Conserved and Unique Mitochondrial Target Sequence of TRPV4 Can Independently Regulate Mitochondrial Functions.

Though mitochondria have their own genome and protein synthesis machineries, the majority of the mitochondrial proteins are actually encoded by the nuclear genome. Most of these mitochondrial proteins are imported into specific compartments of the mitochondria due to their mitochondrial target sequence (MTS). Unlike the nuclear target sequence, the MTS of most of the mitochondrial localized proteins remain poorly understood, mainly due to their variability, heterogeneity, unconventional modes of action, mitochondrial potential-dependent transport, and other complexities.

TRPV4 modulation affects mitochondrial parameters in adipocytes and its inhibition upregulates lipid accumulation.

Enhanced lipid-droplet formation by adipocytes is a complex process and relevant for obesity. Using knock-out animals, involvement of TRPV4, a thermosensitive ion channel in the obesity has been proposed. However, exact role/s of TRPV4 in adipogenesis and obesity remain unclear and contradictory.

TRPV4 Activator-Containing CMT-Hy Hydrogel Enhances Bone Tissue Regeneration by Enhancing Mitochondrial Health.

Treating different types of bone defects is difficult, complicated, time-consuming, and expensive. Here, we demonstrate that transient receptor potential cation channel subfamily V member 4 (TRPV4), a mechanosensitive, thermogated, and nonselective cation channel, is endogenously present in the mesenchymal stem cells (MSCs). TRPV4 regulates both cytosolic Ca levels and mitochondrial health.

Modulation of calcium-influx by carboxymethyl tamarind‑gold nanoparticles promotes biomineralization for tissue regeneration.

Gold nanoparticles (AuNPs) have been reported to modulate bone tissue regeneration and are being extensively utilized in biomedical implementations attributable to their low cytotoxicity, biocompatibility and simplicity of functionalization. Lately, biologically synthesized nanoparticles have acquired popularity because of their environmentally acceptable alternatives for diverse applications. Here we report the green synthesis of AuNPs by taking the biopolymer Carboxymethyl Tamarind (CMT) as a unique reducing as well as a stabilizing agent.

Menthol causes mitochondrial Ca-influx, affects structure-function relationship and cools mitochondria.

Menthol is a small bioactive compound able to cause several physiological changes and has multiple molecular targets. Therefore, cellular response against menthol is complex, and still poorly understood. In this work, we used a human osteosarcoma cell line (Saos-2) and analysed the effect of menthol, especially in terms of cellular, subcellular and molecular aspects.

Highly water-stable, luminescent, and monodisperse polymer-coated CsPbBr nanocrystals for imaging in living cells with better sensitivity.

Recently, CsPbX (X= Cl, Br, I) nanocrystals (NCs) have evolved as a potential contender for various optoelectronic applications due to some of their excellent photophysical properties. Their superior non-linear optical properties enable them to take part in bioimaging applications due to their longer penetration depth and less scattering effect in living cells. However, the poor stability of perovskite NCs in aqueous media still remains a great challenge for practical usage.

TRPV4 regulates mitochondrial Ca-status and physiology in primary murine T cells based on their immunological state.

T cell activation process is critically affected by temperature and intracellular Ca-signalling. Yet, the nature and the key molecules involved in such complex Ca-signalling is poorly understood. It is mostly assumed that ion channels present in the plasma membrane primarily regulate the cytosolic Ca-levels exclusively.

TRPV4 interacts with MFN2 and facilitates endoplasmic reticulum-mitochondrial contact points for Ca-buffering.

Aim: Mitochondrial fission-fusion events, distribution, and Ca-buffering abilities are relevant for several diseases, yet are poorly understood events. TRPV4 channels are a group of thermosensitive ion channel which regulate cellular and mitochondrial Ca-level. The underlying mechanisms of the change in mitochondrial dynamics upon modulation of TRPV4 channel are ill explored.

Function and regulation of thermosensitive ion channel TRPV4 in the immune system.

Transient receptor potential vanilloid sub-type 4 (TRPV4) is a six transmembrane protein that acts as a non-selective Ca channel. Notably, TRPV4 is present in almost all animals, from lower eukaryotes to humans and is expressed in diverse tissue and cell types. Accordingly, TRPV4 is endogenously expressed in several types of immune cells that represent both innate and adaptive immune systems of higher organism.

Hydrogel-Mediated Release of TRPV1 Modulators to Fine Tune Osteoclastogenesis.

Bone defects, including bone loss due to increased osteoclast activity, have become a global health-related issue. Osteoclasts attach to the bone matrix and resorb the same, playing a vital role in bone remodeling. Ca homeostasis plays a pivotal role in the differentiation and maturation of osteoclasts.

TRPM8 channel inhibitor-encapsulated hydrogel as a tunable surface for bone tissue engineering.

A major limitation in the bio-medical sector is the availability of materials suitable for bone tissue engineering using stem cells and methodology converting the stochastic biological events towards definitive as well as efficient bio-mineralization. We show that osteoblasts and Bone Marrow-derived Mesenchymal Stem Cell Pools (BM-MSCP) express TRPM8, a Ca-ion channel critical for bone-mineralization. TRPM8 inhibition triggers up-regulation of key osteogenesis factors; and increases mineralization by osteoblasts.

Lowest aqueous picomolar fluoride ions and in vivo aluminum toxicity detection by an aluminum(iii) binding chemosensor.

Aluminum toxicity in biological systems is a well-known issue yet remains as a prevalent and unsolvable problem due to the lack of proper molecular tools that can detect free aluminum(iii) or Al(iii) ions in vivo. Herein, we report a water-soluble photo-induced electron transfer (PET)-based turn-ON/OFF fluorometric chemosensor for the dual detection of Al(iii) and fluoride ions in aqueous media with a nanomolar (∼1.7 × 10 M) and picomolar (∼2 × 10 M, lowest ever detection so far) detection limit, respectively.

TRPM8 channel augments T-cell activation and proliferation.

The transient receptor potential melastatin 8 (TRPM8) is an ion channel that has been widely studied as a cold-sensitive nociceptor. However, its importance in nonneuronal cells is mostly unexplored. Here, we describe the presence and functional significance of endogenous TRPM8, a nonselective Ca -channel in T cell functions.

Transient receptor potential ankyrin1 channel is endogenously expressed in T cells and is involved in immune functions.

Transient receptor potential channel subfamily A member 1 (TRPA1) is a non-selective cationic channel, identified initially as a cold sensory receptor. TRPA1 responds to diverse exogenous and endogenous stimuli associated with pain and inflammation. However, the information on the role of TRPA1 toward T-cell responses remains scanty.