Single-cell nanoencapsulation (SCNE) is an interdisciplinary research field at the intersection of chemistry, biology, nanoscience, and materials science. Single-cell nanoencapsulation involves the development and application of nanometer-scaled shells for the isolation, protection, and functionalization of individual living cells. Single-cell nanoencapsulation enables the fundamental studies of cell–material interactions at the single-cell level, and supports research and development across a range of applied fields, including

cell therapy Cell therapy (also called cellular therapy, cell transplantation, or cytotherapy) is a therapy in which viable cells are injected, grafted or implanted into a patient in order to effectuate a medicinal effect, for example, by transplanting T- ...

renewable energy Renewable energy (also called green energy) is energy made from renewable resource, renewable natural resources that are replenished on a human lifetime, human timescale. The most widely used renewable energy types are solar energy, wind pow ...

regenerative medicine Regenerative medicine deals with the "process of replacing, engineering or regenerating human or animal cells, tissues or organs to restore or establish normal function". This field holds the promise of engineering damaged tissues and organs by st ...

probiotic Probiotics are live microorganisms that provide health benefits when consumed, generally by improving or restoring the microbiota in the gut. Probiotics are considered generally safe to consume, but may cause bacteria– host interactions ...

s, and agricultural innovation. By controlling the cellular microenvironment at the nanoscale, single-cell nanoencapsulation allows for fine-tuned investigation of individual cell responses and the design of engineered cellular systems with tailored properties. Single-cell nanoencapsulation is also a chemical strategy that creates "cell-in-shell" structures by forming artificial nanoshells (typically <100 nm in thickness) on individual cells. The cell-in-shell structures are referred to by various names depending on the context or application, including artificial spores, cyborg cells, Supracells, micrometric Iron Men, and micrometric Transformers. Single-cell nanoencapsulation is considered complementary or, in some contexts superior to, cell microencapsulation techniques. Single-cell nanoencapsulation enables precise modulation and control of cellular behavior at the single-cell level by encapsulating individual cells within artificial nanoshells composed of organic, inorganic, or hybrid materials. The term "SCNE" is also used as a verb in scientific literature, with phrases such as " SCNEd cells" referring to the cells that have undergone the process of single-cell nanoencapsulation. Nanoshell properties for artificial spores have been proposed: * ''durability: The nanoshell should be mechanically and (bio)chemically robust, capable of withstanding external stresses such as

osmotic pressure Osmotic pressure is the minimum pressure which needs to be applied to a Solution (chemistry), solution to prevent the inward flow of its pure solvent across a semipermeable membrane. It is also defined as the measure of the tendency of a soluti ...

and dehydration while preserving its structure. The durability could also enable control over cell growth and division by resisting internal biological forces.'' * ''permselectivity: The porosity of the artificial shell should be chemically tunable to allow the selective exchange of small molecules—such as gases and nutrients—while blocking harmful agents like lytic enzymes and

macrophage Macrophages (; abbreviated MPhi, φ, MΦ or MP) are a type of white blood cell of the innate immune system that engulf and digest pathogens, such as cancer cells, microbes, cellular debris and foreign substances, which do not have proteins that ...

s, thereby supporting cell viability.'' * ''degradability: The shell should be designed to degrade on demand in a stimulus-responsive manner. Controlled chemical breakdown enables the restoration or activation of the nanoencapsulated cell's biological functions after chemical

germination Germination is the process by which an organism grows from a seed or spore. The term is applied to the sprouting of a seedling from a seed of an angiosperm or gymnosperm, the growth of a sporeling from a spore, such as the spores of fungi, ...

.'' * ''functionalizability: The nanoshell should allow for chemical modification either during or after formation without compromising cell viability, enabling functional augmentation as well as specific recognition and interaction with the external environment.''

Shell materials

Melanin-like species

Melanin-like species are synthetic or naturally inspired materials that mimic the chemical structure, physical properties, or biological functions of natural

melanin Melanin (; ) is a family of biomolecules organized as oligomers or polymers, which among other functions provide the pigments of many organisms. Melanin pigments are produced in a specialized group of cells known as melanocytes. There are ...

—the complex biopolymer responsible for pigmentation, ultraviolet protection, and radical scavenging in living organisms. Melanin-like species often include polymers, such as polydopamine and other analogs. A research team led by Kourosh Kalantar-Zadeh and Md. Arifur Rahim developed a method of single-cell nanoencapsulation, in which probiotic

lactic acid bacteria Lactobacillales are an order of gram-positive, low-GC, acid-tolerant, generally nonsporulating, nonrespiring, either rod-shaped (bacilli) or spherical ( cocci) bacteria that share common metabolic and physiological characteristics. These bact ...

catalyzed the formation of cytoprotective shells of melanin-like species on their own surfaces. This process was facilitated by Mn²⁺—an essential nutrient for

—which promoted the oxidation of external phenolic compounds (e.g.,

dopamine Dopamine (DA, a contraction of 3,4-dihydroxyphenethylamine) is a neuromodulatory molecule that plays several important roles in cells. It is an organic chemical of the catecholamine and phenethylamine families. It is an amine synthesized ...

caffeic acid Caffeic acid is an organic compound with the formula . It is a polyphenol with a key role in scavenging reactive oxygen species (ROS) generated in energy metabolism. Caffeic acid is also one major polyphenol responsible for maintaining normal le ...

, and

pyrocatechol Catechol ( or ), also known as pyrocatechol or 1,2-dihydroxybenzene, is an organic compound with the molecular formula . It is the ''ortho'' isomer of the three isomeric benzenediols. This colorless compound occurs naturally in trace amounts. It ...

), thereby inducing the biointerfacial assembly of melanin-like species.

Metal–organic complexes

Metal–organic complexes are

amorphous In condensed matter physics and materials science, an amorphous solid (or non-crystalline solid) is a solid that lacks the long-range order that is a characteristic of a crystal. The terms "glass" and "glassy solid" are sometimes used synonymousl ...

coordination compounds consisting of metal ions and organic ligands. Metal-phenolic networks, such as a metal–organic complex of Fe³⁺–

tannic acid Tannic acid is a specific form of tannin, a type of polyphenol. Its weak acidity (Acid dissociation constant, pKa around 6) is due to the numerous phenol groups in the structure. The chemical formula for commercial tannic acid is often given as ...

, have been extensively used in single-cell nanoencapsulation.

Metal–organic frameworks

A research team, led by Kang Liang, Christian J. Doonan, Frank Caruso, and Paolo Falcaro, crystallized ZIF-8 on the surface of ''

Saccharomyces cerevisiae ''Saccharomyces cerevisiae'' () (brewer's yeast or baker's yeast) is a species of yeast (single-celled fungal microorganisms). The species has been instrumental in winemaking, baking, and brewing since ancient times. It is believed to have be ...

'' as an exoskeleton that offered physical protection, while allowing transport of essential nutrients and thus maintaining cell viability, and prevented cell division, leading to an artificially induced pseudo-hibernation state. Cellular functions were fully restored upon shell emoval. The same research team demonstrated the adaptive survival of ''S. cerevisiae@''ZIF-8 under simulated extreme nutrient-depleted conditions by forming ZIF-8 shells that protected cell-surface-adsorbed

β-galactosidase β-Galactosidase (EC 3.2.1.23, beta-gal or β-gal; systematic name β-D-galactoside galactohydrolase) is a glycoside hydrolase enzyme that catalyzes hydrolysis of terminal non-reducing β-D-galactose residues in β-D-galactosides. (This enzym ...

, which catalyzed the hydrolysis of environmental

lactose Lactose is a disaccharide composed of galactose and glucose and has the molecular formula C12H22O11. Lactose makes up around 2–8% of milk (by mass). The name comes from (Genitive case, gen. ), the Latin word for milk, plus the suffix ''-o ...

into D-glucose and D-galactose.

Applications

Cell therapy

''Probiotic delivery''

A research team led by Yaoyao Zhang, Neel S. Joshi, and Junling Guo nanoencapsulated the probiotic ''Escherichia coli'' Nissle 1917 within a metal–organic complex shell composed of Fe³⁺ and

. The nanoshell protected the probiotic cells from broad-spectrum antibiotics (e.g.,

levofloxacin Levofloxacin, sold under the brand name Levaquin among others, is a broad-spectrum antibiotic of the fluoroquinolone drug class. It is the left-handed isomer of the medication ofloxacin. It is used to treat a number of bacterial infections ...

), and the nanoencapsulated cells alleviated antibiotic-associated diarrhea and inflammation in animal models.

''Bacterial therapeutics''

Jinyao Liu advanced the field of bacterial therapeutics through the formation and functionalization of polydopamine nanoshells.

Agricultural innovation

''Microbial fertilizers''

Ariel Furst's laboratory nanoencapsulated '' Pseudomonas chlororaphis'' with a metal–phenolic network of Mn²⁺ and

epigallocatechin gallate Epigallocatechin gallate (EGCG), also known as epigallocatechin-3-gallate, is the ester of epigallocatechin and gallic acid, and is a type of catechin. EGCG – the most abundant catechin in tea – is a polyphenol under basic research for it ...

to protect the nitrogen-fixing bacterium—which could serve as a fertilizer replacement—from harsh industrial processing conditions, including

freeze-drying Freeze drying, also known as lyophilization or cryodesiccation, is a low temperature Food drying, dehydration process that involves freezing the product and lowering pressure, thereby removing the ice by Sublimation (phase transition), sublimat ...

, high temperatures, and high humidity. The nanoencapsulated '' P. chlororaphis'' improved seed

rates by up to 150% in seeds of plants such as

dill Dill (''Anethum graveolens'') is an annual herb in the celery family Apiaceae. It is native to North Africa, Iran, and the Arabian Peninsula; it is grown widely in Eurasia, where its leaves and seeds are used as a herb or spice for flavouring ...

corn Maize (; ''Zea mays''), also known as corn in North American English, is a tall stout Poaceae, grass that produces cereal grain. It was domesticated by indigenous peoples of Mexico, indigenous peoples in southern Mexico about 9,000 years ago ...

radish The radish (''Raphanus sativus'') is a flowering plant in the mustard family, Brassicaceae. Its large taproot is commonly used as a root vegetable, although the entire plant is edible and its leaves are sometimes used as a leaf vegetable. Origina ...

es, and

bok choy Bok choy (American English, Canadian English, and Australian English), pak choi (British English, South African English, and Caribbean English) or pok choi is a type of Chinese cabbage ('' Brassica rapa'' subsp. ''chinensis'') cultivated as a le ...

, compared with those treated with fresh, uncoated '' P. chlororaphis''.

Renewable energy

''Hydrogen production''

A research team from Xin Huang's and Stephen Mann's laboratories nanoencapsulated individual '' Chlorella pyrenoidosa'' within a bilayer shell composed of Fe³⁺-doped polypyrrole and calcium carbonate. This nanoshell created a localized micro-niche that depleted oxygen and facilitated extracellular

electron transport An electron transport chain (ETC) is a series of protein complexes and other molecules which transfer electrons from electron donors to electron acceptors via redox reactions (both reduction and oxidation occurring simultaneously) and couples this ...

, thereby enabling sustained

hydrogen production Hydrogen gas is produced by several industrial methods. Nearly all of the world's current supply of hydrogen is created from fossil fuels. Article in press. Most hydrogen is ''gray hydrogen'' made through steam methane reforming. In this process, ...

under daylight and ambient air via metabolic switching from photosynthetic oxygen synthesis under hypoxic conditions. This algal-cell bionic system achieved continuous hydrogen generation for over 200 days in the presence of sodium ascorbate,

eosin Y Eosin Y, also called C.I. 45380 or C.I. Acid Red 87, is a member of the triarylmethane dyes. It is produced from fluorescein by bromination. Use Eosin Y is commonly used as the red dye in red inks. It is commonly used in histology, most nota ...

(photosensitizer), and

triethanolamine Triethanolamine, or TEOA, is an organic compound with the chemical formula . It is a colourless, viscous liquid. It is both a tertiary amine and a triol. A triol is a molecule with three alcohol groups. Approximately 150,000 tonnes were produ ...

(sacrificial electron donor), and retained activity for 8 days post cell death. Xin Huang's laboratory also constructed a nanoshell around '' C. pyrenoidosa'' with polydopamine,

laccase Laccases () are multicopper oxidases found in plants, fungi, and bacteria. Laccases oxidize a variety of phenolic substrates, performing one-electron oxidations, leading to crosslinking. For example, laccases play a role in the formation of li ...

, and

as building blocks, for metabolic switching from normal photosynthetic oxygen production to photobiological

Bioelectronics

''Bioelectrochemical systems''

A research team led by Joachim Say Chye Loo, Bin Cao, Jian-Rong Zhang, Jun-Jie Zhu, and Qichun Zhang constructed conducting polypyrrole nanoshells on electroactive ''Shewanella oneidensis'' MR-1 to enhance the efficiency of extracellular

electron transfer Electron transfer (ET) occurs when an electron relocates from an atom, ion, or molecule, to another such chemical entity. ET describes the mechanism by which electrons are transferred in redox reactions. Electrochemical processes are ET reactio ...

between the exoelectrogen and an

anode An anode usually is an electrode of a polarized electrical device through which conventional current enters the device. This contrasts with a cathode, which is usually an electrode of the device through which conventional current leaves the devic ...

in microbial fuel cells. The nanoencapsulation procedure, which involved Fe³⁺ adsorption onto cell surfaces followed by in situ oxidative polymerization of

pyrrole Pyrrole is a heterocyclic, aromatic, organic compound, a five-membered ring with the formula . It is a colorless volatile liquid that darkens readily upon exposure to air. Substituted derivatives are also called pyrroles, e.g., ''N''-methylpyrrol ...

, was mild enough to preserve bacterial viability and was broadly applicable to multiple species, including ''S. oneidensis'' MR-1, ''

Escherichia coli ''Escherichia coli'' ( )Wells, J. C. (2000) Longman Pronunciation Dictionary. Harlow ngland Pearson Education Ltd. is a gram-negative, facultative anaerobic, rod-shaped, coliform bacterium of the genus '' Escherichia'' that is commonly fo ...

'', '' Ochrobactrum anthropi'', and ''

Streptococcus thermophilus ''Streptococcus thermophilus'' formerly known as ''Streptococcus salivarius ''subsp.'' thermophilus'' is a gram-positive bacteria, gram-positive bacterium, and a lactic acid fermentation, fermentative facultative anaerobic organism, facultative ...

''. The nanoencapsulated '' S. oneidensis'' MR-1 exhibited a 23-fold reduction in charge-transfer resistance compared with naïve '' S. oneidensis'' MR-1; when used in the

microbial fuel cell Microbial fuel cell (MFC) is a type of bioelectrochemical fuel cell system also known as micro fuel cell that generates electric current by diverting electrons produced from the microbial oxidation of reduced compounds (also known as fuel or ele ...

, the nanoencapsulated ''S. oneidensis'' MR-1 produced five times more current and a 14-fold increase in maximum

power density Power density, defined as the amount of power (the time rate of energy transfer) per unit volume, is a critical parameter used across a spectrum of scientific and engineering disciplines. This metric, typically denoted in watts per cubic meter ...

(147.9 μW/cm² vs. 9.8 μW/cm², using an acid-treated carbon cloth electrode). A research team led by Xuee Wu and Yuan-Peng Wang nanoencapsulated ''S. xiamenensis'' within polydopamine shells [Tris-HCl buffer (10 mM, pH 8.0), 3 mg mL^-1 of

, 3 h]. In addition to its redox properties, the polydopamine shell adsorbed flavins secreted by ''S. xiamenensis'', enabling a double-mediator electron transport channel. The maximum power density was measured to be 452.8 mW/m² for the nanoencapsulated ''S. xiamenensis'' (using a carbon felt electrode), 6.1 times higher than that of the naïve ''S. xiamenensis'' anode (74.7 mW/m²). A research team led by Weidong Shi and Yang-Chun Yong nanoencapsulated ''S. oneidensis'' MR-1 with polydopamine [Tris-HCl buffer (10 mM, pH 8.5), 4 mg mL^-1 of

, 3 h] or FeS Nanoparticle, nanoparticles. FeS-functionalized ''S. oneidensis'' MR-1 exhibited better performance than polydopamine-functionalized ''S. oneidensis'' MR-1, reaching a maximum

of 3.21 W/m² (using the conventional carbon felt electrode)—a 14.7-fold increase over naïve ''S. oneidensis'' MR-1 (0.207 W/m²). polydopamine-functionalized ''S. oneidensis'' MR-1 achieved a maximum power density of 0.66 W/m² under the same microbial fuel cell configuration.

Whole-cell bioreactors

A research team led by Xiao-Yu Yang, Bo-Bo Zhang, and Bao-Lian Su nanoencapsulated ''

Rhodotorula glutinis ''Rhodotorula glutinis'' is the type species of the genus ''Rhodotorula'', a basidiomycetous genus of pink yeasts which contains 370 species. Heterogeneity of the genus has made its classification difficult with five varieties having been recogn ...

'', a whole-cell biocatalyst for the production of chiral alcohols, within polydopamine shells [TRIS buffer (pH 8.5, 50 mM), 3 mg mL^-1 of

, 3 h]. The polydopamine shells acted as redox shuttles during biocatalytic asymmetric reduction. In the asymmetric reduction of acetophenone to 1-Phenylethanol, (''S'')-1-phenylethanol, the highest yield achieved by the nanoencapsulated ''R. glutinis'' was 79.8%, approximately twice that of naïve '' R. glutinis'' (39.7%) after 24 h of reaction. In addition, the productivity of the nanoencapsulated ''R. glutinis'' during the initial 9 h reached 0.089 mmol L^-1 h^-1, which was five times higher than that of naïve '' R. glutinis'' over the full 24-hour period (0.017 mmol L^-1 h^-1), with significantly enhanced reusability.

References

{{Reflist Chemistry