key: cord-0792292-kuotisnv
authors: Gumashta, Jyotsna; Gumashta, Raghvendra
title: COVID19 associated Mucormycosis: Is GRP78 a Possible Link?
date: 2021-09-10
journal: J Infect Public Health
DOI: 10.1016/j.jiph.2021.09.004
sha: 0209e328b621cd1fbf19438fc9cb9bf0bfd454fa
doc_id: 792292
cord_uid: kuotisnv

This review aimed to study molecular mechanisms for high incidence of life-threatening mucormycosis infection in COVID19 cases during second wave of SARS CoV2 pandemic in India. Hyperglycaemia, impaired immunity, acidosis, raised ferritin, glucocorticoid therapy, and COVID19 specific other factors have been implicated in pathogenesis of COVID19 associated mucormycosis (CAMM). Endoplasmic reticulum chaperone ‘Glucose Related Protein 78' (GRP78), also involved in SARS CoV2 entry, is the host receptor for invasion by Mucorales. GRP78 is over-expressed by SARS CoV2, hyperglycaemia and ferritin. Delta variant of SARS CoV2 and indiscriminate use of steroids were distinguishing features of second wave and appear to upregulate GRP78 through intricate interplay between internal and external milieu. Common invasive fungal infections like candidiasis and aspergillosis, not utilizing GRP78 as receptor, were inconspicuous. Further molecular research to unravel mechanisms involved in the pathogenesis of CAMM shall effectively complement existing strategies for its prevention and treatment.

The Severe Acute Respiratory Syndrome Corona Virus 2 (SARS CoV2) causing Corona Virus Disease (COVID19) has affected more than 30 million people and caused 433589 deaths in India. [1] A second surge in COVID19 cases was witnessed in India almost 12 months after the declaration of SARS CoV2 pandemic. Delta variant, which was designated as strain of concern by Centre for Disease Control and Prevention (CDC) for its increased transmissibility and the severity of disease it causes [2] , was the dominant strain. [3] An increased incidence of mucormycosis was observed in COVID19 patients during this second wave. [4, 5] Mucormycosis being a rapidly spreading fungal infection with lifethreatening consequences created concern among medical fraternity and public. Secondary infections with bacteria and fungi were not a common finding in COVID19 cases earlier. Studies have reported very low incidences of bacterial co-infections and extremely low rates of fungal co-infections in COVID19 cases as compared to co-infections in influenza disease. [6, 7, 8] Similarly co-infections in MERS and SARS CoV1 were also uncommon. [6, 7, 8, 9] The fungal co-infections in COVID19 cases reported from other countries were mainly of Aspergillus and Candida infections. [10, 11, 12, 13] A review article on cases reports and case series published between December 2020 and April 2021 found 43 cases of mucormycosis in COVID19 cases of which 71% were from India. [14] The aim of the present review was to understand the mechanisms underlying mucormycosis co-infection in COVID19 cases and to explore further avenues for their prevention and treatment.

Literature search for this narrative review was conducted on PubMed for articles published between the years 1980 and August 2021 and on google search-engine for current COVID19 information. The key words used included 'COVID19', 'mucormycosis', 'GRP78', 'heat shock proteins', 'invasive fungal diseases' and 'delta variant'. Titles and abstracts including 'pathogenesis of mucormycosis', 'immune mechanism against mucormycosis', 'invasive fungal infection', 'fungal infections in COVID19', J o u r n a l P r e -p r o o f 'haematological findings in COVID19', 'COVID19 associated mucormycosis', 'trends in second wave' and 'GRP78 in COVID19' were identified and full papers were studied.

Mucormycosis or zygomycosis is a rare, aggressive, rapidly spreading, angio-invasive fungal infection. [15] This life-threatening infection is most frequently caused by Rhizopus Oryzae (syn.

Rhizopus arrhizus), a filamentous fungus belonging to the family Mucoraceae of the order Mucorales.

[ Fig: 1 ] Its spores are ubiquitously present in soil, air, and in decaying fruits and vegetables. Unlike other filamentous fungi that are largely opportunistic infections in immunosuppressed hosts like cancer patients and organ recipients, mucormycosis can also affect those with no apparent immune impairment. [16] Mucormycosis has however been associated mainly with diabetes mellitus especially in those with diabetic ketoacidosis (DKA), haematological malignancies, organ transplant, immunocompromise, trauma and neutropenia. [17, 18] The fungal hyphae erode the tissues and blood vessels causing endothelial damage, thrombosis and tissue necrosis. [19] Case fatality is high and disfigurement occurs in survivors due to debridement surgeries needed for treatment. Necrosis gives blackish appearance to the tissues. Hence, the term 'black fungal disease' is used for mucormycosis, although the fungus itself is not black.

The computational model-based method estimated the prevalence of mucormycosis of 0.14 cases per 1000 population in India [20] , whereas the global prevalence is 0.02 to 9.5 cases (with median of 0.2 cases) per 100,000 population. Thus, the estimated prevalence of mucormycosis in India is 70 times higher than global data. [21] In India, the most common presentation is rhino-orbito-cerebral mucormycosis followed by pulmonary and cutaneous types [22, 23] and diabetes mellitus is the most common risk factor. There has been definitive increase in the incidence of COVID19 associated mucormycosis (CAMM) in India during the second wave. Although recently published scientific data was not available, this unequivocal rise was observed both locally and in other parts of country and was supported by the facts viz. setting up of special medical wards for mucormycosis patients, increase in the number of debridement surgeries, rising demands for antifungal drug amphotericin and declaration of mucormycosis as a notifiable disease in India on 20 th May 2021. By the end of June 2021, 40854 cases of mucormycosis were notified. [24] Such high incidence in a short span of time created an alarm and concern amongst health authorities.

Potential factors causing COVID19 associated mucormycosis: It is well documented that hyperglycaemia, acidosis and compromised immunity are favourable factors for mucormycosis infection, and iron enhances growth and survival of Mucorales in human host. [18, 19, 16] In the studies published on CAMM so far, most cases reported were diabetics and most received steroid. [4, 25, 26, 27] J o u r n a l P r e -p r o o f High blood sugar in these cases may have occurred as a result of loss of sugar control in diabetics as a consequence of inadequate availability of routine medical services due to various restriction during the pandemic and inadvertent glucocorticoid treatment. Although steroids had generally been reserved for moderate and severe cases of COVID19 to suppress unwanted host immune responses and cytokine storm, injudicious use among mild and home isolated cases was also in practice. Use of steroids in mild COVID19 cases must have been a consequence of indiscriminate prescription and self-treatment by patients due to mis-information.

It is however worth scrutiny that although glucocorticoids have been used in much higher doses and for longer durations in various medical conditions, mucormycosis has not been a menace in these cases. Also, diabetes mellitus is common in India and uncontrolled diabetes is not uncommon. [28] J o u r n a l P r e -p r o o f Hence, although diabetes mellitus and steroids associated hyperglycaemia hold the centre stage as per current knowledge, a deeper understanding beyond this is mandatory in the light of above facts.

There are many factors peculiar to COVID19 that may be considered contributory to CAMM. It has been in scientific discussion that unclean water in humidifiers, bad hygiene of oxygen mask and its tubing and use of industrial oxygen could be the sources of Mucorales. However, local outbreaks of mucormycosis in admitted patients receiving oxygen therapy have not been reported from any medical facility. Use of protective face masks is another unique feature of this pandemic. Repetitive use of the same mask for prolonged duration has been suspected as another source of the fungus as many pathogens can grow due to the moisture trapped in the mask. Yet another probable source could be unclean beddings, unclean vicinity and poor hygiene due to compromised bed side patient care and hospitality accentuated by the fear of contracting COVID19 amongst caregivers. Swab collection for PCR testing with non-sterile and unhygienic nasopharyngeal swabs could be another possibility.

A breach in the integrity of the nasal mucosa due to (a) overenthusiastic use of home remedies like steam inhalation, (b) nasal instillation of substances like oils and lemon juice, and (c) injury from swab collection needs to be investigated as a possible route of entry. Rampant use of broad-spectrum antibiotics, which suppresses normal commensals and reduces bacterial competition on the surface, is another factor.

Zinc, commonly prescribed for its antiviral properties in Covid19, is also an essential micronutrient for fungal growth. The new SARS CoV2 mutant B.1.617.2 or the delta variant, which was the dominant strain during the second wave [29] , is another probable factor. Higher viral load has been reported in these cases on RTPCR testing. [30] New variant and high viral loads need to be considered as an important distinguishing factor between this and previous wave. Various in-vitro studies, with dissimilar methodology, reported conflicting effects of glucocorticoid on viral replication. A study on effect of glucocorticoid treatment on respiratory tract cells found increased viral replication, altered inflammatory cell profiles and paradoxical increase of pro-inflammatory cytokines. [31] Elevated acute phase reactant J o u r n a l P r e -p r o o f ferritin in COVID19 cases needs to be investigated for being an important source of iron, which is essential nutrient for fungal growth and survival.

However, CAMM was also reported in patients who were not hospitalized, not given steroids, non-diabetic and treated at home with home remedies like steam inhalation, gargling and herbal substances, [32] with or without the usual approved treatment regimens. Hence, there may be multifactorial causation and complex interplay therein, enabling the fungus to prosper when the host environment became conducive. [Fig:2] Evasion of host defences by Mucorales: Two steps are required for Mucorales to infect the host, first is to germinate and second is to invade the tissues. Ability of spores to germinate and form hyphae is the most critical step. [17] Animal studies have shown that the inhalation of Mucorale sporangiospores in immunocompetent animals does not produce mucormycosis. [33] The macrophages suppress spore germination and neutrophils kill the hyphae by oxidative burst in immunocompetent host. [34] The neutrophils start expressing Toll-Like-Receptors 2 (TLR2) on exposure to hyphae and phagocytose the fungus.

The type of immunosuppression determines the susceptibility to and virulence of the fungal infection. [35] 70 to 100 % of the patients with haematological malignancies developing mucormycosis, have been reported to have neutropenia. [36] In diabetic ketoacidosis, there is dysfunctional phagocytosis, impaired chemotaxis and defective intracellular killing of fungus. [37] In a study of 658 COVID19 cases, ketoacidosis was noted in 5 cases and ketosis was present in 42 cases, of which only 15 were diabetics. [38] Thus the presence of ketosis and ketoacidosis in non-diabetics with COVID19 is a possibility. Experimental studies have shown that exposure to corticosteroids renders the alveolar macrophages incapable of preventing germination of spores and ketoacidotic environment prevents the cytotoxic action of macrophages. [39] High ferritin levels, as an acute phase reactant have been found in COVID19 [40, 41] and ferritin associated iron induces neutrophil dysfunction. [42] J o u r n a l P r e -p r o o f Platelets have also been observed to inhibit fungal germination and hyphal growth, and induce hyphal damage in in-vitro studies. [34, 43] Lymphopenia has been associated with disease severity in COVID19 and has also been a frequent finding in cases of mucormycosis with COVID19. [44, 45] T-Lymphocytes play an important role in regulating functions of other immune cells. Lymphopenia, thrombocytopenia and morphologically abnormal neutrophils have been observed in COVID19 cases [34] and any of them, alone or in combination may predispose to mucormycosis. It is however worth noticing that AIDS patients, who predominantly have lymphopenia, suffer from many opportunistic infections but mucormycosis has not been a concern among them. Dysfunctional phagocytosis by neutrophil and macrophage is next critical step for the Mucorales to escape destruction and germinate to form hyphae for host invasion.

In immunocompromised hosts, the main invasive fungal infections are Candidiasis, Aspergillosis, Mucormycosis and Cryptococcosis. [35] The unanswered pertinent observation herein is the extremely rare occurrence of other opportunistic infections usually expected in immunocompromised cases and the selective presence of mucormycosis in some COVID19 cases. Once the fungus germinates and escapes phagocytosis, damage of, and penetration through the endothelial cells or the extracellular matrix proteins lining the blood vessels is the final step for the fungal invasion. [17] GRP78 as receptor for invasion of Mucorales: The aggressive nature of mucormycosis is due to invasive property of fungal hyphae. Mucorales utilize host Glucose Regulated Protein 78 (GRP78) as receptor for invasion into tissues and endothelial cells. [18] GRP78, also known as Binding Immunoglobulin Protein (BiP) or Heat Shock Protein A5 (HSPA5), is a chaperone protein found mainly in endoplasmic reticulum (ER) and is concerned with folding, assembly and secretion of proteins.

GRP78 is upregulated during ER stress and serves as an ER stress sensor. In addition to ER, it is also found on cell surface and extracellular environment. [47] The Spore Coat Protein Homologs CoTH3 and CoTH2 of the fungal hyphae act as ligands for cell surface GRP78 (csGRP78). [Fig: 3 

CoTH2 are widely present in Mucorales and absent in non-invasive fungi. [48, 49, 50] Diabetic Keto J o u r n a l P r e -p r o o f Acidosis has been found to upregulate CoTH3 and nasal GRP78, which explains the rhino-orbitocerebral presentation of mucormycosis in these cases. [51] The fact that more common invasive fungi viz. Candida albicans and Aspergillus fumigatus do not utilize GRP78 for invasion needs special emphasis. [18] [ Table: 1] Scope for both targeted anti-GRP78 and anti-CoTH drugs to treat mucormycosis is obvious. [48, 49] It has been observed that iron and glucose both enhance the susceptibility of endothelial cells to R. oryzae invasion and damage by inducing overexpression of GRP78, wherein the effect of iron was more drastic. [18] Acidosis causes release of free iron from iron binding proteins. [18] As ketosis, ketoacidosis [38] and high levels of ferritin were found in COVID19 cases [40, 41] and since iron is essential for the fungal growth, survival and virulence, [54] the role of ferritin in CAMM needs to be further investigated.

The SARS CoV2 spike protein has two subunits S1 and S2. The S1 subunit binds with the host ACE2 (Angiotensin converting enzyme Type 2) receptors and S2 subunit is implicated in fusion of the virus with the host cells. The process of internalization of virus utilizes cathepsin, transmembrane protease, serine 2 (TMPRSS2) and human airway trypsin like proteases (HAT) as well as ACE2. [55] Several studies have shown the evidence of alternative receptors and cofactors that help in virus entry and fusion. [56, 57, 58] Docking studies have shown interaction between receptor binding domain (RBD) of SARS CoV2 spike protein and GRP78. [56] J o u r n a l P r e -p r o o f proteins. In this process GRP78 is exported out of ER and expressed on the cell surface. GRP78 was four times higher in SARS CoV2 positive pneumonia than SARS CoV2 negative pneumonia. [58] J o u r n a l P r e -p r o o f Significant elevation of GRP78 was observed in both SARS CoV2 positive and negative pneumonia as compared to controls but it is still higher in SARS CoV2 positive pneumonia. [55] The increased GRP78 expression on cell surface may further enhance viral entry by positive feedback cycle. Co-localization has been observed between endogenous GRP78 and ACE2 in perinuclear region typical of ER and also on the cell surface. GRP78 may be important for ACE2

trafficking, localization and stability on cell surface, as GRP78 knockdown by siRNA (Small interfering Ribonucleic acid) reduces the level of cell surface ACE2 in parallel with decrease in csGRP78. [57] Co- reduces the expression of cell surface ACE2 and GRP78 as well as total GRP78. In addition, AR-12 suppresses the ability of SARS CoV2 to produce virus spike protein and to generate infectious virion.

AR-12 may hence be an antiviral against SARS CoV2 infection. [59] Another study found imatinib as the top docking score drug in virtual screening on GRP78 nucleotide binding domain (NBD). [58] GRP78 mediated damage of Beta cell of Pancreas: It had been reported that cytokine-exposed beta pancreatic cells cause secretion and cell surface translocation of GRP78. [60] The csGRP78 can mediate cell signalling in pro-proliferative, pro-survival and pro-apoptotic pathways. [47] The secreted GRP78 itself acts as a ligand for csGRP78 on pancreatic β cell and activates the pre-apoptotic pathways leading to beta cell damage and hyperglycaemia. [60] COVID19 is associated with release of various cytokines depending on the stage and severity of the disease [40, 41] and can cause hyperglycaemia via this pathway.

Increased incidence of CAMM during second wave of SARS CoV2 pandemic in India shows to have multifactorial causation. Hyperglycaemia, acidosis, impaired immunity and raised iron are important factors associated with pathogenesis of mucormycosis. Steroid therapy, raised ferritin and various factors unique to COVID19 viz. oxygen therapy, protective face masks, broad spectrum antibiotics and J o u r n a l P r e -p r o o f breached integrity of nasal mucosa have been implicated in creating a suitable environment for mucormycosis infection. Most CAMM cases had hyperglycaemia and history of glucocorticoid therapy.

The delta variant of SARS CoV2 and indiscriminate use of steroids were two unique features typical to second wave and appear to be drivers of CAMM. The endoplasmic reticulum chaperone GRP78 is over-expressed in viral infections and high viral load on RTPCR was observed in COVID19 during second wave. The higher viral load observed could be consequential to inadvertent glucocorticoids use, subsequently leading to higher ER stress and exaggerated GRP78 expression.

Hyperglycaemia and raised ferritin also cause over-expression of GRP78.

Mucorales bind to host GRP78 via its CoTH proteins to invade tissues. On the contrary, these are not utilized by more common invasive fungi. Overexpressed csGRP78 is also a potential mediator of pancreatic beta cell damage leading to hyperglycaemia. Thus, hyperglycaemia is both cause and effect of over-expressed GRP78.

In COVID19 cases, phagocytic dysfunction can be caused by hyperglycaemia, glucocorticoids, 

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