Membrane fusion proteins (not to be confused with chimeric or fusion proteins) are proteins that cause fusion of biological membranes. Membrane fusion is critical for many biological processes, especially in eukaryotic development and

viral entry Viral entry is the earliest stage of infection in the viral life cycle, as the virus comes into contact with the host cell (biology), cell and introduces viral material into the cell. The major steps involved in viral entry are shown below. Desp ...

. Fusion proteins can originate from genes encoded by infectious enveloped viruses, ancient

retroviruses A retrovirus is a type of virus that inserts a DNA copy of its RNA genome into the DNA of a host cell that it invades, thus changing the genome of that cell. After invading a host cell's cytoplasm, the virus uses its own reverse transcriptase ...

integrated into the host genome, or solely by the host genome. Post-transcriptional modifications made to the fusion proteins by the host, namely addition and modification of glycans and acetyl groups, can drastically affect fusogenicity (the ability to fuse).

Fusion in eukaryotes

Eukaryotic genomes contain several

gene families A gene family is a set of several similar genes, formed by duplication of a single original gene, and generally with similar biochemical functions. One such family are the genes for human hemoglobin subunits; the ten genes are in two clusters on ...

, of host and viral origin, which encode products involved in driving membrane fusion. While adult somatic cells do not typically undergo membrane fusion under normal conditions, gametes and embryonic cells follow developmental pathways to non-spontaneously drive membrane fusion, such as in placental formation, syncytiotrophoblast formation, and

neurodevelopment The development of the nervous system in humans, or neural development, or neurodevelopment involves the studies of embryology, developmental biology, and neuroscience. These describe the cellular and molecular mechanisms by which the complex ...

. Fusion pathways are also involved in the development of

musculoskeletal The human musculoskeletal system (also known as the human locomotor system, and previously the activity system) is an organ system that gives humans the ability to move using their muscular and skeletal systems. The musculoskeletal system provid ...

and

nervous system In biology, the nervous system is the complex system, highly complex part of an animal that coordinates its behavior, actions and sense, sensory information by transmitting action potential, signals to and from different parts of its body. Th ...

tissues. Vesicle fusion events involved in neurotransmitter trafficking also relies on the catalytic activity of fusion proteins.

SNARE family

The SNARE family include ''bona fide'' eukaryotic fusion proteins. They are only found in eukaryotes and their closest archaeal relatives like Heimdallarchaeota.

Retroviral

These proteins originate from the ''env'' gene of endogenous retroviruses. They are domesticated viral class I fusion proteins. * Syncytins are responsible for structures of the

placenta The placenta (: placentas or placentae) is a temporary embryonic and later fetal organ that begins developing from the blastocyst shortly after implantation. It plays critical roles in facilitating nutrient, gas, and waste exchange between ...

. ** Syncytin-1 ** Syncytin-2 * ERV3 is not fusogenic in humans. Still plays a role in helping the placenta evade immune response.

HAP2 family

HAP2 is a fusexin (similar to viral class II) found in diverse eukaryotes including '' Toxoplasma'',

vascular plants Vascular plants (), also called tracheophytes (, ) or collectively tracheophyta (; ), are plants that have lignified tissues (the xylem) for conducting water and minerals throughout the plant. They also have a specialized non-lignified tissue ( ...

, and fruit flies. This protein is essential for

gamete A gamete ( ) is a Ploidy#Haploid and monoploid, haploid cell that fuses with another haploid cell during fertilization in organisms that Sexual reproduction, reproduce sexually. Gametes are an organism's reproductive cells, also referred to as s ...

fusion in these organisms. Its origin is unclear, as the broader grouping of fusexins could be older than the viral class II with the discovery of archaeal homologs.

Pathogenic viral fusion

Enveloped viruses readily overcome the thermodynamic barrier of merging two plasma membranes by storing kinetic energy in fusion (F) proteins. F proteins can be independently expressed on host cell surfaces which can either (1) drive the infected cell to fuse with neighboring cells, forming a

syncytium A syncytium (; : syncytia; from Greek: σύν ''syn'' "together" and κύτος ''kytos'' "box, i.e. cell") or symplasm is a multinucleate cell that can result from multiple cell fusions of uninuclear cells (i.e., cells with a single nucleus), i ...

, or (2) be incorporated into a budding

virion A virion (plural, ''viria'' or ''virions'') is an inert virus particle capable of invading a Cell (biology), cell. Upon entering the cell, the virion disassembles and the genetic material from the virus takes control of the cell infrastructure, t ...

from the infected cell which leads to the full emancipation of plasma membrane from the host cell. Some F components solely drive fusion while a subset of F proteins can interact with host factors. There are four groups of fusion proteins categorized by their structure and mechanism of fusion. Despite their very different structure and presumably different origins, classes I, II, and III all work by forming a trimer of hairpins.

Class I

Class I fusion proteins resemble influenzavirus

hemagglutinin The term hemagglutinin (alternatively spelt ''haemagglutinin'', from the Greek , 'blood' + Latin , 'glue') refers to any protein that can cause red blood cells (erythrocytes) to clump together (" agglutinate") ''in vitro''. They do this by bindin ...

in their structure. Post-fusion, the active site has a trimer of α-helical coiled-coils. The binding domain is rich in α-helices and hydrophobic fusion peptides located near the N-terminus (some examples show internal fusion peptides, however). Fusion conformation change can often be controlled by pH.

Class II

Class II proteins are dominant in β-sheets and the catalytic sites are localized in the core region. The peptide regions required to drive fusion are formed from the turns between the β-sheets.x They usually start as dimers, becoming a trimer as fusion happens.

Class III

Class III fusion proteins are distinct from I and II. They typically consist of 5 structural domains, where domain 1 and 2 localized to the C-terminal end often contain more β-sheets and domains 2-5 closer to the N-terminal side are richer in α-helices. In the pre-fusion state, the later domains nest and protect domain 1 (i.e. domain 1 is protected by domain 2, which is nested in domain 3, which is protected by domain 4). Domain 1 contains the catalytic site for membrane fusion.

Others

A number of fusion proteins belong to none of the three main classes. Poxviruses employ a multiprotein system of 11 different genes and their relatives in the broader group of Nucleocytoviricota appear to do likewise. The structure of the fusion complex is not yet resolved. Scientists have produced some information on what each of the components bind to, but still not enough to produce a full picture.

Hepadnaviridae ''Hepadnaviridae'' is a family of viruses. Humans, apes, and birds serve as natural hosts. The family contains five genera. Its best-known member is hepatitis B virus. Diseases associated with this family include: liver infections, such as hep ...

, which includes the Hep B virus, uses different forms of the surface antigen (

HBsAg HBsAg (also known as the Australia antigen) is the surface antigen of the hepatitis B virus (HBV). Its presence in blood indicates existing hepatitis B infection. Structure and function The viral envelope of an enveloped virus has different su ...

- S, M and L) to fuse. It was found in 2021 that it has a fusion peptide in preS1, which is found in the L form.

FAST

Fusion-associated small transmembrane proteins (FAST) are the smallest type of fusion protein. They are found in reoviruses, which are non-enveloped viruses and are specialized for cell-cell rather than virus-cell fusion, forming

syncytia A syncytium (; : syncytia; from Greek: σύν ''syn'' "together" and κύτος ''kytos'' "box, i.e. cell") or symplasm is a multinucleate cell that can result from multiple cell fusions of uninuclear cells (i.e., cells with a single nucleus), ...

. They are the only known membrane fusion proteins found in non-enveloped viruses. They exploit the cell-cell adhesion machinery to achieve initial attachment. They might encourage fusion by inducing membrane curvature using a variety of hydrophobic motifs and modified residues.

Examples

Cross-group families

Fusexin

The fusexin family consists of eukaryotic HAP2/GCS1, eukaryotic EFF-1, viral "class II", and haloarchaeal Fsx1. They all share a common fold and fuse membranes. In an unrooted phylogenetic tree from 2021, HAP2/GCS1 and EFF-1/AFF-1 occupy two ends of the tree, the middle being occupied by viral sequences; this suggests that they may have been acquired separately. The latest structure-based unrooted phylogenetic tree of Brukman ''et al.'' (2022), which takes into account the newly-discovered archaeal sequences, shows that Fsx1 groups with HAP2/GCS1, and that they are separated from EFF-1 by a number of viral sequences. Based on where the root is placed, a number of different hypotheses regarding the history of these families – their horizontal transfer and vertical inheritance – can be generated. Older comparisons excluding archaeal sequences would strongly favor an interpretation where HAP2/GCS1 is acquired from a virus, but the grouping of Fsx1 with HAP2/GCS1 has allowed the possibility of a much more ancient source.

References

External links

* {{Membrane proteins Membrane proteins