Standardized ready-to-use laboratory protocol to isolate primary human wound associated fibroblasts from infected wound samples for clinical applications.

Owing to the importance of fibroblasts in healing of wounds, it is necessary to isolate and culture them under in vitro conditions for the purpose of understanding the wound biology, drug discovery and development of personalized treatment. Although, several fibroblast cell lines are commercially available, they fail to represent the patient associated parameters. However, establishing a primary fibroblast culture, especially from infected wound samples, is challenging as the sample is more prone to contamination and number of live cells will be minimum in heterogeneous population. Also, it takes lot of efforts and resources for optimization of the protocol to get good quality cell lines from wound samples necessitating multiple trials, resulting in large number of clinical samples to be processed. To the best of our knowledge, for the first time we are reporting the standardized protocol to isolate primary human fibroblasts from acute and chronic wound samples. In this study, various parameters such as explant size (1-2 mm), explant drying time (2 min), transportation and growth culture media (antibiotics (working concentrations 1-3) and serum concentration (10%)) have been optimised. This can be altered for specific needs of cell in terms of both quality and quantity. Outcome of the work provides a ready-to-use protocol, which is very useful to those who want to initiate primary fibroblasts cell culture from infected wound samples either for clinical or research purpose. Further, these cultured primary wound associated fibroblasts have various clinical and biomedical applications in tissue grafting, treatment of burns and scars and wound regeneration especially in non-healing chronic wounds.

Human primary chronic wound derived fibroblasts demonstrate differential pattern in expression of fibroblast specific markers, cell cycle arrest and reduced proliferation.

INTRODUCTION: Although wound refers to simple cut in the skin, most wounds don't heal because of the various local and systemic factors that lead to its complexity and chronicity. Thus, prior understanding of the status of the wound is necessary and methods that can differentiate between the healing and non-healing wounds at a much earlier stage is crucial for a successful treatment. METHODS: The current study aims at differentiating Acute Wound Fibroblasts (AWFs) and Chronic Wound Fibroblasts (CWFs) based on differential expression of fibroblast specific markers such as Vimentin and Alpha Smooth Muscle Actin (α-SMA) and compare its cell cycle and proliferation. RESULTS: Immunostaining and western blotting analysis showed that, AWFs and CWFs differentially expressed vimentin and α-SMA, with AWFs and CWFs showing higher expression of vimentin and α-SMA respectively. AWFs showed higher distributions in G0/G1 (67.43% vs. 62.16%), S phase (22.61% vs. 8.51%) compared to CWFs. However, AWFs showed decreased distributions compared to CWFs in G2 + M phase (8.14% vs. 10.6%). Thus, it was observed that CWFs showed cell cycle arrest in the G1/G0 phase and inhibited DNA synthesis, which was further confirmed by reduced proliferation of CWFs. We suggest that, differential expression of the cell specific markers can be attributed to its pathophysiological status and chronicity of the wound and reduced proliferation rate of CWFs is due to lesser expression of vimentin, which is a key protein for in vitro cell proliferation. CONCLUSIONS: Outcome of the study serve as an immunological tool to guide the chronicity of the wound, which helps to understand the wound towards design of personalized care. The findings also represent a promising opportunity to gain insight into how cell cycle arrest can impact on wound healing and clinical outcomes.

Efficacy of pedicled anterolateral thigh flap for reconstruction of regional defects - a record analysis.

BACKGROUND: The anterolateral thigh (ALT) flap was described as the fasciocutaneous flap. It can be harvested as a pedicled and/or free flap. Majority of the free flaps are harvested as a fasciocutaneous flap. Their use in head and neck reconstruction and limb trauma is well established. Apart from these advantages, this flap has various applications which are less utilized. ALT flap can be used as a myocutaneous flap along with vastus lateralis muscle. When muscle and fasciocutaneous flaps are required, both can be harvested as a chimeric flap which can cover two different regions of the wound. Moreover, harvest of the pedicled flap procedure is less time-consuming than that of a free flap. Since it has a long vascular pedicle, when used as pedicled flap, it can reach up to the gluteal region. To evaluate these less applied advantages of pedicled ALT flap, our study was undertaken. This study aimed to evaluate the efficiency of ALT flap in terms of the surface area of coverage, arc of rotation and the advantages of including vastus lateralis muscle as part of the flap. METHODS: A retrospective record analysis of all pedicled ALT flap reconstruction of trochanteric, upper thigh, gluteal and flank regions from 2016 to 2018 was undertaken; 7 patients with 8 defects were included. RESULTS: All the flaps healed successfully. There was no major necrosis of the flap and minor complications like wound gapping were found in three patients. CONCLUSION: The ALT-vastus lateralis flap dimensions can be very large and can be easily harvested in a very short time. Vastus lateralis muscle harvested can be used to fill the defect or can be used as chimera to cover the defect. The use of muscle over long standing infective pressure sores can sterilize the wound bed and help in preventing recurrence. The vascularity of this flap is robust and highly reliable. Even after a maximum arc of rotation (up to 170°) all the flaps survived without any major complications.

Hygiene-Eliciting Brood Semiochemicals as a Tool for Assaying Honey Bee (Hymenoptera: Apidae) Colony Resistance to Varroa (Mesostigmata: Varroidae).

Despite numerous interventions, the ectoparasitic mite Varroa (Varroa destructor Anderson and Trueman [Mesostigmata: Varroidae]) and the pathogens it vectors remain a primary threat to honey bee (Apis mellifera Linnaeus [Hymenoptera: Apidae]) health. Hygienic behavior, the ability to detect, uncap, and remove unhealthy brood from the colony, has been bred for selectively for over two decades and continues to be a promising avenue for improved Varroa management. Although hygienic behavior is expressed more in Varroa-resistant colonies, hygiene does not always confer resistance to Varroa. Additionally, existing Varroa resistance selection methods trade efficacy for efficiency, because those achieving the highest levels of Varroa resistance can be time-consuming, and thus expensive and impractical for apicultural use. Here, we tested the hypothesis that hygienic response to a mixture of semiochemicals associated with Varroa-infested honey bee brood can serve as an improved tool for predicting colony-level Varroa resistance. In support of our hypothesis, we demonstrated that a mixture of the compounds (Z)-10-tritriacontene, (Z)-8-hentriacontene, (Z)-8-heptadecene, and (Z)-6-pentadecene triggers hygienic behavior in a two-hour assay, and that high-performing colonies (hygienic response to ≥60% of treated cells) have significantly lower Varroa infestations, remove significantly more introduced Varroa, and are significantly more likely to survive the winter compared to low-performing colonies (hygienic response to <60% of treated cells). We discuss the relative efficacy and efficiency of this assay for facilitating apiary management decisions and selection of Varroa-resistant honey bees, as well as the relevance of these findings to honey bee health, pollination services, and social insect communication.

Challenges in Healing Wound: Role of Complementary and Alternative Medicine.

Although the word wound sounds like a simple injury to tissue, individual's health status and other inherent factors may make it very complicated. Hence, wound healing has gained major attention in the healthcare. The biology wound healing is precise and highly programmed, through phases of hemostasis, inflammation, proliferation and remodeling. Current options for wound healing which includes, use of anti-microbial agents, healing promoters along with application of herbal and natural products. However, there is no efficient evidence-based therapy available for specific chronic wounds that can result in definitive clinical outcomes. Under co-morbid conditions, chronic would poses numerous challenges. Use of Complementary and Alternative Medicines (CAMs) in health care sector is increasing and its applications in wound management remains like to "separate the diamonds from ore." Attempts have been made to understand the wound at the molecular level, mainly through the analysis of signature genes and the influence of several synthetic and natural molecules on these. We have outlined a review of challenges in chronic wound healing and the role of CAMs in chronic wound management. The main focus is on the applications and limitations of currently available treatment options for a non-healing wound and the best possible alternates to consider. This information generates broader knowledge on challenges in chronic wound healing, which can be further addressed using multidisciplinary approach and combination therapies.

Co-evolution of spliceosomal disassembly interologs: crowning J-protein component with moonlighting RNA-binding activity.

Spliceosome disassembly is catalyzed by the NineTeen-related (NTR) complex, which is constituted by several proteins, including Cwc23, Ntr1, and Ppr43. Cwc23 is an essential J-protein in Saccharomyces cerevisiae that recruits Ntr1, an NTC-related G-patch protein, to the spliceosome. Ntr1 interacts with Prp43, a DExD/H box RNA helicase protein, which facilitates the disassembly of spliceosomal intermediates. The interaction between Ntr1 and Prp43 is conserved and crucial for the disassembly process. However, the J-protein component of this complex is not studied in other eukaryotes. In silico analysis supported by results of yeast complementation and two-hybrid studies suggests that while Prp43 is highly conserved, both Ntr1 and Cwc23 are co-evolving components of the disassembly triad. The J-domain of Cwc23, which is otherwise dispensable for its function, is highly conserved, whereas the functionally critical C-terminus has significantly diverged in Cwc23 orthologs. Some eukaryotic orthologs of Cwc23 contain a distinct RNA recognition motif at their C-terminus and are able to bind RNA in vitro. Based on the results presented in this study, we propose that RNA-binding activity in some eukaryotic orthologs of Cwc23 might provide additional functional diversity or robustness to the J-protein/Hsp70 machine in spliceosomal remodelling processes.