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Biol. Chem. [JOURNAL]

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Revival of the heat shock response after two decades with a small Hsp in a critical but distinct act.

Miwa T, Taguchi H

Biol Chem · 2025 Jan · PMID 39760265 · Publisher ↗

The heat stress response is an essential defense mechanism in all organisms. Heat shock proteins (Hsps) are produced in response to thermal stress, with their expression levels regulated by heat shock transcription facto... The heat stress response is an essential defense mechanism in all organisms. Heat shock proteins (Hsps) are produced in response to thermal stress, with their expression levels regulated by heat shock transcription factors. In the key transcription factor σ positively regulates Hsp expression. Studies from over two decades ago revealed that σ abundance is negatively controlled under normal conditions, mainly through degradation mechanisms involving DnaK, GroEL, and FtsH. Beyond this established mechanism, recent findings indicate that a small heat shock protein IbpA also plays a role in the translational regulation of σ, adding a new layer to the established model. This review highlights the role of a new actor, IbpA, which strongly suppresses σ expression under non-stress conditions and markedly increases it during heat shock.

Bioprospecting hydroxylated chalcones in model of ischemia-reoxygenation and probing NOX4 interactions via molecular docking.

Ali A, de Almeida IM, Magalhães EP … +9 more , Guedes JM, Cajazeiras FFM, Marinho MM, Marinho ES, de Menezes RRPPB, Sampaio TL, Santos HSD, da Silva Júnior GB, Martins AMC

Biol Chem · 2024 Dec · PMID 39705087 · Publisher ↗

Ischemia/reperfusion injury (I/R) is a leading cause of acute kidney injury (AKI) in conditions like kidney transplants, cardiac surgeries, and nephrectomy, contributing to high global mortality and morbidity. This study... Ischemia/reperfusion injury (I/R) is a leading cause of acute kidney injury (AKI) in conditions like kidney transplants, cardiac surgeries, and nephrectomy, contributing to high global mortality and morbidity. This study aimed to analyze the protective effects of 2'-hydroxychalcones in treating I/R-induced AKI by targeting key pathological pathways. Considering strong antioxidant action along with other pharmacological roles of chalcone derivatives, six 2'-hydroxychalcones were synthesized via Claisen-Schmidt condensation and analyzed for their protective effects in an I/R induced AKI model using HK-2 cells. Among six 2'-hydroxychalcones, chalcone A4 significantly increased the HK-2 cells viability compared to I/R group. Chalcone A4 reduced the cell death events by reducing generation of cytoplasmic ROS and mitochondrial transmembrane potential. It also increased GSH and SOD activity while reducing TBARS levels, indicating strong antioxidant action. Scanning electron microscope images showed that chalcone A4 reversed I/R-induced morphological changes in HK-2 cells, including apoptotic blebbing and cytoplasmic fragmentation. Furthermore, studies revealed interactions with NADPH oxidase 4, further supporting its protective role in I/R-induced AKI. These results showed that chalcone A4 possess potential protective action against I/R induced cellular damage possibly due to its strong antioxidant action and potential interaction with NOX4 subunit of NADPH oxidase.

Analysis of kallikrein-related peptidase 7 (KLK7) autolysis reveals novel protease and cytokine substrates.

Ghodge SV, Lazarus RA

Biol Chem · 2025 Jan · PMID 39655764 · Publisher ↗

Kallikrein-related peptidase 7 (KLK7) is one of 15 members of the tissue kallikrein family and is primarily expressed in the skin epidermis. The activity of KLK7 is tightly regulated by multiple stages of maturation and... Kallikrein-related peptidase 7 (KLK7) is one of 15 members of the tissue kallikrein family and is primarily expressed in the skin epidermis. The activity of KLK7 is tightly regulated by multiple stages of maturation and reversible inhibition, similar to several other extracellular proteases. In this work, we used protease-specific inhibitors and active site variants to show that KLK7 undergoes autolysis at two separate sites in the 170 and 99 loops (chymotrypsinogen numbering), resulting in a loss of enzymatic activity. A protein BLAST search using the autolyzed KLK7 loop sequences identified mast cell chymase as a potential KLK7 substrate. Indeed, KLK7 cleaves chymase resulting in a concomitant loss of activity. We further demonstrate that KLK7 can hydrolyze other mast cell proteases as well as several cytokines. These cytokines belong mainly to the interferon and IL-10 families including IFN-α, IFN-β, IFN-γ, IL-28A/IFN-λ2, IL-20, IL-22, and IL-27. This is the first study to identify a possible molecular interaction link between KLK7 and mast cell proteases and cytokines. Although the precise biological implications of these findings are unclear, this study extends our understanding of the delicate balance of proteolytic regulation of enzyme activity that maintains physiological homeostasis, and facilitates further biological investigations.

Carnosic acid prevents heat stress-induced oxidative damage by regulating heat-shock proteins and apoptotic proteins in mouse testis.

Liu S, Jiaxin Wu, Liang W … +3 more , Liu Y, Wan S, Tang S

Biol Chem · 2024 Dec · PMID 39630978 · Publisher ↗

Heat stress impacts male reproduction in animal husbandry. Carnosic acid (CA), a potent antioxidant, mitigates oxidative stress and apoptosis. αB-crystallin, a small heat shock protein, regulates apoptosis and oxidative... Heat stress impacts male reproduction in animal husbandry. Carnosic acid (CA), a potent antioxidant, mitigates oxidative stress and apoptosis. αB-crystallin, a small heat shock protein, regulates apoptosis and oxidative stress. This study examines the protective effects of CA on the testis in wild-type and αB-crystallin knockout mice under heat stress. CA pretreatment increased testosterone levels and preserved testicular structure in wild-type mice, but no changes in knockout mice. CA reduced Hsp27, Hsp70, and cleaved caspase-3 levels, while knockout mice showed increased cleaved caspase-3. These results suggest that CA protects the testis by modulating heat shock and apoptosis-related proteins.

Zinc and copper effect mechanical cell adhesion properties of the amyloid precursor protein.

August A, Hartmann S, Schilling S … +5 more , Müller-Renno C, Begic T, Pierik AJ, Ziegler C, Kins S

Biol Chem · 2024 Dec · PMID 39425975 · Publisher ↗

The amyloid precursor protein (APP) can be modulated by the binding of copper and zinc ions. Both ions bind with low nanomolar affinities to both subdomains (E1 and E2) in the extracellular domain of APP. However, the im... The amyloid precursor protein (APP) can be modulated by the binding of copper and zinc ions. Both ions bind with low nanomolar affinities to both subdomains (E1 and E2) in the extracellular domain of APP. However, the impact of ion binding on structural and mechanical trans-dimerization properties is yet unclear. Using a bead aggregation assay (BAA), we found that zinc ions increase the dimerization of both subdomains, while copper promotes only dimerization of the E1 domain. In line with this, scanning force spectroscopy (SFS) analysis revealed an increase in APP adhesion force up to three-fold for copper and zinc. Interestingly, however, copper did not alter the separation length of APP dimers, whereas high zinc concentrations caused alterations in the structural features and a decrease of separation length. Together, our data provide clear differences in copper and zinc mediated APP trans-dimerization and indicate that zinc binding might favor a less flexible APP structure. This fact is of significant interest since changes in zinc and copper ion homeostasis are observed in Alzheimer's disease (AD) and were reported to affect synaptic plasticity. Thus, modulation of APP trans-dimerization by copper and zinc could contribute to early synaptic instability in AD.

Implications of TRPM3 and TRPM8 for sensory neuron sensitisation.

Behrendt M

Biol Chem · 2024 Oct · PMID 39417661 · Publisher ↗

Sensory neurons serve to receive and transmit a wide range of information about the conditions of the world around us as well as the external and internal state of our body. Sensitisation of these nerve cells, i.e. becom... Sensory neurons serve to receive and transmit a wide range of information about the conditions of the world around us as well as the external and internal state of our body. Sensitisation of these nerve cells, i.e. becoming more sensitive to stimuli or the emergence or intensification of spontaneous activity, for example in the context of inflammation or nerve injury, can lead to chronic diseases such as neuropathic pain. For many of these disorders there are only very limited treatment options and in order to find and establish new therapeutic approaches, research into the exact causes of sensitisation with the elucidation of the underlying mechanisms and the identification of the molecular components is therefore essential. These components include plasma membrane receptors and ion channels that are involved in signal reception and transmission. Members of the transient receptor potential (TRP) channel family are also expressed in sensory neurons and some of them play a crucial role in temperature perception. This review article focuses on the heat-sensitive TRPM3 and the cold-sensitive TRPM8 (and TRPA1) channels and their importance in sensitisation of dorsal root ganglion sensory neurons is discussed based on studies related to inflammation and injury- as well as chemotherapy-induced neuropathy.

Highlight: young research groups in Germany - 5th edition.

Feijs-Žaja KLH, Weinberg CE

Biol Chem · 2024 Oct · PMID 39367528 · Publisher ↗

Abstract loading — click title to view on PubMed.

A platform for the early selection of non-competitive antibody-fragments from yeast surface display libraries.

Fournier L, Demir D, Elter D … +4 more , Pekar L, Kolmar H, Toleikis L, Becker S

Biol Chem · 2024 Dec · PMID 39344812 · Publisher ↗

In this work, we report the development of a platform for the early selection of non-competitive antibody-fragments against cell surface receptors that do not compete for binding of their natural ligand. For the isolatio... In this work, we report the development of a platform for the early selection of non-competitive antibody-fragments against cell surface receptors that do not compete for binding of their natural ligand. For the isolation of such subtype of blocking antibody-fragments, we applied special fluorescence-activated cell sorting strategies for antibody fragments isolation from yeast surface display libraries. Given that most of the monoclonal antibodies approved on the market are blocking ligand-receptor interactions often leading to resistance and/or side effects, targeting allosteric sites represents a promising mechanism of action to open new avenues for treatment. To directly identify these antibody-fragments during library screening, we employed immune libraries targeting the epidermal growth factor receptor as proof of concept. Incorporating a labeled orthosteric ligand during library sorting enables the early selection of non-competitive binders and introduces an additional criterion to refine the selection of candidates exhibiting noteworthy properties. Furthermore, after sequencing, more candidates were identified compared to classical sorting based solely on target binding. Hence, this platform can significantly improve the drug discovery process by the early selection of more candidates with desired properties.

A tailored cytochrome P450 monooxygenase from CWB2 for selective aliphatic monooxygenation.

Schultes FPJ, Welter L, Schmidtke M … +2 more , Tischler D, Mügge C

Biol Chem · 2024 Sep · PMID 39331465 · Publisher ↗

Cytochrome P450 monooxygenases are recognized as versatile biocatalysts due to their broad reaction capabilities. One important reaction is the hydroxylation of non-activated C-H bonds. The subfamily CYP153A is known for... Cytochrome P450 monooxygenases are recognized as versatile biocatalysts due to their broad reaction capabilities. One important reaction is the hydroxylation of non-activated C-H bonds. The subfamily CYP153A is known for terminal hydroxylation reactions, giving access to functionalized aliphatics. Whilst fatty derivatives may be converted by numerous enzyme classes, midchain aliphatics are seldomly accepted, a prime property of CYP153As. We report here on a new CYP153A member from the genome of the mesophilic actinobacterium CWB2 as an efficient biocatalyst. The gene was overexpressed in  and fused with a surrogate electron transport system from sp. OC4. This chimeric self-sufficient whole-cell system could perform hydroxylation and epoxidation reactions: conversions of C6-C14 alkanes, alkenes, alcohols and of cyclic compounds were observed, yielding production rates of, .., 2.69 mM h for 1-hexanol and 4.97 mM h for 1,2-epoxyhexane. Optimizing the linker compositions between the protein units led to significantly altered activity. Balancing linker length and flexibility with glycine-rich and helix-forming linker units increased 1-hexanol production activity to 350 % compared to the initial linker setup with entirely helical linkers. The study shows that strategic coupling of efficient electron supply and a selective enzyme enables previously challenging monooxygenation reactions of midchain aliphatics.

Protein persulfidation in plants: mechanisms and functions beyond a simple stress response.

Moseler A, Wagner S, Meyer AJ

Biol Chem · 2024 Sep · PMID 39303198 · Publisher ↗

Posttranslational modifications (PTMs) can modulate the activity, localization and interactions of proteins and (re)define their biological function. Understanding how changing environments can alter cellular processes t... Posttranslational modifications (PTMs) can modulate the activity, localization and interactions of proteins and (re)define their biological function. Understanding how changing environments can alter cellular processes thus requires detailed knowledge about the dynamics of PTMs in time and space. A PTM that gained increasing attention in the last decades is protein persulfidation, where a cysteine thiol (-SH) is covalently bound to sulfane sulfur to form a persulfide (-SSH). The precise cellular mechanisms underlying the presumed persulfide signaling in plants are, however, only beginning to emerge. In the mitochondrial matrix, strict regulation of persulfidation and HS homeostasis is of prime importance for maintaining mitochondrial bioenergetic processes because HS is a highly potent poison for cytochrome c oxidase. This review summarizes the current knowledge about protein persulfidation and corresponding processes in mitochondria of the model plant Arabidopsis. These processes will be compared to the respective processes in non-plant models to underpin similarities or highlight apparent differences. We provide an overview of mitochondrial pathways that contribute to HS and protein persulfide generation and mechanisms for HS fixation and de-persulfidation. Based on current proteomic data, we compile a plant mitochondrial persulfidome and discuss how persulfidation may regulate protein function.

Simultaneous spectral illumination of microplates for high-throughput optogenetics and photobiology.

Vogt A, Paulat R, Parthier D … +8 more , Just V, Szczepek M, Scheerer P, Xu Q, Möglich A, Schmitz D, Rost BR, Wenger N

Biol Chem · 2024 Dec · PMID 39303162 · Publisher ↗

The biophysical characterization and engineering of optogenetic tools and photobiological systems has been hampered by the lack of efficient methods for spectral illumination of microplates for high-throughput analysis o... The biophysical characterization and engineering of optogenetic tools and photobiological systems has been hampered by the lack of efficient methods for spectral illumination of microplates for high-throughput analysis of action spectra. Current methods to determine action spectra only allow the sequential spectral illumination of individual wells. Here we present the open-source RainbowCap-system, which combines LEDs and optical filters in a standard 96-well microplate format for simultaneous and spectrally defined illumination. The RainbowCap provides equal photon flux for each wavelength, with the output of the LEDs narrowed by optical bandpass filters. We validated the RainbowCap for photoactivatable G protein-coupled receptors (opto-GPCRs) and enzymes for the control of intracellular downstream signaling. The simultaneous, spectrally defined illumination provides minimal interruption during time-series measurements, while resolving 10 nm differences in the action spectra of optogenetic proteins under identical experimental conditions. The RainbowCap is also suitable for studying the spectral dependence of light-regulated gene expression in bacteria, which requires illumination over several hours. In summary, the RainbowCap provides high-throughput spectral illumination of microplates, while its modular, customizable design allows easy adaptation to a wide range of optogenetic and photobiological applications.

The BCL11A transcription factor stimulates the enzymatic activities of the OGG1 DNA glycosylase.

Petrachkova T, Soldatkina O, Leduy L … +1 more , Nepveu A

Biol Chem · 2024 Dec · PMID 39272221 · Full text

The BCL11A transcription factor has previously been shown to interact with and stimulate the enzymatic activities of the NTHL1 DNA glycosylase and Pol β polymerase. Here we show that BCL11A and a smaller peptide encompas... The BCL11A transcription factor has previously been shown to interact with and stimulate the enzymatic activities of the NTHL1 DNA glycosylase and Pol β polymerase. Here we show that BCL11A and a smaller peptide encompassing amino acids 160 to 520 can interact with the 8-oxoguanine DNA glycosylase, OGG1, increase the binding of OGG1 to DNA that contains an 8-oxoguanine base and stimulate the glycosylase activity of OGG1. Following BCL11A knockdown, we observed an increase in oxidized purines in the genome using comet assays, while immunoassays reveal an increase in 8-oxoG bases. Structure-function analysis indicates that the stimulation of OGG1 by BCL11A requires the zinc fingers 1, 2 and 3 as well as the proline-rich region between the first and second zing finger, but a glutamate-rich region downstream of zinc finger 3 is dispensable. Ectopic expression of a small peptide that contains the three zinc fingers can rescue the increase in 8-oxoguanine caused by BCL11A knockdown. These findings, together with previous results showing that BCL11A stimulates the enzymatic activities of NTHL1 and the Pol β polymerase, suggest that high expression of BCL11A is important to protect cancer cells against oxidative DNA damage.

Analysis of cell cycle stage, replicated DNA, and chromatin-associated proteins using high-throughput flow cytometry.

Bejarano Franco M, Boujataoui S, Hadji M … +3 more , Hammer L, Ulrich HD, Reuter LM

Biol Chem · 2024 Sep · PMID 39241223 · Publisher ↗

Flow cytometry is a versatile tool used for cell sorting, DNA content imaging, and determining various cellular characteristics. With the possibility of high-throughput analyses, it combines convenient labelling techniqu... Flow cytometry is a versatile tool used for cell sorting, DNA content imaging, and determining various cellular characteristics. With the possibility of high-throughput analyses, it combines convenient labelling techniques to serve rapid, quantitative, and qualitative workflows. The ease of sample preparation and the broad range of applications render flow cytometry a preferred approach for many scientific questions. Yet, we lack practical adaptations to fully harness the quantitative and high-throughput capabilities of most cytometers for many organisms. Here, we present simple and advanced protocols for the analysis of total DNA content, DNA synthesis, and protein association to chromatin in budding yeast and human cells. Upon optimization of experimental conditions and choice of fluorescent dyes, up to four parameters can be measured simultaneously and quantitatively for each cell of a population in a multi-well plate format. Reducing sample numbers, plastic waste, costs per well, and hands-on time without compromising signal quality or single-cell accuracy are the main advantages of the presented protocols. In proof-of-principle experiments, we show that DNA content increase in S-phase correlates with DNA synthesis and can be predicted by the presence of the replicative helicase MCM2-7 on genomic DNA.

The TOM complex from an evolutionary perspective and the functions of TOMM70.

Özdemir M, Dennerlein S

Biol Chem · 2024 Aug · PMID 39092472 · Publisher ↗

In humans, up to 1,500 mitochondrial precursor proteins are synthesized at cytosolic ribosomes and must be imported into the organelle. This is not only essential for mitochondrial but also for many cytosolic functions.... In humans, up to 1,500 mitochondrial precursor proteins are synthesized at cytosolic ribosomes and must be imported into the organelle. This is not only essential for mitochondrial but also for many cytosolic functions. The majority of mitochondrial precursor proteins are imported over the translocase of the outer membrane (TOM). In recent years, high-resolution structure analyses from different organisms shed light on the composition and arrangement of the TOM complex. Although significant similarities have been found, differences were also observed, which have been favored during evolution and could reflect the manifold functions of TOM with cellular signaling and its response to altered metabolic situations. A key component within these regulatory mechanisms is TOMM70, which is involved in protein import, forms contacts to the ER and the nucleus, but is also involved in cellular defense mechanisms during infections.

Pathological and physiological roles of ADP-ribosylation: established functions and new insights.

Feijs-Žaja KLH, Ikenga NJ, Žaja R

Biol Chem · 2024 Jul · PMID 39066732 · Publisher ↗

The posttranslational modification of proteins with poly(ADP-ribose) was discovered in the sixties. Since then, we have learned that the enzymes involved, the so-called poly(ADP-ribosyl)polymerases (PARPs), are transfera... The posttranslational modification of proteins with poly(ADP-ribose) was discovered in the sixties. Since then, we have learned that the enzymes involved, the so-called poly(ADP-ribosyl)polymerases (PARPs), are transferases which use cofactor NAD to transfer ADP-ribose to their targets. Few PARPs are able to create poly(ADP-ribose), whereas the majority transfers a single ADP-ribose. In the last decade, hydrolases were discovered which reverse mono(ADP-ribosyl)ation, detection methods were developed and new substrates were defined, including nucleic acids. Despite the continued effort, relatively little is still known about the biological function of most PARPs. In this review, we summarise key functions of ADP-ribosylation and introduce emerging insights.

Insights in caveolae protein structure arrangements and their local lipid environment.

Ocket E, Matthaeus C

Biol Chem · 2024 Jul · PMID 38970809 · Publisher ↗

Caveolae are 50-80 nm sized plasma membrane invaginations found in adipocytes, endothelial cells or fibroblasts. They are involved in endocytosis, lipid uptake and the regulation of the cellular lipid metabolism as well... Caveolae are 50-80 nm sized plasma membrane invaginations found in adipocytes, endothelial cells or fibroblasts. They are involved in endocytosis, lipid uptake and the regulation of the cellular lipid metabolism as well as sensing and adapting to changes in plasma membrane tension. Caveolae are characterized by their unique lipid composition and their specific protein coat consisting of caveolin and cavin proteins. Recently, detailed structural information was obtained for the major caveolae protein caveolin1 showing the formation of a disc-like 11-mer protein complex. Furthermore, the importance of the cavin disordered regions in the generation of cavin trimers and caveolae at the plasma membrane were revealed. Thus, finally, structural insights about the assembly of the caveolar coat can be elucidated. Here, we review recent developments in caveolae structural biology with regard to caveolae coat formation and caveolae curvature generation. Secondly, we discuss the importance of specific lipid species necessary for caveolae curvature and formation. In the last years, it was shown that specifically sphingolipids, cholesterol and fatty acids can accumulate in caveolae invaginations and may drive caveolae endocytosis. Throughout, we summarize recent studies in the field and highlight future research directions.

Development of an enabling platform biotechnology for the production of proteins.

Aschenbrenner I, Böckler M, Franke F … +5 more , Liebl K, Catici DAM, Brandl M, Behnke J, Feige MJ

Biol Chem · 2024 Jul · PMID 38916991 · Publisher ↗

Protein-based drugs are a mainstay of modern medicine. In contrast to antibodies, most of these need highly individualized production processes which often limits their development. Here, we develop an immunoglobulin dom... Protein-based drugs are a mainstay of modern medicine. In contrast to antibodies, most of these need highly individualized production processes which often limits their development. Here, we develop an immunoglobulin domain tag (i-Tag), which can be fused to any protein of interest. This tag is made of a linear arrangement of antibody light chain constant domains. It enhances expression as well as secretion of the fusion partner and allows for simple purification of several structurally and functionally distinct fusion proteins. Furthermore, it improves the biophysical characteristics of most fusion proteins tested, is inert, and does not compromise the fusion partners' functionality. Taken together, the i-Tag should facilitate the development of biopharmaceuticals and diagnostic proteins otherwise lacking a common structural element.

Highlight: new developments in immunoengineering.

Feige MJ

Biol Chem · 2024 Jul · PMID 38900218 · Publisher ↗

Abstract loading — click title to view on PubMed.

Structure, function, and recombinant production of EGFL7.

McDonald B, Schmidt MHH

Biol Chem · 2024 Dec · PMID 38805373 · Publisher ↗

The secreted factor Epidermal growth factor-like protein 7 (EGFL7) is involved in angiogenesis, vasculogenesis, as well as neurogenesis. Importantly, EGFL7 is also implicated in various pathological conditions, including... The secreted factor Epidermal growth factor-like protein 7 (EGFL7) is involved in angiogenesis, vasculogenesis, as well as neurogenesis. Importantly, EGFL7 is also implicated in various pathological conditions, including tumor angiogenesis in human cancers. Thus, understanding the mechanisms through which EGFL7 regulates and promotes blood vessel formation is of clear practical importance. One principle means by which EGFL7's function is investigated is via the expression and purification of the recombinant protein. This mini-review describes three methods used to produce recombinant EGFL7 protein. First, a brief overview of EGFL7's genetics, structure, and function is provided. This is followed by an examination of the advantages and disadvantages of three common expression systems used in the production of recombinant EGFL7; (i) . , (ii) human embryonic kidney (HEK) 293 cells or other mammalian cells, and (iii) a baculovirus-based Sf9 insect cell expression system. Based on the available evidence, we conclude that the baculovirus-based Sf9 insect cell expression currently has the advantages of producing active recombinant EGFL7 in the native conformation with the presence of acceptable posttranslational modifications, while providing sufficient yield and stability for experimental purposes.

Beyond CAR T cells: exploring alternative cell sources for CAR-like cellular therapies.

Tsiverioti CA, Gottschlich A, Trefny M … +4 more , Theurich S, Anders HJ, Kroiss M, Kobold S

Biol Chem · 2024 Jul · PMID 38766710 · Publisher ↗

Chimeric antigen receptor (CAR)-T cell therapy has led to remarkable clinical outcomes in the treatment of hematological malignancies. However, challenges remain, such as limited infiltration into solid tumors, inadequat... Chimeric antigen receptor (CAR)-T cell therapy has led to remarkable clinical outcomes in the treatment of hematological malignancies. However, challenges remain, such as limited infiltration into solid tumors, inadequate persistence, systemic toxicities, and manufacturing insufficiencies. The use of alternative cell sources for CAR-based therapies, such as natural killer cells (NK), macrophages (MΦ), invariant Natural Killer T (iNKT) cells, γδT cells, neutrophils, and induced pluripotent stem cells (iPSC), has emerged as a promising avenue. By harnessing these cells' inherent cytotoxic mechanisms and incorporating CAR technology, common CAR-T cell-related limitations can be effectively mitigated. We herein present an overview of the tumoricidal mechanisms, CAR designs, and manufacturing processes of CAR-NK cells, CAR-MΦ, CAR-iNKT cells, CAR-γδT cells, CAR-neutrophils, and iPSC-derived CAR-cells, outlining the advantages, limitations, and potential solutions of these therapeutic strategies.
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