegol and lexapteptid pegol also suggest efficacy in the respective patient populations.

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A Combined PD-1/C5a Blockade Synergistically Protects against Lung Cancer Growth and Metastasis

Ajona

et al. 2017

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Disruption of the programmed cell death protein 1 (PD-1) pathway with immune checkpoint inhibitors represents a major breakthrough in the treatment of non-small cell lung cancer. We hypothesized that combined inhibition of C5a/C5aR1 and PD-1 signaling may have a synergistic antitumor effect. The RMP1-14 antibody was used to block PD-1, and an L-aptamer was used to inhibit signaling of complement C5a with its receptors. Using syngeneic models of lung cancer, we demonstrate that the combination of C5a and PD-1 blockade markedly reduces tumor growth and metastasis and leads to prolonged survival. This effect is accompanied by a negative association between the frequency of CD8 T cells and myeloid-derived suppressor cells within tumors, which may result in a more complete reversal of CD8 T-cell exhaustion. Our study provides support for the clinical evaluation of anti-PD-1 and anti-C5a drugs as a novel combination therapeutic strategy for lung cancer. Using a variety of preclinical models of lung cancer, we demonstrate that the blockade of C5a results in a substantial improvement in the efficacy of anti-PD-1 antibodies against lung cancer growth and metastasis. This study provides the preclinical rationale for the combined blockade of PD-1/PD-L1 and C5a to restore antitumor immune responses, inhibit tumor cell growth, and improve outcomes of patients with lung cancer. .

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Targeting complement component 5a promotes vascular integrity and limits airway remodeling

Khan

Maasch

Vater

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

122

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Increased microvascular dilatation and permeability is observed during allograft rejection. Because vascular integrity is an important indicator of transplant health, we have sought to limit injury to blood vessels by blocking complement activation. Although complement component 3 (C3) inhibition is known to be vasculoprotective in transplantation studies, we recently demonstrated the paradoxical finding that, early in rejection, C3 −/− transplant recipients actually exhibit worse microvascular injury than controls. In the genetic absence of C3, thrombin-mediated complement component 5 (C5) convertase activity leads to the generation of C5a (anaphylatoxin), a promoter of vasodilatation and permeability. In the current study, we demonstrated that microvessel thrombin deposition is significantly increased in C3 −/− recipients during acute rejection. Thrombin colocalization with microvessels is closely associated with remarkably elevated plasma levels of C5a, vasodilatation, and increased vascular permeability. Administration of NOX-D19, a specific C5a inhibitor, to C3 −/− recipients of airway transplants significantly improved tissue oxygenation, limited microvascular leakiness, and prevented airway ischemia, even in the absence of conventional T-cell–directed immunosuppression. As C3 inhibitors enter the clinics, the simultaneous targeting of this thrombin-mediated complement activation pathway and/or C5a itself may confer significant clinical benefit.

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Variable sensitivity to noxious heat is mediated by differential expression of the CGRP gene

Mogil

Miermeister

Seifert

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

151

109

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Heat sensitivity shows considerable functional variability in humans and laboratory animals, and is fundamental to inflammatory and possibly neuropathic pain. In the mouse, at least, much of this variability is genetic because inbred strains differ robustly in their behavioral sensitivity to noxious heat. These strain differences are shown here to reflect differential responsiveness of primary afferent thermal nociceptors to heat stimuli. We further present convergent behavioral and electrophysiological evidence that the variable responses to noxious heat are due to strain-dependence of CGRP expression and sensitivity. Strain differences in behavioral response to noxious heat could be abolished by peripheral injection of CGRP, blockade of cutaneous and spinal CGRP receptors, or long-term inactivation of CGRP with a CGRP-binding Spiegelmer. Linkage mapping supports the contention that the genetic variant determining variable heat pain sensitivity across mouse strains affects the expression of the Calca gene that codes for CGRP␣.calcitonin gene-related peptide ͉ genetic ͉ Calca ͉ nociceptors ͉ pain H umans display wide individual variability in sensitivity to pain.Although the relative importance of genes versus experience in human pain perception is unclear, recent studies have shown that mouse strains display large differences in behavioral pain sensitivity that are heritable (1). These same studies revealed genetic correlations between baseline thermal nociception and the hypersensitivity states associated with inflammatory and neuropathic pain (2). Of the strains examined, AKR and C57BL͞6 mice displayed the largest and most consistent differences in several different assays of thermal nociception, with AKR being much less sensitive than C57BL͞6. In contrast, AKR mice exhibit more robust heat hyperalgesia after inflammatory or nerve injury (1). Despite our considerable knowledge of the behavioral ''phenomics'' of baseline heat pain and hyperalgesia, there are almost no published data regarding the underlying cellular or molecular mechanisms. Here we show that the observed strain differences in response to thermal stimulation are caused by corresponding differences in the functioning of primary afferent nociceptors. The differences in nociceptor sensitivity, in turn, are caused by the presence of and sensitivity to the neuropeptide calcitonin gene-related polypeptide (CGRP). Finally, linkage mapping revealed a candidate gene likely responsible for the strain difference: Calca, the gene encoding CGRP␣.CGRP␣ is a secretory neuropeptide released from thin nerve fibers at their peripheral and central terminals, which is thought to contribute importantly to neurogenic inflammation in the skin and to central sensitization in the spinal cord (3-6). CGRP acts through a G s protein-coupled receptor complex to activate cAMPdependent protein kinase (PKA). PKA, via the transcription factor cAMP response element-binding protein, enhances expression of pronociceptive genes including the Calca gene itself (7-9). Moreover, many...

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Axel Vater

Immune and Inflammatory Cell Involvement in the Pathology of Idiopathic Pulmonary Arterial Hypertension

Turning mirror-image oligonucleotides into drugs: the evolution of Spiegelmer® therapeutics

A Combined PD-1/C5a Blockade Synergistically Protects against Lung Cancer Growth and Metastasis

Targeting complement component 5a promotes vascular integrity and limits airway remodeling

Variable sensitivity to noxious heat is mediated by differential expression of the CGRP gene

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