The Rho family of GTPases is a family of small (~21 kDa) signaling

G protein G proteins, also known as guanine nucleotide-binding proteins, are a family of proteins that act as molecular switches inside cells, and are involved in transmitting signals from a variety of stimuli outside a cell to its interior. Their a ...

s, and is a subfamily of the

Ras superfamily The Ras superfamily, derived from "Rat sarcoma virus", is a protein superfamily of small GTPases. Members of the superfamily are divided into families and subfamilies based on their structure, sequence and function. The five main families are Ra ...

. The members of the Rho GTPase family have been shown to regulate many aspects of intracellular

actin Actin is a family of globular multi-functional proteins that form microfilaments in the cytoskeleton, and the thin filaments in muscle fibrils. It is found in essentially all eukaryotic cells, where it may be present at a concentration of ov ...

dynamics, and are found in all eukaryotic kingdoms, including yeasts and some plants. Three members of the family have been studied in detail: Cdc42, Rac1, and

RhoA Transforming protein RhoA, also known as Ras homolog family member A (RhoA), is a small GTPase protein in the Rho family of GTPases that in humans is encoded by the ''RHOA'' gene. While the effects of RhoA activity are not all well known, it is ...

. All G proteins are "molecular switches", and Rho proteins play a role in

organelle In cell biology, an organelle is a specialized subunit, usually within a cell, that has a specific function. The name ''organelle'' comes from the idea that these structures are parts of cells, as organs are to the body, hence ''organelle,'' th ...

development,

cytoskeletal The cytoskeleton is a complex, dynamic network of interlinking protein filaments present in the cytoplasm of all cells, including those of bacteria and archaea. In eukaryotes, it extends from the cell nucleus to the cell membrane and is compo ...

dynamics, cell movement, and other common cellular functions.

History

Identification of the Rho family of GTPases began in the mid-1980s. The first identified Rho member was RhoA, isolated serendipitously in 1985 from a low stringency

cDNA In genetics, complementary DNA (cDNA) is DNA synthesized from a single-stranded RNA (e.g., messenger RNA (mRNA) or microRNA (miRNA)) template in a reaction catalyzed by the enzyme reverse transcriptase. cDNA is often used to express a sp ...

screening. Rac1 and Rac2 were identified next, in 1989 followed by Cdc42 in 1990. Eight additional mammalian Rho members were identified from biological screenings until the late 1990s, a turning point in biology where availability of complete genome sequences allowed full identification of gene families. All eukaryote cells contain Rho GTPase (ranging from 6 in yeast to 20 in mammals). In mammals, the Rho family is thus made of 20 members distributed in 8 subfamilies: Rho, Rnd, RhoD/F, RhoH, Rac, Cdc42, RhoU/V and RhoBTB. As early as 1990, Paterson et al. began expressing activated Rho protein in Swiss 3T3 fibroblasts. By the mid-1990s, Rho proteins had been observed to affect the formation of cellular projections ("processes") in fibroblasts. In a 1998 review article, Alan Hall compiled evidence showing that not only do fibroblasts form processes upon Rho activation, but so do virtually all eukaryotic cells. A 2006 review article by Bement et al. explored the significance of spatial zones of Rho activation.

Categorization

The Rho family of GTPases belong to the

of proteins, which consists of over 150 varieties in mammals. Rho proteins sometimes denote some members of the Rho family (

, RhoB, and RhoC), and sometimes refers to all members of the family. This article is about the family as a whole. In mammals, the Rho family contains 20 members. Almost all research involves the three most common members of the Rho family: Cdc42, Rac1 and RhoA. These 20 mammalian members are subdivided in the Rac subfamily (Rac1, Rac2, Rac3, and RhoG), Cdc42 subfamily (Cdc42, TC10/RhoQ, TCL/RhoJ), the RhoUV family (RhoV/Chp and RhoU/Wrch-1/), RhoA subfamily (RhoA, RhoB, and RhoC), the Rnd subfamily (Rnd1/Rho6, Rnd2/RhoN and Rnd3/RhoE), the RhoD subfamily (RhoD and RhoF/Rif), RhoBTB (RhoBTB1&2) and RhoH/TTF.

Regulators

Three general classes of regulators of Rho protein signaling have been identified: guanine nucleotide exchange factor (GEFs), GTPase-activating proteins (GAPs) and guanine nucleotide dissociation inhibitors (GDIs). GEFs activate Rho proteins by catalyzing the exchange of GDP for GTP. GAPs control the ability of the GTPase to hydrolyze GTP to GDP, controlling the natural rate of movement from the active conformation to the inactive conformation. GDI proteins form a large complex with the Rho protein, helping to prevent diffusion within the membrane and into the cytosol and thus acting as an anchor and allowing tight spatial control of Rho activation. In human, 82 GEF (71 Dbl-like and 11 DOCK-like ) control positively the activity of Rho members, while 66 GAP proteins control it negatively. Recent work has unveiled important additional regulatory mechanisms:

microRNA MicroRNA (miRNA) are small, single-stranded, non-coding RNA molecules containing 21 to 23 nucleotides. Found in plants, animals and some viruses, miRNAs are involved in RNA silencing and post-transcriptional regulation of gene expression. mi ...

s regulate post-transcriptional processing of Rho GTPase-encoding mRNAs;

palmitoylation Palmitoylation is the covalent attachment of fatty acids, such as palmitic acid, to cysteine (''S''-palmitoylation) and less frequently to serine and threonine (''O''-palmitoylation) residues of proteins, which are typically membrane prot ...

and nuclear targeting affect intracellular distribution; post-translational phosphorylation, transglutamination and AMPylation modulate Rho GTPase signaling; and

ubiquitination Ubiquitin is a small (8.6 kDa) regulatory protein found in most tissues of eukaryotic organisms, i.e., it is found ''ubiquitously''. It was discovered in 1975 by Gideon Goldstein and further characterized throughout the late 1970s and 1980s. Fo ...

controls Rho GTPase protein stability and turnover. These modes of regulation add to the complexity of the Rho GTPase signaling network and allow precise spatiotemporal control of individual Rho GTPases.

Effectors

Each Rho protein affects numerous proteins downstream, all of which having roles in various cell processes. Over 60 targets of the three common Rho GTPases have been found. Two molecules that directly stimulate actin polymerization are the Arp2/3 proteins and the Diaphanous-related formins.

Functions

Rho/Rac proteins are involved in a wide variety of cellular functions such as cell polarity, vesicular trafficking, the cell cycle and transcriptomal dynamics.

Morphology

Animal cells form many different shapes based on their function and location in the body. Rho proteins help cells regulate changes in shape throughout their life-cycle. Before cells can undergo key processes such as budding, mitosis, or locomotion, it must have some manner of

cell polarity Cell polarity refers to spatial differences in shape, structure, and function within a cell. Almost all cell types exhibit some form of polarity, which enables them to carry out specialized functions. Classical examples of polarized cells are des ...

. One example of Rho GTPases' role in cell polarity is seen in the much-studied yeast cell. Before the cell can bud, Cdc42 is used to locate the region of the cell's membrane that will begin to bulge into the new cell. When Cdc42 is removed from the cell, the outgrowths still form, but do so in an unorganized manner. One of the most obvious changes to cell morphology controlled by Rho proteins is the formation of

lamellipodia The lamellipodium (plural lamellipodia) (from Latin ''lamella'', related to ', "thin sheet", and the Greek radical ''pod-'', "foot") is a cytoskeletal protein actin projection on the leading edge of the cell. It contains a quasi-two-dimensiona ...

and

filopodia Filopodia (singular filopodium) are slender cytoplasmic projections that extend beyond the leading edge of lamellipodia in migrating cells. Within the lamellipodium, actin ribs are known as ''microspikes'', and when they extend beyond the lame ...

, projecting processes that look like "fingers" or "feet" and often propel cells or growth cones across surfaces. Virtually all eukaryotic cells form such processes upon Rho activation.

Fibroblasts A fibroblast is a type of biological cell that synthesizes the extracellular matrix and collagen, produces the structural framework ( stroma) for animal tissues, and plays a critical role in wound healing. Fibroblasts are the most common cells ...

such as Swiss 3T3 cells are often used to study these phenomena.

Study techniques

Much of what is known about cellular morphology changes and the effects of Rho proteins comes from the creation of a constitutively active mutated form of the protein. Mutation of a key amino acid can alter the conformation of the entire protein, causing it to permanently adopt a conformation that resembles the GTP-bound state. This protein cannot be inactivated normally, through GTP hydrolysis, and is thus "stuck on". When a Rho protein activated in this manner is expressed in 3T3 cells, morphological changes such as contractions and filopodia formation ensue. Because Rho proteins are G-proteins and plasma membrane bound, their location can be easily controlled. In each situation, whether it be wound healing,

cytokinesis Cytokinesis () is the part of the cell division process during which the cytoplasm of a single eukaryotic cell divides into two daughter cells. Cytoplasmic division begins during or after the late stages of nuclear division in mitosis and mei ...

, or

budding Budding or blastogenesis is a type of asexual reproduction in which a new organism develops from an outgrowth or bud due to cell division at one particular site. For example, the small bulb-like projection coming out from the yeast cell is kno ...

, the location of the Rho activation can be imaged and identified. For example, if a circular hole is inflicted in a spherical cell, Cdc42 and other active Rhos are seen in highest concentration around the circumference of the circular injury. One method of maintaining the spatial zones of activation is through anchoring to the actin cytoskeleton, keeping the membrane-bound protein from diffusing away from the region where it is most needed. Another method of maintenance is through the formation of a large complex that is resistant to diffusion and more rigidly bound to the membrane than the Rho itself.

Movement

In addition to the formation of lamellipodia and filopodia, intracellular concentration and cross-talk between different Rho proteins drives the extensions and contractions that cause cellular locomotion. Sakumura et al. proposed a model based on differential equations that helps explain the activity of Rho proteins and their relationship to motion. This model encompassed the three proteins Cdc42, RhoA, and Rac. Cdc42 was assumed to encourage filopodia elongation and block actin depolymerization. RhoA was considered to encourage actin retraction. Rac was treated to encourage lamellipodia extension but block actin depolymerization. These three proteins, although significantly simplified, covered the key steps in cellular locomotion. Through various mathematical techniques, solutions to the differential equations that described various regions of activity based on intracellular activity were found. The paper concludes by showing that the model predicts that there are a few threshold concentrations that cause interesting effects on the activity of the cell. Below a certain concentration, there is very little activity, causing no extension of the arms and feet of the cell. Above a certain concentration, the Rho protein causes a sinusoidal oscillation much like the extensions and contractions of the lamellipodia and filopodia. In essence, this model predicts that increasing the intracellular concentration of these three key active Rho proteins causes an out-of-phase activity of the cell, resulting in extensions and contractions that are also out of phase.

Wound healing

One example of behavior that is modulated by Rho GTPase proteins is in the healing of wounds. Wounds heal differently between young chicks and adult chickens. In young chicks, wounds heal by contraction, much like a draw-string being pulled to close a bag. In older chickens, cells crawl across the wound through locomotion. The actin formation required to close the wounds in young chicks is controlled by Rho GTPase proteins, since, after injection of a bacterial exoenzyme used to block rho and rac activity, the actin polymers do not form, and thus the healing completely fails.

Cell polarity

Studies in fibroblasts indicate positive feedback between Cdc42 activity and H+ efflux by the Na-H exchanger isoform 1 (NHE1) at the leading edge of migrating cells. NHE1-mediated H+ efflux is required for guanine nucleotide exchange factor (GEF)-catalyzed GTP binding to Cdc42, suggesting a mechanism for regulation of polarity by this small GTPase in migrating cells.

Phagocytosis

Another cellular behavior that is affected by rho proteins is phagocytosis. As with most other types of cell membrane modulation, phagocytosis requires the actin cytoskeleton in order to engulf other items. The actin filaments control the formation of the phagocytic cup, and active Rac1 and Cdc42 have been implicated in this signaling cascade.

Mitosis

Yet another major aspect of cellular behavior that is thought to include rho protein signaling is

mitosis In cell biology, mitosis () is a part of the cell cycle in which replicated chromosomes are separated into two new nuclei. Cell division by mitosis gives rise to genetically identical cells in which the total number of chromosomes is maintai ...

. While rho GTPase activity was thought for years to be restricted to actin polymerization and therefore to

, which occurs after mitosis, new evidence has arisen that shows some activity in microtubule formation and the process of mitosis itself. This topic is still debated, and there is evidence both for and against for the importance of rho in mitosis.

Applications

Nervous system regeneration

Because of their implications in cellular motility and shape, Rho proteins became a clear target in the study of the growth cones that form during

axon An axon (from Greek ἄξων ''áxōn'', axis), or nerve fiber (or nerve fibre: see spelling differences), is a long, slender projection of a nerve cell, or neuron, in vertebrates, that typically conducts electrical impulses known as action p ...

al generation and regeneration in the nervous system. Rho proteins may be a potential target for delivery into spinal cord lesions after traumatic injury. Following injury to the spinal cord, the extracellular space becomes inhibitory to the natural efforts neurons undergo to regenerate. These natural efforts include the formation of a growth cone at the proximal end of an injured axon. Newly formed growth cones subsequently attempt to "crawl" across the lesion. These are sensitive to chemical cues in the extracellular environment. One of the many inhibitory cues includes chondroitin sulfate proteoglycans (CSPGs). Neurons growing in culture become more able to cross regions of substrate coated with CSPG after expression of constitutively active Cdc42 or Rac1 or expression of a dominant negative form (inhibition) of RhoA. This is partly due to the exogenous Rho proteins driving cellular locomotion despite the extracellular cues promoting apoptosis and growth cone collapse. Intracellular modulation of Rho proteins has thus become of interest in research aimed at spinal cord regeneration.

Intellectual disability

Dysfunction of Rho proteins has also been implicated in

intellectual disability Intellectual disability (ID), also known as general learning disability in the United Kingdom and formerly mental retardation, Rosa's Law, Pub. L. 111-256124 Stat. 2643(2010). is a generalized neurodevelopmental disorder characterized by signif ...

. Intellectual disability in some cases involves malformation of the

dendritic spines A dendritic spine (or spine) is a small membranous protrusion from a neuron's dendrite that typically receives input from a single axon at the synapse. Dendritic spines serve as a storage site for synaptic strength and help transmit electrical si ...

, which form the post-synaptic connections between

neuron A neuron, neurone, or nerve cell is an electrically excitable cell that communicates with other cells via specialized connections called synapses. The neuron is the main component of nervous tissue in all animals except sponges and placozoa ...

s. The misshapen dendritic spines can result from modulation of rho protein signaling. After the cloning of various genes implicated in

X-linked Sex linked describes the sex-specific patterns of inheritance and presentation when a gene mutation (allele) is present on a sex chromosome (allosome) rather than a non-sex chromosome (autosome). In humans, these are termed X-linked recessive, ...

mental retardation, three genes that have effects on Rho signaling were identified, including oligophrenin-1 (a GAP protein that stimulates GTPase activity of Rac1, Cdc42, and RhoA), PAK3 (involved with the effects of Rac and Cdc42 on the actin cytoskeleton) and αPIX (a GEF that helps activate Rac1 and Cdc42). Because of the effect of Rho signaling on the actin cytoskeleton, genetic malfunctions of a rho protein could explain the irregular morphology of neuronal dendrites seen in some cases of mental retardation.

Cancer

After finding that

Ras proteins Ras, from "Rat sarcoma virus", is a family of related proteins that are expressed in all animal cell lineages and organs. All Ras protein family members belong to a class of protein called small GTPase, and are involved in transmitting signals ...

are mutated in 30% of human cancers, it was suspected that mutated Rho proteins might also be involved in cancer reproduction. However, as of August 2007, no oncogenic mutations have been found in Rho proteins, and only one has been found to be genetically altered. To explain the role of Rho pathways without mutation, researchers have now turned to the regulators of rho activity and the levels of expression of the Rho proteins for answers. One way to explain altered signaling in the absence of mutation is through increased expression. Overexpression of RhoA, RhoB, RhoC, Rac1, Rac2, Rac3, RhoE, RhoG, RhoH, and Cdc42 has been shown in multiple types of cancer. This increased presence of so many signaling molecules implies that these proteins promote the cellular functions that become overly active in cancerous cells. A second target to explain the role of the Rho proteins in cancer is their regulatory proteins. Rho proteins are very tightly controlled by a wide variety of sources, and over 60 activators and 70 inactivators have been identified. Multiple GAPs, GDIs, and GEFs have been shown to undergo overexpression, downregulation, or mutation in different types of cancer. Once an upstream signal is changed, the activity of its targets downstream—i.e., the Rho proteins—will change in activity. Ellenbroek et al. outlined a number of different effects of Rho activation in cancerous cells. First, in the initiation of the tumor modification of Rho activity can suppress

apoptosis Apoptosis (from grc, ἀπόπτωσις, apóptōsis, 'falling off') is a form of programmed cell death that occurs in multicellular organisms. Biochemical events lead to characteristic cell changes ( morphology) and death. These changes in ...

and therefore contribute to artificial cell longevity. After natural apoptosis is suppressed, abnormal tumor growth can be observed through the loss of polarity in which Rho proteins play an integral role. Next, the growing mass can invade across its normal boundaries through the alteration of adhesion proteins potentially caused by Rho proteins. Finally, after inhibition of apoptosis, cell polarity and adhesion molecules, the cancerous mass is free to metastasize and spread to other regions of the body.

References

Several mutations in Rho proteins have been identified in large scale sequencing of cancers. These mutations are listed in the Catalogue of Somatic Mutations database (http://www.sanger.ac.uk/genetics/CGP/cosmic/). The functional consequences of these mutations are unknown.