A Multicenter Randomized Controlled Trial Evaluating a Cx43-Mimetic Peptide in Cutaneous Scarring

Grek, Christina L.; Montgomery, Jade; Sharma, Meenakshi; Ravi, A.; Rajkumar, J. S.; Moyer, Kurtis E.; Gourdie, Robert G.; Ghatnekar, Gautam S.

doi:10.1016/j.jid.2016.11.006

Cited by 50 publications

(53 citation statements)

References 59 publications

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“…8,15,29,30 Consistent with preclinical observations, a Phase II clinical trial determined that αCT1 improved scar visual appearance by 47% 9 months post-surgery relative to within-patient controls following laparoscopic surgery. 31 This long-term improvement showed a trend of progressive emergence over the study period, with a modest 12.9 % augmentation over control observed at 3 months, but no apparent difference between αCT1 and control scars at 1 month. In the present study, we took advantage of an earlier vehicle-controlled Phase I clinical trial evaluating the safety and tolerability of αCT1 involving 49 healthy subjects in which scar tissue was biopsied from the wound site 29 days following cutaneous injury.…”

Section: Introductionmentioning

confidence: 74%

The Connexin 43 Carboxyl Terminal Mimetic Peptide αCT1 Prompts Differentiation of a Collagen Scar Matrix Resembling Unwounded Skin

Montgomery

Richardson

Rhett

et al. 2020

Preprint

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AbstractPhase II clinical trials have reported that acute treatment of surgical skin wounds with the therapeutic peptide αCT1 improves cutaneous scar appearance by 47% 9-months post-surgery – though mode-of-action remains unknown. Scar matrix structure in biopsies 2 to 6 weeks post-wounding treated topically with αCT1 or control treatments from human subjects, Sprague-Dawley rats, and IAF hairless guinea pigs were compared. The sole effect on scar structure in humans was that αCT1-treated scars had less alignment of collagen fibers relative to control wounds, a state that resembles unwounded skin. This more random alignment was recapitulated in both animal models, together with transient increases in collagen density, although the guinea pig was found to more closely replicate the pattern of response to αCT1 in human scars, compared to rat. Fibroblasts treated with αCT1 in vitro showed decreased directionality and an agent-based computational model parameterized with fibroblast motility data predicted collagen alignments in simulated scars consistent with that observed experimentally in human and the animal models. In conclusion, αCT1 prompts decreased directionality of fibroblast movement and the generation of a 3D collagen matrix post-wounding that is similar to unwounded skin – changes that correlate with long-term improvement in scar appearance.

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Section: Introductionmentioning

confidence: 74%

The Connexin 43 Carboxyl Terminal Mimetic Peptide αCT1 Prompts Differentiation of a Collagen Scar Matrix Resembling Unwounded Skin

Montgomery

Richardson

Rhett

et al. 2020

Preprint

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“…The biochemical characterizations indicated that αCT1 is capable of two distinct protein-protein interactions -one with ZO-1 PDZ2 and the other with the Cx43 H2 region. This raised the question as to whether or not the previously characterized effects of αCT1 in cardiac injury models 11,12 , or indeed its wound healing effects at large [16][17][18]24 , could be accounted for by one or another of these protein-protein interactions. The series of αCT1-based variant peptides generated for the present study provided an opportunity to address this question.…”

Section: Only Peptides Interacting With Cx43 Ct Protect Hearts From Imentioning

confidence: 99%

“…The details of αCT1 molecular mechanism is of key translational significance as this therapeutic peptide is presently the subject of testing in the clinic 15 . In Phase II clinical trials, αCT1 showed efficacy in promoting the healing of two types of chronic, slow healing skin wounds [16][17][18] . αCT1 is currently in Phase III testing on more than 500 patients, as a treatment for diabetic foot ulcers (GAIT1 trial) 19 .…”

Section: Introductionmentioning

confidence: 99%

Targeting the Cx43 Carboxyl Terminal H2 Domain Preserves Left Ventricular Function Following Ischemia-Reperfusion Injury

Jiang

Palatinus

et al. 2019

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Background: aCT1 is a 25 amino acid therapeutic peptide incorporating the Zonula Occludens-1 (ZO-1)-binding domain of connexin43 (Cx43) that is currently in Phase III clinical testing for healing chronic skin wounds. In preclinical studies in mice, we reported that aCT1 reduces arrhythmias and improves ventricular function following cardiac injury, effects that were accompanied by increases in PKCε phosphorylation of Cx43 at serine 368 (pS368). In this study, we undertake a systematic characterization of the molecular mode-of-action of aCT1 in mitigating the effects of ischemia reperfusion injury on ventricular contractile function. Methods and Results:To determine the basis of αCT1-mediated increases in pS368 we undertook tandem mass spectrometry of reactants in an in vitro assay of PKCε phosphorylation, identifying an interaction between negatively charged amino acids in the αCT1 Asp-Asp-Leu-Glu-Iso sequence and positively charged lysines (Lys345, Lys346) in a short α-helical sequence (H2) within the Cx43 CT domain. In silico modeling provided further support of the specificity of this interaction, leading us to conclude that αCT1 has potential to directly interact with both Cx43 and ZO-1. Using surface plasmon resonance, thermal shift and phosphorylation assays, we characterized a series of αCT1 variant peptides, identifying sequences competent to interact with either ZO-1 PDZ2 or the Cx43 CT, but with limited or no ability to bind both polypeptides. Based on this analysis, it was found that only those peptides competent to interact with Cx43, but not ZO-1 alone, resulted in increased pS368 phosphorylation in vitro and in vivo. Moreover, in a mouse model of global ischemia reperfusion injury we determined that pre-ischemic infusion only with those peptides competent to bind Cx43 preserved left ventricular (LV) contractile function following injury. Interestingly, a short 9 amino acid (MW=1110) Cx43-binding variant of the original 25 amino acid αCT1 sequence demonstrated potent LV-protecting effects when infused either before or after ischemic injury. Conclusions:Interaction of αCT1 with the Cx43 CT, but not ZO-1 PDZ2, explains cardioprotection mediated by this therapeutic peptide. Pharmacophores targeting the Cx43 carboxyl terminus could provide a novel translational approach to preservation of ventricular function following ischemic injury.

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“…61 While the exact mechanism of action remains unknown, Cx43 has been known to a regulate transforming growth factor beta (TGF-b) signaling, a marker of fibrosis. 61 Early human trials saw relative success of the material in reducing scar formation following surgery 62 and healing diabetic foot ulcers. 63 Phase 3 clinical trials are ongoing to evaluate the efficacy of this material in diabetic chronic foot ulcers.…”

Section: Scar Minimizationmentioning

confidence: 99%

Review: Multimodal bioactive material approaches for wound healing

2018

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Wound healing is a highly complex process of tissue repair that relies on the synergistic effect of a number of different cells, cytokines, enzymes, and growth factors. A deregulation in this process can lead to the formation of a non-healing chronic ulcer. Current treatment options, such as collagen wound dressings, are unable to meet the demand set by the wound environment. Therefore, a multifaceted bioactive dressing is needed to elicit a targeted affect. Wound healing strategies seek to develop a targeted effect through the delivery of a bioactive molecule to the wound by a hydrogel or a polymeric scaffold. This review examines current biomaterial and small molecule-based approaches that seek to develop a bioactive material for targeted wound therapy and accepted wound healing models for testing material efficacy.

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A Multicenter Randomized Controlled Trial Evaluating a Cx43-Mimetic Peptide in Cutaneous Scarring

Cited by 50 publications

References 59 publications

The Connexin 43 Carboxyl Terminal Mimetic Peptide αCT1 Prompts Differentiation of a Collagen Scar Matrix Resembling Unwounded Skin

The Connexin 43 Carboxyl Terminal Mimetic Peptide αCT1 Prompts Differentiation of a Collagen Scar Matrix Resembling Unwounded Skin

Targeting the Cx43 Carboxyl Terminal H2 Domain Preserves Left Ventricular Function Following Ischemia-Reperfusion Injury

Review: Multimodal bioactive material approaches for wound healing

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